Photosynthetic oxygen exchange measurements in...
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S a r a I r e n e Swenson - - -- --
B . S c . U n i v e r s i t y o f Alaska , F a i r b a n k s , 1976
M . Sc . U n i v e r s i t y o f A l b e r t a , Edmonton, 1979
- THESIS SUBWYTED I N PARTIAL FULFILLMENT OF
THE REQUIREMENTS FOR THE DEGREE O F
DOCTOR OF PHILOSOPHY
i n the-Department
P h y s i c s
8 S a r a I . Swenson 1986
SIMON FRASER UNIVERSITY
J u l y , 1986
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I S B N 0-315;36366-5
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Name: S a r a I . Swenson
Degree: Doctor o f P h i l o s o p h y .
T i t l e of Thes i s : P h o t o s y n t h e t i c Oxygen Exchange .Measurements , in Marine Algae
, * - - - - - - - -
Examining Commit t e e :
Chairman: D r . J C. I r w i n
D r . Konrad Colbow S e n i o r Supe rv i so r
D r M . L . Y. Thewalt
D r . l a m E . V i d a v ~ r - -
D r . A . H . Burr
D r . Radovan ~ d p o v i c E x t e r n a l Examiner C e n t r e de Recherche e n Photobiophysique U n i v e r s i t 6 du Quebec h Trois -Riv iBres
Date 'Approved: .
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PARTIAL COPYRIGHT LICENSE
& (hereby g ran t t o Simon Fraser U n i v e r s i t y the r i g h t t o lend
my t h e s i s , p r o j e c t o r extended essay ( t h e t i t l e o f which* i s shown below)
t o users o f t he Simon ~ r a s e r U n i v e r s i t y L ib ra ry , and t o make p a r t i a l o r
s i n g l e cop ies -on ly f o r such usdrs o r i n response t o a request from t h e
I i b r a r y o f any o the r u n i v e r s i t y , o r o t h e r educat ional i n s t i t u t i o n , an - ---
- i t s own beha l f o r f o r one o f i t s users. I f g r n e r agree t h a t permiss ion
- f o r m u l t i p l e copying o f t h i s work f o r scholar1 y purposes may be granted
by me o r t h e Dean'of Graduate Studies.
o r pub1
w i t h o u t
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my w r i t t e n permission.
I t i s understood t h a t copying'
I a l g a i n s h a l l no t be al lowed -
T i t l'e o f Thes i s/Project/Extended Essay
Measurements i n Marine Algae
Author:
( s ignature) -
Sara Swenson
(name)
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iii
ABSTRACT
Photosynthetic oxygen evolution occurs in the thylakoid
membranes of chloroplasts as a result of water-splitting,
which provides electrons for carbon dioxide assimilation in
plants. The currently accepted model of oxygen evolution, -the_
S state hypothesis, requires the generation and cooperation of
four photochemically-formed oxidiqing equivalents in
individual photosystem I1 reaction centers. The major
evidence f ~ r this s - model involves a linear four step .
oscillation in oxygen elolutibn observed during a series o f
saturating 1 ight flashes.
Oxygen exchange (evolution and uptake) was measured in
marine algae using a bare platinum electrode in direct contact -
-- -
with the sample, anba-s=ver/silver chloride c o ~ t x k - - - electro'de. Illumination of dark-adapted algae with five
microsecond saturating light flashes produced a characteristic
series of oxygen reduction current pulses at the platinum
electrode. A "pile-upft of oxygen pulses was observed in ,
marine algae when the decay time of the oxygen pulse was
longer than the time interval between flashes. -
These partially resolved experimental oxygen exchange\
pulses for the - green - algae, ylv* species, were - - - - numeri~~lly -
deconvoluted by fitting the experimental curve with the sum of
time-shifted single pulses derived from the shape of the pulse --
--
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d u e t o t h e t h i r d f l a s k , p r o v i n g dynamic l i n e a r i t y o f t h e \ electr d e s y s t e m . - By d e t e r m i n i n g t h e amo fit o f oxygen 4 Y
/
d o n t h e t h i r d f l a s h , m u l t i p l e s o f t h e r e f e r e n c e c u r v e
- I 1" P l ~ t t i n g t h e oxygeh y i e l d a s a f u n c t i o n o f f l a s - h nu_mb_e_ r_
l e d t o t h e f a m i l i a r f o u r s t e p o s c i l l a t o r y p a t t e r n o f oxygen
were
e x c h a n g e f o r JJlva. However, t h i s oxygen e x c h a n g e i s a T
c o m p o s i t e o f o x y g e n - e v o l u t i o n a n d endogenous oxygen u p t a k e i n
u s e d to q u a n t i f y t h e amount o f oxygen p r o d u c e d f o r e a c h
t h e a l g a e . E l i m i n a t i n g t h e a n d
s u b t r a c t i n g t h e r e s u l t a n t
e x c h a n g e c u r v e y i e l d e d t h e
s e q u e n c e . T h i s showed a
f d a s h + n t h e f l a s h s e q u e n c e .
?i w i t h n e g l i g i b l e d a m p i n g , a v e r t h e f i r s t t h ee o s c i l l a t i o n s . - - - - - - - - -- - - - - - -- - - - - --
~ m b i e n t o x y g e n c o n c e n t r e t i o n a • ’ f e c t s oxygen e x c h a n g e i n
y l v a . Oxygen u p t a k e does n o t o c c u r a n a e r o b i c
c o n d i t i o n s , b u t oxygen e v o l u t i o n i n is r e v e r s i b l y and
p a r t i a l l y i n h i b i t e d .
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Dedicated t o my p a r e n t s
encouragement ' c o n t i n u a l s u p p o r t and
-
f o r t h e i r
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I would l i k e t o thank t h e members o f my s u p e r v i s o r y
commit tee , D r . K . Colbow, D r . M.L.W. Thewal t , ' and D r . ' W . E . \
Vidaver , a s w e l l a s D r . A . H . Burr and D r . R . Popovic , f o r --
t h e i r encouragement and a d v i c e o v e r t h e p a s t s e v e r a l y e a r s . >
- - - - - - - - - - --
My s p e c i a l t h a n k s go t o S i l v i a Wessel f o r h e r e d i t i n g and
c r i t i c a l i n p u t i n t o t h i s t h e s i ~ and t o P a s c a l Meunier f a r - h i s
invo lvement i n s y s t e m s a n a l y s i s and c i r c u i t d e s i g n . I would
l i k e t o thank my f e l l o w g r a d u a t e s t u d e n t s , e s p e c i a l l y Simon -
Watkins, Ken U r q u h a r t , Doug Bruce, David F r a s e r , P e t e r
Toivonen, P e t e r S i b b a l d , and U r s u l a Snyder , a s well a s J i m
Whelan and A l e x i s Mackintosh f o r t h e i r h e l p w i t h v a r i o u s
a s p e c t s o f t h i s t h e s i s r e s e a r c h . I would a l s o l i k e t o thank
Mireille - - - - Amat f o r i n s t r u c t i n g m e i n phycology - - and f o r - - - showing - - - - --- --- - - - - - - -
me t h e b e s t b e a c h e s t o c o l l e c t mar ine a l g a e on a sunny d a y .
I would l i k e t o e x p r e s s my t h a n k s t o t h e s t a f f and f a c u l t y *
o f t h e P h y s i c s Depar tment who g e n e r o u s l y gave t h e i r t ime, - - --
knowledge, and u s e o f t h e i r equipment and f a c i l i t i e s .
The f i n a n c i a l s u p p o r t from Simon F r a s e r U n i v e r s i t y and
t h r o u g h p r i v a t e b u r s a r i e s , e s p e c i a l l y t h e Canron L imi ted- -,
Sidney Hogg Memorial S c h o l a r s h i p , were v e r y much a p p r e c i a t e d .
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vii
e
TITLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i
APPROVAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ii
ACKNOWLEDGMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 'vi -~~ ~~- -~ ~-
~ - ~ - - ~
TABLE OF CONTENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii LIST OF TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . x '
LIST-OF FIGURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi - -
CHAPTER 1 INTRODUCTIONTO PHOTOSYNTHESIS . . . . . . . . . . . . . . . . . 1
4.1 Photosynthetic Systems . . . . . . . . . . . . . . . . . . . . . . . 2
1.2 Light absorption and the transfer of energy . . 5
1.3 Charge separation and the electron 6
transport chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 ' - -
1.4 Photophosphorylation . . . . . . . . . . . . . . . . . . . . . . . . . 12 - - ~ ---- -~ - ~~~ ~~ -p-------- - - ~- -- -~ - ~ ~ ~ -~
-- 1.5 Carbon fixation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
~ - - - 1.6 Photorespiration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 - - -
1.7 Subject of Study . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 CHAPTER 2 THE OXYGEN EVOLVING COMPLEX . . . . . . . . . . . . . . . . . . 24
.2.1 Photosystem 11: . . . . . . . . . . . . . . . . . . . . . . 2. ........ 24
2.2-The oxygen evolving complex . . . . . . . . . . . . . . . . . . 28
2.2.1 Polypeptides 28
2.2.2 Hangariese ....'....................r.... 32
t - ~ - - - - - - ~~
2.2..3 Chloride ions . . . . . . . . . . . . . . . . . . . . . . . . . 34
2.2.4 Calcium binding . . . . . . . . . . . . . . . . . . . . . . . . 38 4
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v i i i
2 . 3 Water o x i d a t i o n . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 - - - - - - - ~ - - - -
. . . . . . . . . . . . . 2 . 4 The k i n e t i c s o f oxygen e v o l u t i o n 4 3
2 . 5 The r o l e o f oxygen u p t a k e . . . . . . . . . . . . . . . . . . . . 4 9
CHAPTER 3 MATERIALS A N D METHODS . . . . . . . - . . . . . . . . . . . . . . . . 7
58
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 . 1 Marine a l g a e 5 8 -
3 . 1 . 1 Sample p r e p a r a t i o n . . . . . . . . . ; . . . . . . . . . :. 58
-- . . . 3 . 1 . 2 D e t e r m i n a t i o n o f c h l o r o p h y l l c o ~ t e n t COP --
3 . 2 The E l e c t r o d e s y s t e m . . . . . . . . . . . . . . . . . . . . . . . . . . 6 1
3 . 2 . 1 Membranes and e l e c t r o l y t e s o l u t i o n s ..,. 1
. . . . . . . . . . . . . . . . . . 3 . 2 . 2 The p l a t i n u m c a t h o d e
. . . . . . . . . . . . . . . . . 3 . 2 . 3 2 h e s i l v e r anode "\.4
3 . 3 E x p e r i m e n t a l methods and a p p a r a t u s . . . . . . . . . . :
--
. . . . . . . . . . . . . . . . . . . . E x p e r i m e n t a l methods
E l e c t r o n t r a n s p o r t i n h i b i t o r s , . . . . . . . . .
A p p a r a t u s f o r oxygen exchange - - - - - - - - - - -
$ . . . . . . . . . . . measurements . . . . . . . . . . - . . . . . . ;
Oxygen exchange ~neasuren ien t s under low
oxygen p a r t i a l p r e s s u r e s o r under
a n a e r o b i c c o n d i t i o n s . . . . . . . . . . . . . . . . . . . . .
L i g h t s o u r c e s . . . . . . . . . \ . . . . . . . . . . . . . . . . . .
3 . 4
CHAPTER. 4 OXYGEN EXCHANGE MEASUREMENTS I N MARINE ALGAE .
The Red Algae (Rhodophyta) . . . . . . . . . . . . . . . . . . . The Brown Algae (Phaeophy ta 1 . . . . . . . . . . . . . . . .lr,-;-$,
c_. I -
The Green Algae f c h l o r o p h y t a ) . . . . . . . . . . . . . . . . 88 - -
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B
- - - CHAPTER
- CHAPTER
QXYGEN EXCHANGE MEASUREMENTS IN . . . . . . . . . 98 I
5.lr1nterpretation of oxygen exchange c
for u v a . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 "# ' .
5.1.1 Variation of flaskfrequency . . . . . , . . . . . 104 5.1. olation of decay curves . . . . . . . . . . 106
-
5.1.3 Fitting bith m& Simplex algorithm . . :. 3 3
Sepaxation of oxygen uptake and evolution - - -
components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 121 +b
. . . . . . . . . . 5.2.1 Plash illumination o.......... 121 4
\
5.2.2 Continuous illumination . . . . . . . . . . . . . . . . 128 5.3 variation of oxygen concentration . . . . . . ; . . . . . 132
5.3.1 Effect of ambient oxygen concentration
on oxygen exchange ........................ 2
. . . . . . . . . biosis on 136 - -- -- -- _ --
5.3.3 Oxygen for water-splitting O
. . . . . . . and concomitant oxygen evolution 142
6 CONCLUSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146 APPENDI x LIST OF ABBREVIATIONS . . . . . . . . . . . . . . . . . . . . . . . . 154
LIST OF REFERENCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156--
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- . =
5 . 1 ~ ~ l ~ ; f h r e awl i t u d e , p s i t i o n , dnd 'rnar~rnud:i.rro , = -,
I. L %
& , -
f o r e a c h flash d e t e r m i n e d b y combuter . f ittlng, 2. 3 .. . e
o f t h e e x p e r i m e n t a l oxygen exchdnge c u r v e ' : ... . ... 116 - < I , .
* -
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Diagram of a higher p l a n t dr gre*n algae
2 . 2 Diagram of a thylakoid . . . . . . . . . . . . . . . . . . . . . . . . . . 7 v
G
1 . 3 P9 X i Siyht;harvcs€ing complex o f a green a l g a
- - - - - - and a cyanobacterium ur red alga . . . . . . . . . . . . . . . . 9 - -
1 . 4 The Z~ scheme of photosynthesis . . . . . . . . . . . . . . . . . . 1 3
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 .5 The Calvin cycle 17
1 . 6 Pk~torespfration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
. . . . . . . . . . . . . . . 2 . '1 Charge separation In PS i l . . . . . . . . : 25
. . . . . . . . . . . . . 2 . 2 Model of t h e o x y g e n - , e v o l v i n g complex 29 - 2 . 3 . Redox potential for oxidation of H20 . . . . . . . . . . . . 4 0
2 . 4 1 Comparison of redox potential for oxidation of
c a e a l y t lc pathyay in photosynthesis. . . . . . . . . . . . . . 4 1
2 . 5 "Phe' S-state; of t h e oxygen-evolving camp1 e x . . . . . 45
2 . 6 I Photoreduction o f U2 v i a t k e Hehler reaction . . . . 5 3
3 . 1 Uiagraw of t h e platinum and s i l v e r electrode . /
holder . . . . . . . . . . . . . . . . . . . . . . : . . . . . . . . . . . . . . . . . . . 6 2
3 . 2 Hcasuring circuit for the data acquisition
s y s t e m . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
3 . 3 Apparatus far Oxygen exchange measurements -
3 . 3 Apparatus for oxygen exchange measurements -
under low 0'* concentrations . . . . . . . . . . . . . . . . . . . . . 73
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3 . 5 Apparatus for o x y g e n e x c h a n g e - - m e d x r e m e n t s
u n d e r a n a e r o b i c c o n d i t i o n s . . . . . . . . . . . . . . . . . . . . . . 75
4 . 1 Oxygen e x c h a n g e i n pot- . . . . . . . . . . . . . . . . . . . . . . 8 3
4 . 3 Oxygen e x c h a n g e i n Alarla . . . . . . . . . . . . . . . . . . . . . . . 87
4 . 4 Oxygen e x c h a n g e i n Lamlnarla . . . . . . . . . . . . . . . . . . . . 89 ~ ~ -- - - - - - - ~- -.-
' 4 . 5 Oxygen e x c h a n g e i n Lamlnarla . . . + . . . . . . . . . . . . . . . . 90
4 . 6 Oxygen e x c h a n g e i n E$ter~rnoxaha . . . . . . . 4 . . . . . . . . . 9 1
4 . 7 Oxygen e x c h a n g e i n y l v a . . . . . . . . . . . . . . . . . . . . . . . . . 92
4 . 8 Oxygen e x c h a n g e i n y l v 4 i l l u m i n a t e d w i t h 680 nm
% l i g h t . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Oxygen e x c h a n g e flash y i e l d s e q u e n c e s f o r U l v a 4 . 9 .
i l l u m i n a t e d ' a t d i f f e r e n t w a v e l e n g t h s . . . . . . . . . . . . 95
4 . 1 0 C o m p a r i s o n o-f o x y g e n e x c h a n g e f l a s h y i e l d
s e q u e n c e s -for-di-f f e r e n t g e n e r a of mar Lne a l g a e . - . 97
5 . 1 R e f e r e n c e c u r v e f o r w. . . . . . . . : . . . . . . . . . . . . 1 0 3
5 . 2 Oxygen e x c h a n g e f o r Uva a t v a r i o u s f l a s h
f r e q u e n c i e s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 0 5
5 . 3 Oxygen e x c h a n g e f o r Y l v a i n a i r w i t h 3 . 3 Hz
- fla-sh f r e q u e n c y . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 0 7
5 . 4 Oxygen e x c h a n g e c u r v e a n d t h e f l a s h y i e l d - -
s e q u e n c e a t 3 . 3 Hz f o r d a r k - a d a p t e d . . . . . . . . 110 --
5 . 5 C o m p a r i s o n o f - o x y g e n f l a s h y i e l d s e q u e n c e s f o r
d a r k - a d a p t e d s a m p l e s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111
5 . 6 Oxygen e x c h a n g e c u r v e a n d f i t f o r y.&& . . ' . . . . . . . . 115
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- . x i i i
5 . 7 Oxygen exckjange f l a s h y i e l d s e q u e n c e s f o r Ulva . . 118 - -
5 . 8 Oxygen u p t a k e i n a i r f o r DCMU t r e a t e d Ulva
. . . . . . . . . . . . . . . . . . . w i t h v a r y i n g f l a s h f r e q u e n c i e s 122
5 . 9 . Measured oxygen exchange i n JJlva compared t o
c o r r e c t e d oxygen e v o l u t i o n . . . . . . . . . . . . . . . . . . . . . . . 126
5 . 1 0 , Oxygen exchange and u p t a k e i n under
- ii . . . . . . . . . . . c o n t i n u o u s i l l u m i n a t i o n .-. . . . . .-. . . . .-. . 129--- --
5.. 11 Oxygen exchange, u p t a k e , and e v o l u t i o n f o r y l v a
under c o n t i n u o u s i l l u m i n a t i o n . . ' . . . . . . . . . . , . . . . . . . 131
5 - 1 2 Oxygen exchange f l a s h y i e l d s i n a s a
. . . . . . . f u n c t i o n o f ambien t oxygen c o n c e n t r a t i o n s 133
5 . 1 3 Oxygen exchange f l a s h y i e l d s e q u e n c e s f o r y l v a
w i t h 1 . 5 % O 2 and under a n a e r o b i c c o n d i t i o n s . . . . . 135
Oxygen exchange f o r u , u n d e r a n a e r o b i c tv
c o n d i t i o n s w i t h f l a s h i l l u m i n a t i o n . . . . . . . . . . . . . . 140 - - - - -- - - - - - - - -- --
Oxygen exchange f o r y lva - under a e r o b i c and -
a n a e r o b i c c o n d i t i o n s w i t h c o n t i n u o u s
i l l u m i n a t i o n . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 4 4
Oxygen exchange f o r under a e r o b i c and
6 h a n a e r o b i c c o n d i t i o n s . . . . . . . . . . . . . . . . . . . . . . . . . 145
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CHAPT.ER 1. INTRODUCTION
Oxygen e v o l u t i o n is a n i n t e g r a l component o f photosyn-
t h e s i s i n g r e e n p l a n t s , a l g a e , and t h e c y a n o b a c t e r i a . S t u d i e s
o f oxygen e v o l u t i o n i n i s o l a t e d c h l o r o p l a s t s and p l a n t s have
c o n t r i b u t e d g r e a t l y t o t h e knowledge o f p h o t o s y n t h e t - i c proceg----- -
-
ses (Emerson and Arnold , 1 9 3 2 ; J o l i o t and J o l i o t , 1968; Kok e t
a l . , 1970; J o l i o t e t a l . , 1971; Forbush e t a l . , 1971; Radmer t
and Cheniae , 1977; J u r s i n i c , 1 9 8 1 ) . m w e v e r , t h e n a t u r e o f -
t h e oxygen-evolving complex (OEC) and t h e d e t a i l e d mechanism
o f oxygen e v o l u t - i o n i n p l a n t s is s t i l l l a r g e l y unknown.
Resea rch o n p h o t o s y n t h e t i c oxygen e v o l u t i o n n e c e s s a r i l y a
encompasses s e v e r a l s c i e n t i f i c d i s c i p l i n e s , such a s p h y s i c s , I
e l e c t r o c h e m i s t r y , p l a n t b i o c h e m i s t r y , and p l a n t p h y s i o l o g y ,
which a r e e s s e n t i a l t o t h e i n t e r p r e t a t i o n o f 0 exchange 2
measurements . An overv iew o f p h o t o s y n t h e s i s Ki-11 b e , p r e s e n t e d -
f i r s t , i n o r d e r t o p r e s e n t t h e s c o p e o f O2 e v o l u t i o n and up-
t a k e w i t h i n t h e f i e l d o f p h o t o s y n k h e s i s b e f o r e d i s c u s s i n g t h e
" s u b j e c t o f s t u d y i n S e c . 1 . 7 . A d e t a i l e d d i s c u s s i o n o f t h e
oxygen-evo lv ing complex and t h e c u r r e n t l y a c c e p t e d q o d e l s f o r
O2 e v o l u t i o n and u p t a k e w i l l be p r e s e n t e d i n C h a p t e r 2 .
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Photosynthetic bacteria, algae, and green plants absorb
the electromagnetis energy of sunlight and convert it to'
chemical energy in the form of high energy bonds in adenosine
triphosphate (ATP) and reduced (protonatedl nicotinamiae w
adenine dinucleot ide .phosphate (NADPH 1 . - ATP and NADPH-xre-- -&
ubsequently used to anabolize C02 to carbohydrates. In the
photosynthetic process in pla ts and cyanobacteria, H20 is^ i he initial electron donor for electron - transport.
The ability to oxidize water and evolve molecular oxygen -
1 is unique to plants, algae, and the cyanobacteria. The early
work of Emerson (see Emerson, 1958) led to the discovery of
two distinguishable pigment systems within the pliotosynthetic
apparatus, and the determination that photosynthesis in these - - -- -- --
- -- - - - - - - - -
organisms requires the cooperation of two light reactions from
Photosystem 1- (PS I) and -Photosystem I1 (PS 11) (Hill and - ..
Bendall, 1960; Duysens et al., 1961; Kok and Hoch, 1961). The
two reaction centers of PS I and PS I1 (referred to as P700
and '680 respectively) are connected in series by electron- -
and proton-carrying components. Reaction centers are denoted
by the letter P (for pigment) and the wavelength of maximum
absorption of its lowest electronic .transition, i . e ., 70OS-nm for PS I and 680 nm for PS 11.
The function of PS I Is to generate a reductant in the
form of NADPH, while the function of PS 11 is to provide the
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-
o x i d i z i n g power n e c e s s a r y f o r w a t e r - s p l i t t i n g and t o t r a n s f e r
e l e c t r o n s v i a e l e c t r o n carriers t o PS I . Pho tosys tem I1 photo-
r e a c t i o n s remove e l e c t r o n s and p r o t o n s from w a t e r , t r a n s f e r - e l e c t r o n s t h r o u g h the ' e l e c t r o n t r a n s p b r t c h a i n t o r e d u c e t h e -
-PS I r e a c t i o n c e n t e r s , and y i e l d m o l e c u l a r oxygen as a 4 y - H
p r o d u c t . The NADPH - - - and ATP - - m o l e c u l e s g-enerated by l i g h t a r e --- --- ---
t h e n u u s e d t o r e d u c e C02 t o c a r b o h y d r a t e s by -a series o f d a r k
r e a c t i o n s c a l l e d t h e C a l v i n c y c l e .
P h o t o s y n t h e s i s i n a l l p h o t o s y n t h e t i c o r g 6 i s m s c o n s i s t s o f
t h e f o l l o w i n g p r o c e s s e s (after Foyer , 1984 1 :
--
L i g h t ' a b s o r p t i o n :
The f i r s t s t e p i n p h o t o s y n t h e s i s is i n i t i a t e d when l i g h t
is a b s o r b e d by a n a r r a y o f a n t e n n a e pigment - -a m o l e c u l e s "
( r e f e rr e d t o a ST H g h F K a r v e s t-i ng7 c o mp 1 e o LHC I- t h a t p - - -
0 /
are embedded i n 1 i p o p r o t e i n membranes ( J u n g e , 1977 1 . Some -- o f t h e e n e r g y a b s o r b e d by t h e pigment m o l e c u l e s is t r a n s -
f e r r e d t o a r e a c t i o n c e n t e r a s s o c i a t e d w i t h e i t h e r PS I o r
PS I1 t h a t c o n t a i n s a t y p e o f c h l o r o p h y l l molecu le i ~ a
s p e c i a l e n v i r o n m e n t .,
Charge s e p a r a t i o n ' :
T h e - a b s o r p t i o n o f a pho ton by a PS I o r PS I1 r e a c t i o n - - - - -
c e n t e r c h l o r o p h y l l mdlecu le r e s u l t s i n e x c i t a t i o n o f t h e
m o l e c u l e and t h e l o s s o f a n e l e c t r o n t o a n a d j a c e n t
a c c e p t o r m o l e c u l e ( e i t h e r a p h e a p h y t i n o r a n o t h e r
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c h l o r o p h y l l m o l e c u l e ) . - This - - -- -- i n i t i a l - pp cha rge s e p a r a t i o n is
t h e f i r s t chemical change i n t h e r e a c t i o n sequence of
p h o t o s y n t h e s i s (Sauer , 1 9 7 9 ) .
E l e c t r o n t r a n s p o r t . 1
The o x i d i z e d ES 11 r e a c t i o n c q n t e r c h l o r o p h y l l becomes ..
reduced by adcept i r ig an e l e c t r o n from an o x i d i z a b r e sub- - - -
s t r a t e s u r h a s H 2 O The e l e c t r o n d e r i v e d from t h e 73 r e a c t i o n c e n t e r c h l o r o p h y l l i s removed from t h e r e a c t i o n
c e n t e r by t h e pr imary e l e c t r o n a c c e p t o r . The t r a n s f e r o f - -
e l e c t r o n s v i a th,e e l e c t r o n t r a n s p o r t c h a i n is coupled, t o
*.l > t h e accumula t ion o f p r o t o n s which f a c i l i t a t e s t h e syn-
t h e s i s o f ATP ( p h o s p h o r y l a t i o n ) by a membrane-bound ATPase
(Avron, 1981 1 . I
Energy s t o r a g e .
The chemical energy o b t a i n e d from s u n l i g h t by t h e l i g h t
r e a c t i o n s of p h o t o s y n t h e s i s is s t o r e d i n t h e form o f high
energy bonds o f n u c l e o t i d e s (ATP t y p e ) and i n t h e r educ ing
power o f NADPH. ATP and NADPH a r e used ' t o ~ s y n t h e s i z e - -
o r g a n i c compounds v i a ca rbon metabolism (Robinson and
Walker, 1 9 8 1 ) .
I n g reen p l a n t s and algae, p h o t o s y n t h e s k s orrcurs-i-rr-sub- -
c e l l u l a r o r g a n e l l e s c a l l e d c h l o r o p l a s t s ( F i g . 1.1) which have
a 4ouble boundary membrane r f e r r e d t o , a s t h e c h l o r o p l a s t I
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e n v e l o p e . The ar-ea i d s i d e L - - t h e --
i c o n t a y t h e e n z y m e s , ~ n e c e s s a r y
1
t h e s t r o m a a r e i n n e r membranes
e n v e l o p e , c a l l e d t h e s t roma ,
f o r c a r b o n metabol ism. W i t h i n
c o n s i s t i n g o f f l a t t e n e d s a c s o r
d i s c s , c a l l e d thy1,akoids . Each c h l o r o p l a s t c o n t a i n s a p p r o x i - i
m a t e l y l o 3 thyla l$oids , e a c h on a' -. t h e o r d e r o f 500 nm i n diame-
ter i W i t t , 1?75y/ I n h i g h e r p l a n t s , t h e s e are o f t e n a r r a n g e d
c a l l e d s t r o m a l a m e l l a e . T h i s i n t e r c o n n e c t e d t h y l a k o i d mem- / , c o n t a i n s t h e components. n e c e s s a r y f o r t h e l i g h t -
o f ATPs a r ~ d NADPH ( F i g . 1 . 2 ) and e f f e c t i v e l y
1 r e q u i r e d f o r t h e l i g h t and d a r k
r e a c t i o n o f p h o t o s y n t h e s i s . The p r o c e s s o f p h o t o s y n t h e s i s + /
w i l l be: d i s c u s s e d i n t h e fo l lo 'wing s e c t i o n s . 1
/I
J
i "1 .2 L i g h t a b s o r p t i o n arih t h e t r a n s f e r o f e n e r g y
The p h o t o s y n t h e t i c p igments , a s s o c i a t e d w i t h p r o t e i n s i n a -- -
l i g h t - h a r v e s t i n g complex i n bhe t h y l a k o i d membrane, f a c i l i t a t e
t h e a b s o r p t i o n o f l i g h t . Each t h y l a k o i d c o n t a i n s a p p r o x i -
m a t e l y l o 5 p igment m o l e c u l e s ( W i t t , 19751, l a r g e l y t h e
p r i m a r y p h o t o s y n t h e t i c p igment c h l o r o p h y l l , c a r o t e n o i d s , and
p h y c o b i l i n s . Higher p l a n t s c o n t a i n . c h l o r o p h y l l - a and c h l o r o -
p h y l l - b , w h i l e a l g a e may c o n t a i n other c h ~ o r o p h y l l s fc--bnd+cF-, F
i n a d d i t i o n t o c h l o r o p h y l l - a . C h l o r o p h y l l and t h e v a r i o u s -
a c c e s s o r y p igments have a b s o r p t i o n maxima a t d i f f e r e n t
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-
F i g . 1.1 Diagr,arn of a h i g h e r p l a n t o r g r e e n a l g a e
c h l o r o p l a s $ ( a f t e r S a l i s b u r y and Ross, 1978) I
/-
The c h l o r o p l a s t i s - su r rounded by a double memb'raneP-- --
system comprised o f l i p i d s and t e i n s . The o u t e r , h
membrane s e r v e s a s a p h y s i c a l between t h e
c h l o r o p l a s t and c y t o s o l , whi le thef i n n e r membrane
c o n t r o l s molecular t r a f f i c i n t o and o u t o f t h e
c h l o r o p l a s t . The i n t e r n a l membranes o f t h e
c h l o r o p l a s t , which c o n t a i n t h e p h o t o s y n t h e t i c *
pigments and a s s o c i a t e d p r o t e i n s , a r e r e f e r r e d , t o
i a s t h y l a k o i d s ( s t a c k e d t o form g r a n a ) o r s t roma
- pP- -- PA-- - - - -
l a m e l l a e . These rnembranis ex t end th roughout t h e - - c h l o r o p l a s t ma t r ix ( s t r o m a ) .
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A ~
This modei of a thylakaid membrane shows the
components of a photosynthetic system. Each'
thylakoid contains approximately 200 electron
. transfer chains and their associated pigment a
complexes- (~itF, 1979b). The PS 1 1 and- PS I - - - - - - - - - -
reaction centers (PsSO and P700 1 are situated
near 'the intrathylakoid space. The primary - -
acceptors for both photosystems are located near
the stroma side of the membrane (Witt, l979b).
Svmbols: 1
PS I, Photosystem I; PS 11, Photosystem 11; NADP, -- - - - - - - -- - - - - - -- - - - - -- --
--
nicotinamide adenine dinucleotide phosphate; QA,
- - the primary electron a c ~ e ~ t o r ; ' ~ ~ , the secondary
'electron acceptor; PQ, plas toquinone; FNR,
ferredoxin-NADP reductase; Fd, ferredoxin; PC, ,
plastocyanin; Fd-Th-red, Ferredoxin-thioredoxin
reductase; CF1 and CFO, coupling factor
components; ADP " (ATPI, adenine di( tri Inucleotide
phosphate; Cyt b6, cytochrome b6: Cyt f, -
cytvchrome f; Fe-S, .iron-sulfur compound; Pi,
phosphate; fl , lipid mol&ule (in thylakoids, the
lipid nblecules are mainly galactolipids.
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wavelengths, r ang ing from 400 nm t o 1100 nm. I n h ighe r - - - - -
p l a n t s , a b s o r p t i o n peaks i n bo th t h e b l u e ( app rox ima te ly 435
nm) and r ed ( app rox ima te ly 680, nm) p o r t i o n s o f t h e spectrum. ..
Approximately '99% o f t h e c h l o r o p h y l l molecules i n t h e
p h o t o s y n t h e t i c membranes abso rb l i g h t and channe l e x c i t a t i o n -
energy t o t h e PS I and PS I1 r e a c t i o n c e n t e r s (Saue r , 1 I+). 9B These an tennae c h l o r o p h y l l s a r e a s s o c i a t e d wi th acc_essory_
*
pigments, such 'a; c a r o t e n o i d s and p h y c o b i l i p r b t e i n s , i n a *
l i g h t - h a r v e s t i n g complex - ( F i g . 1 . 3 ) . I n SFeen p l a n t s and
g reen a lgae , an t ennae pigments are pr imar i - ly c h l o r o p h y l l s
( F i g . 1 . 3 a ) . whi le c y a n o b a 2 t e r i a and t h e r e d a l g a e copta - in UI
s p e c i a l i z e d upits c a l l e d phy,c~obilisomes which are composed o f
s e v e r a l d i f f e r e n t t ypes o $ pigments ( F i g . 1 . 3 b ) . The l i g h t -
h a r v e s t i n g complexes a r 6 i n c l o s e prox imi ty t o t h e r e a c t i o n
c e n t e r s a n d . e l e c t r o n t r a n s p o r t c h a i n s . Approximately 500-600 - - -- - - -- - - - - -
antennae pigment molecules a r e a s s o c i a t e d wi th each e l e c t r o n - -- -
t r a n s p o r t c h a i n ( W i t t , 1975) . The s e t o f an t ennae molecules - A-
r e l a t e d t o each e l e c t r o n t r a n s p o r t c h a i n i s o f t e n r e f e r r e d t o
as a p h o t o s y n t h e t i c u n i t (PSU). - A small p e t c e n t a g e o f t h e t o t a l c h l o r o p h y l l molecules ,
o f t e n found i n d imers (Katz e t a l . , 19791, a r e bound i n
s p e c i a l environments where t h e y form t h e r e a c t i o n centers o r "
-"trhpsn !or t he -abso rbed energy' -CPtis0 and P700j . The PS I1 cQ
r e a c t i o n c e n t e r , P680, has - been sugges t ed - t o be e i t h e r a d i - i'
-
merip. ch lo rophy l l - a a g g r e w e n Blanken e t a 1 . , 1983) o r a . ,
mogomeric ~ h l o r o p h y l l - a molecule ' (Davis e t a l . , 1 9 7 9 ) . The
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f l .
F i g . 1 . 3 ' PS I1 l . i gh t ;ha rves tgg complex o f a g r e e n a l g a , d'
- L - 7 -- --
( a k t c r d a t g by Naka tan i , 1983a: Green and Cann, - ;
--- 19$4;. ~ a k a t a n i - ' e t a l . , 1,9849 and a .cyanobaoter ium
a The p h o t o s y s t e m I1 . (PS *II )' 1 i g h t - h a r o e = $ i n g h &mple; '. ' 0 3 . r , @
' . (LHC) , i& ' -green , a l g a e d J C h l o r o p h y t a ) i s - a s f o d i a e d '- L 7 --
* 4 - * * + - w i t h t h e , r e a d k i o n - - c e n t e r p o l y p e p t i d e , c o n t a i n i n g ' th ,e ,
t Y d , \ - . PS ,I1 r e a c h i o n = e n t e r ( P 6 a 0 ~ : z . . ( t h e pr - indry elec- +
- 1 - r t r o n donor I,_ bA ( t h e p r i m a r y c e l e c t r o n a c c e p t o r i,
% \ * La '
and PHEO ( p h e o p h y t i n ) .. he ? i g h t & n e r d y e a b s o r b e d - . I /
I
i n t h e LHC i s t f a n s f e r r e ' d . t o PssO % e s ~ n a n c e ~ ; - ~ . z 2 &
j - e n e r g y t r a n s f e r t F d r s t e r , l '965) . ~ l u o r e s ~ e n c e +
'
Q C C U ~ ; f rdn , ' t he *rit&na c h l o r o b t i y l 1 ;olecul& and - R from t h e b a c k - r e a c t i o n QA P680.: . ' c .
1 - - - - -- - .
v - - - -- . - - - - - - -- - - --
- 9 - , .i
I ,
4 1 <
b The PS I1 l i g h t - h a r b e s t i n g complex fo'r r e d a l g a e 7 i
( ~ h o d o ~ h j t a 1' o r c y a n o b a c t e r ' i a c o n t a i n s p igments
embedded Jn a ,phycobi l i sokme- ( G a n t t and ~ o n t l , 1966 1 4 % . , ' t -
- . a t t a c h e d t o t h e t h y l a k o i d m;qbrane a s shoun f ~ r
- -
P- G r u e w . Energy t r a n s f e r ie fr'om -- p h y q o e r y t n r i n t o phycocyan in t o a l lophycocy ;n in t o
&b
c h l o r o p h y l l a . (CHL) . The. p r o t e i n a t t h e c e n t e r o f
t h e p h y c o b i l i s o m e i s most l i k e l y i n v a l v e d i n an- ' . --
c h o r i n g i t 'to t h e .membrage . ( G a n t t et ' a 1 . , 1 9 7 6 ) . +
. . , /
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e v e n t s , which w i l l be d i s c u s s e d i n Sec . 1 . 4 .
A b s o r p t i o n o f a pho ton by a pigment molecu le c a u s e s a n
e l e c t r o n i c t r a n s i t i o n from i t s m o l e c u l a r ground s t a t e t o a n
e x c i t e d s t a t e . The ground s t a t e of c h l o r o p h y l l m o l e c u l e s is
g e n e r a l l y t h e s i n g l e t s t a t e and t h u s e x c i t a t i o n e n e r g y ab- - - - - - - - -- - - -- -
s d r b e d i n t h e l i g h t - h q r v e s t i n g complex p r o d u c e s t h e f i r s t o r
second e x c i t e d s i n g l e t s t a t e . T h i s o c c u r s on a t i m e s c a l e o f
10- l5 s ( G o v i n d j e e and Govind jee , 1974; P e a r l s t e i n , 1 9 8 2 ) .
T h i s e x c i t a t i o n e n e r g y c a n be t r a n s f e r r e d v i a e x c i t o n migra- \
t i o n o r r e s o n a n c e e n e r g y t r a n s f e r t h r o u g h t h e a n t e n n a s y s t e m
t o a r e a c t i o n c e n t e r ( F r a n c k and T e l l e r , 19'38; F B r s t e r , 1965)
o r b e d i s s i p a t e d as l i g h t o r h e a t . The l o s s o f t h e a c q u i r e d - -
e n e r w a s l i g h t o c c u r s t h r o u g h two d i f f e f e - n t phenomena,
f l u o r e s c e n c e a n d phosphorescence2 F l u o r e s c e n c e r e f e r s - to_
e m i s s i o n 05 l i g h t t h a t accompanies ' a l l a w e d r a d i a t i v e t r a n - L
s i t i o n s from s i n g l e t e x c i t e d s t a t e s ; t h e s e e m i s s i o n s u s u a l l y
have l i f e t i m e s l e s s t h a n s . R a d i a t i v e d e - e x c i t a t i o n s
from l o n g e r - l i v e d m e t a s t a b l e s ta tes ( i . e t r i p l e t s t a t e s ) a r e '
r e f e r r e d t o a s p h o s p h o r e s c e n c e . However, due t o t h e o r i e n t a -
t i o n o f t h e l i g h t - h a r v e s t i n g complex w i t h r e s p e c t t o t h e
r e a c t i o n c e n t e r (see F i g 1 . 3 f o r PS I1 L H C ) , t r a p s f e r 'of
e n e r g y t h r o u g h t h e p igment a r r a y is v e r y e f f i c i e n t (-98%)
(Danks e t a l ' , 1 9 8 3 ) . F l u o r e s c e n c e from t h e a n t e n n a e p igments
- is r e f e r r e d t o a s 0 - l e v e l o r n o n - v a r i a b l e f l u o r e s c e n c e .
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-- - - - - --
1 . 3 Charge s e p a r a t i o n and t h e e l e c t r o n t r a n s p o r t c h a i n
.
E x c i t a t i o n energy i s e x t r a c t e d from t h e l i g h t - h a r v e s t i n g - -
complex (LHC) by t h e r e a c t i o n , c e n t e r c h l o r o p h y l l ~ (P680 o r
P700 1 . Energy t r a n s f e r r e d from t h e an tennae p i g m e h t s t o t h e
r e a c t i o n c e n t e r c h l o r o p h y l l s - - e l e v a t e s t h e r e a c t i o n . - c e n t e r - -
pigment t o a n e x c i t e d s t a t e (P680* o r P 7 0 0 * ) . The c h l o r o -
p h y l l molecule r e l a x e s t o i ts lowes t exc ' i ted s t a t e b e f o r e a
chemical change o c c u r s . W \ t h i n picoseconds o f t h e e l e c t r o n i c - - --
t r a n s i t i o n , an e l e c t r o n o f t h e e x c i t e d r e a c k i o n c y n t e r is
c a p t u r e d by a n a d j a c e n t ' a c c e p t o r molecule' ( A ) , which is t h e n .
reduced ( A - 1 . Thq a c c e p t o r molecule A . is b e n e r a l l y a
d i m e r i c c h l o r o p h y l l (PS I) o r pheophyt in (PS 11 ) (Foyer ,
1984 1 .
+ The o x i d i z e d PS-11- r e a c l E i o ~ c 6 n t e r (P 680 1 Ps a s t r o n ? --
ox idan t w h i c h t h e n c a p t u r e s a n e l e c t r o n from t h e pr imary -
donor (21 and r e t u r n s t o i ts ground s t a t e (P6801 l e a v i n g Z
+ i n a n o i i d i z e d form (2'1. The o x i d i z e d , pr imary donor, Z ,
o b t a i n s an e l e c t r o n from t h e o x i d a t i o n o f H Z O Water ox ida -
i- t i o n and d o n a t i o n o f e l e c t r o n s t o PssO w i l l b e d i s c u s s e d
i n Sec. 2 . 3 . The e l e c t r o n removed from PssO i s r a p i d l y
t r a n s f e r r e d bo a second e l e c t r o n a c c e p t o r and t h e n through a
c h a i n o f carriers t h a t are s i t u a t e d ac 'ross t h e membrane. -- - Elec- -
t r o n s removed from PssO a r e t r a n s f e r r e d t o a p l a s toqu inone
(PO) pool which r educes t h e o x i d i z e d PS I r e a c t i o n c e n t e r
+ c h l o r o p h y l l (P700 1 .
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The serAes o f e l e c t r o n t r a n s f e r s t h a t o c c u r ' i n t h e ' l i g h t
r e a c t i o n s o f p h o t o s y n t h e s i s a r e r e p r e s e n t e d .by t h e 2-scheme
( H i l l and B e n d a l l , 1960) as shown i n F i g . 1 . 4 . a
The flow of e l e c t r o n s th rough t h e e l e c t r o n t r a n s p o r t c h a i n
is c o u p l e d t o t h e s y n t h e s i s o f ATP (Arnon e t a l . , 1954;
F r e n k e l , 1954; Foyer , 1984 ) . The membrane-bound enzyme
complex r e s p o n s i b l e f o r t h e s y n t h e s i s o f ATP is ATPase o r t h e 4
c o u p l i n g f a c t o r ICF) ( M i t c h e l l , 1976; HcCarty, 1 9 7 9 ) . The
c h l o r o p l a s t c o u p l i n g f a c t o r is a r e v e r s i b l e , l i g h t - a c t i v a t e d
ATPase t h a t h a s two d i s t i n c t components , a h y d r o p h i l i c p r o t e i n - - - -- - - - - - - - - - -- --
complex, CF1, and a h y d r o p h o b i c p r o t e i n complex, CC (see
F i g . 1 . 2 ) . The p r o t e i n complex, CFO, s p a n s t h e t h y l a k o i d -
membrane and forms t h e b i n d i n g s i t e f o r CFl-, w h i c h p r o j e c t s -
i n t o t h e s t r o m a . The s i t e o f 'ATP s y n t h e s i s is l o c a t e d i n i
CF1, w h i l e CFo c o n t a i n s a p r o t o n c h a n n e l f o r t r a n s l o c a t i o n
o f p r o t o n s a c r o s s t h e t h y l a k o i d , membrane (McCarty and Cgrmel i ,
' There a r e two sites o f p r o t o n u p t a k e on t h e s t r o m a s i d e of
the t h y l a k o i d membrane and two sites of p r o t o n release into - -
t h e i n t r a t h y l a k o i d s p a c e . P r o t o n s a r e t a k e n up from t h e
s t r o m a by t h e r e d u c e d p l a s t o q u i n o n e p o o l (PQH2) and by t h e
p r o t o n - b i n d i n g t e r m i n a l a c c e p t o r , NADP'. P r o t o n s ar; r e l e a s e d
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The 2 scheme is a model o f PS I and PS I1 l i n e a r
e l e c t r o n t r a n s f e r g i v e n i n terms o f t h e redox
p o t e n t i a l s o f t h e e l e c t r o n c a r r i e r s . ( H i l l and -
Bendal l , 1960 1 . E l e c t r o n t r a n s f e r ( i n d i c a t e d by - - - - - - -A - -
s o l i d 1 i n e s 1 i s - c o u p l e d wi th p r o t o n t r a n s l o c a t i o n
(dashed l i n e s ) a c r o s s t h e t h y l a k o i d membrane. 9
H = a c t i v e s i t e o f t h e oxygen-evolving complex
2 = primary e l e c t r o n donor t o PS I1 ( s t i l l unknown)
PHEO = pheophyt in
PQ POOL = p la s toqu inone pool
Fe-S = an i r o n - s u l f u r p r o t e i n
CYT = cytochrome
PC = p l a s t o c y a n i n
Chla = c h l o r o p h y l l a --.
FDX, FDA, FDB = i r o n - s u l f u r p r o t e i n s (bound
5 f e r r e d o x i n s )
FDS = s o l u b l e f e r r e d o x i n
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- - - - - --
into the intrathylakoid-sbace by oxidation of H20 and oxida-
tion of the PO pool. Plastoquinone serves as a "proton
shuttle1# which results in two protons translocated from the
stroma into the thylakoids for every two electrons transferred
through the electron transport chain (Trebst, 1978 1 . .
Charge separation - - generates - an - electrochemical - - - - potential - - - - - - - -
difference ~ r p and a localized electric" field (Witt, 1279b)
across the membrane. The translocation of pr.otons in response /
to the electrochemical gradient generates a pH gradient across
the membrane (ApH) which produces a conformational change in
the coup1 ing factor (McCarty, 1979; McCarty and Carmeli, 1982;
Ort and Melandri, 1982). Both by and A ~ H drive ATP synthesis
by "pumpingw protons through a proteolipid channel in CFr
This causes a structural transformation in the coupling factor
complex. (CFo-CF1), converting CF1 into an ATP-synthesizing
system. The ApH produced contributes significant1 y to the
driving force for photophosphorylation. the proton motive
force (pmt 1 :
pmf = Ay - 2.3 ApH F
where FIis FaradayTs constant. T is temperaTure CIElvln),-R Is--
the gas constant (8.31 J/mole/K). This is the potential avail-
able for the synthesis of ATP by the chloroplast coupling
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. . -- - - - - -- -
f a c t o r CFO-CF1. A t 25.C. 2.3RTIF h a s a v a l u e o f 59 m V .
The s y n t h e s i s o f ATP f r o i ADP is a d e h y d r a t i o n r e a c t i o n :
ADP + Pi + ATP + H-p
where Pi r e f e r s t o a - - p h o s p h a t e - - - group, PO4 - ( o r t h o - p h o s p h a t e ) . - - - - - - - - - -
During p h o t o s y n t h e s i s , t h e H + and OH- i o n s a r e s e p a r a t e d a s
soon a s t h e y are removed from ADP and Pi due t o t h e l i g h t -
g e n e r a t e d pH g r a d i e n t a c r o s s t h e membrane and w a t e r d o e s n o t
f a c t u a l l y form. T h i s e n s u r e s t h a t an, e x c e s s o f H i o n s a r c
p r e s e n t i n s i d e t h e t h y l a k o i d membrane r e l a t i v e t o o u t s i d e t h e
membrane (which i s a l k a l i n e ) . Thus, t h e s y n t h e s i s o f ATP
c o n t i n u a l l y n e u t r a l i z e s t h e p r o t o n g r a d i e n t t h a t is g e n e r a t e d
by e l e c t r o n t r a n s p 0 r . t ( F o y e r , 1 9 8 4 1 . *
- - - - - - -- - - - - - - - - - - - - - --
1 . 5 Carbon F i x a t i o n
The e n e r g y s t o r e d i n t h e p h o s p h a t e l i n k a g e o f ATP and i n
t h e r e d u c i n g power o f NADPH is u t i l i z e d and c o n s o l i d a t e d i n
t h e d a r k r e a c t i o n s o f p h o t o s y n t h e s i s l The e n e r g y t e m p o r a r i l y
s t o r e d i n t h e s e compounds is u s e d t o d r i v e t h e f i x a t i o n o f
C02 to . jpr;duce c a r b o h y d r a t e 2 is t h e s t r o m a o f c h l o r o p l a s t s , - - - - - - - -
v i a t h e C a l v i n c y c l e ( B e n s o n ' a n d C a l v i n , 1958; C a l v i n and
Baysham, 1962) and t o power b i o s y n t h e t i c r e a c t i o n s o f t h e cel l I
i n t h e l i g h t .
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- -- - --
The Calvin cycle, as it occurs in chloroplasts, is shown
in Fig. 1.5. Six carbons (in the form of C02) react with 6
molecules of ribulose 1,5 bisphosphate (RuBP) to form 12 - --
molecules of glyceraldehyde 3-phosphate (G3P) , two of which
give rise to one molecule of gl'ucose (C6H1206!, which is
taken out of the cycle. Twelve molecules -of H 0 are added----- 0 2 - -
imto the cycle which are not shown in Fig. 1.5.
The first enzyme in the cycle, RuBP carboxylase, reacts
with C02. The enzyme catalyzes a two-step reaction and has -
a high affinity for COZ, but atow affinity ;or HC03 . This
enzyme is present in the chloroplast in large quantities. It
represents at least 15% of the total chloroplast protein and
may b6 bound to the outer surface of the thylakoid membrane.
RuBP carboxylase is allosteric and its enzymatic activity is - --- - -- -- - - - - -
coitrolled by light intensity, oxygen concentration, pH, and
various metabolites. This enzyme is the main controlling
factor of the Calvin cycle and also plays a role in photo-
respiration, which will be discussed in Sec. 1.6. - .,
Each molecule of C02 fixed into glucose (1 complete
cycle) requires 2 NADPH and 3 AT? molecules. The oyerall - -
f reaction for the biosynthesis of 1 glucose molecule is:
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F i g . 1 . 5 The % a l T i n c y c l e ( a f f i r F E h X n g e r , 1982 1 . .
The c o n v e r s i o n o f C02 i n t o . g l u c o s e d u r i n g
p h o t o s y n t h e s i s i s r e p r e s e n t e d by i h e C a l v i n c y c l e - / ' ;*;
3PG = 3 - p h o s p h o g l y c e r a t e I I
G3P = g l y c e r a l d e h y d e 3-phosphate
DHAP = d i h y d r o x y a c e t o n e p h o s p h a t e
FDP = f r u c t o s e 1,6 d i p h o s p h a t e
F6P = f r u c t o s e 6-phosphate
G6P = g l u c o s e 6-phosphate
E4P = e r y ' t h r o s e 4-phosphate . -
- X5P = x y l u l u s e 5=phosphate
SDP = s e d o h e p t u l o s e 1,7'-phos h a t e I: S7P = s e d o h e p t u l o s e 7-phosphate
R5P = r i b o s e 5-phosphate
Ru5P = r i b u l o s e 5-phosphate -
RuBP = r i b u l o s e 1 , 5 - b i s p h o s p h a t e - *
& . a P, = p h o s p h a t e
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+ C6H1206 + 6 RuBP + 18 ADP + 18 Pi + 12 - - - NADP' .
The n e t r e a c t i o n o f c a r b o n f i x a t i o n is: \
6 C02 + 1 8 ATP + - 1 2 NADPH + 1 2 H+ f-12 H20 - - - - 1 .-4--
C6H1206 t 18 &KIP + 18 Pi + 12 NAUP* .
4 -
1 . 6 P h o t o r e s p i r a t i o n .
R e s p i r a t i o n i s a n ATP-generat ing p r o c e s s by which meta-
b o l i t e s a r e ~ x i d i z e d by an i n o r g a n i c compound, such a s mole-
c u l a r oxygen. - In t h e d a r k , -- t h i s - o c c u r s - i n " t h e q i t o c h o n d r - i a - o f
p l a n t s , which a r e s u b c e l l u l a r o r g a n e l l e s . t h a t c o n t a i n t h e -
---. enzymes n e c e s s a r y t o c a t a l y z e t h e o x i d a t i o n o f o r g a n i c cel l
C
n u t r i e n t s ( i . e . c a r b o h y d r a t e s ) . I n t h e m i t o c h o n d r i a , N A D H and
C 0 2 a r e p roduced by t h e t r i c a r b o x y l i c a c i d c y c l e and N A D H i s
t h e n r e o x i d i z e d by a n enzyme i n i h e e l e c t r o n t r a n s p o r t c h a i n
( S t r y e r , 198:). The e l e c t r o n s o b t a i n e d from t h i s o x i d a t i o n
a r e p a s s e d by t h e c h a i n t o r e d u c e 0 2 t o g i v e H Z O The t r a n s - . \
f e r o f e l e c t r o n s from NADH t o O2 i s c o u p l e d t o t h e phosphory- L - - - - -- - - -- - - -
l a t i o n o f ADP t o ATP. Under n o r r k l c o n d i t i o n s , h i t o c h o n d r i a l
r e s p i r a t i o n i s n o t d e p e n d e n t t o any e x t e n t on 0 2 b c o n c e n t r a t i o n ) '
s i n c e i t i s s a t u r a t e d a t O 2 c o n c e n t r a t i o n s o f 2% ( F o r r e s t e r e t
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dl., 1966; D' Aoust and Canvin, 1974). -
In the light, net O2 uptake in plants and algae is super- 7
ceded by O2 released from the photosynthetic oxidation of H20. /
The rate of O2 e olution during photosynthesis is generally t huch greater t h a n k r a t e of O2 consumption in the dark
(Foyer, 1984). However, in some plants, the process of photo- h,
respiration occurs in the light and often exceeds dark respira-. @
tion by as much as two to three times (Zelitch, 1968; Jackson
and Volk, 1970). ' This light-dependeat respiration is associ-
ated with glycolate biosynthesis in the chloroplast and sub- *
sequent glycolate metabolism in peroxisomes-and mitochondria
(Andrews et al., 1973; Berry et al., 1978; Tolbert, 1981). I
-
The process of photorespiration is depicted in Fig. 1.6. In
contrast to mitochondria1 respiration, photorespiration does
not conserve energy, but consumes it. The term photorespira- -
tion is often used to refer to all forms of O2 uptake in the ~
light. Other types of O2 consumption reactions that can
occur in the light will be discussed in Sec. 2.6.
~hotores~iration also oxidizes metabolites, releases COZ,
and requires ATP and NADPH., The majority of O2 consumed in .
the light results from the oxygenation of RuBP via bhe oxygen-
ase reaction of RuBP carboxylase:
ng2+ O 2 + RuBP --+ 3-phosphoglycerate + 2-phosphoglycollate 1.5
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F i g .
The p r o c e s s o f p h o t o r e s p i r a t j o n i n v o l v e s r e a c t i o n s
t h a t o c c u r i n t h e c h l o r o p l a s t s , mi to t .hondr ia r and
pe rox i somes (which a r e s u b c e l l u l a r n t i c r o b o d i e s . t h a t
c o n t a i n enzymes t o form, u t i l i z e , and b r e a k down - -- -
H202). S e v e r a l p r o d u c t s formed d u r ~ n ~ ~ h o t 8 r e s $ -
r a t i o n a r e t r a n s f e r r e d t h r o u g h t h e a q u e o u s phase o f
t h e c y t o p l a s m , t h e c y t o s o l . 3
from P h o t o r e s p i r a t i o n i n c h l o r o p l a s t s r e s u l t s t h e
o x y g e n a t i o n r e a c t i o n c a t a l y z e d * hy RuBP -, 1
c a r b o x y l a s e / o x y g e n a s e . ~ h o s ~ h d ~ l ~ c e r a t e
g e n e r a t e d by t h i s r e a c t i o n is o x i d i z e d by O2 t o \ C 0 2 The phof o r e s p l r a E y c y c l e u l tvi!mateIy
r e c o v e r s Cog i n t h e m i t o c h o n d r i a .
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* - ------ -m
i 'l $ W P CHLOROPLAST
[ c r t l c " ~ U" 0Xn;mlSllt '3 - - -
-. J L PHOSPHO- CLyCOLArn y p i
GLYCOLATE
O L ~ ~ ~ I P L I ~ PEROXSOME I
I MITOCHONDRION s G z H 'NH,
- CO,
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-
Both C02 and O2 compete f o r t h e same a c t i v e s i t e on t h e
membrane, and t h u s t h e r a t e s o f t h e two . r e a c t i o n s depend on-
t h e r e l a t i v e c o n c e n t r a t i o n s o f C02 and 0 2 . S ince RuBP
ca rboxy la se a l s o c a t a l y z e s t h e oxygena t ion r e a c t i o n of RuBP, 1
i t is o f t e n r e f e r r e d t o a s RuBP carboxylase /oxygenase .
The rate o f p h o t o r e s p i r a t i o n depends on O 2 c o n c e n t r a t i o n - ---
and i s . a b s e n t a t low O2 c o n c e n t r a t i o n s ( J ackson and Volk,
1970; DtAoust and Canvin, 1974; Cornic , 1 9 7 4 ) . 'Photoresp i ra - .
t i o n is i n i t i a t e d when t h e O 2 c o n c e n t r a t i o n i n c r e a s e s i n t h e '5- presence of l i g h t s i n c e O 2 s a. compet i t ' ive i n h i b i t o r of RuBP i
- c a r b o x y l a s e . Oxygen is consumed d u r i n g p h o t o r e s p i r a t i o n and - J
H 0 is formed which is metabol ized by c a t a l a s e . U l t ima te ly , 2 2
RuBP, t h e s u b s t r a t e f o r RuBP ca rboxy la se , is formed. These
pathways a r e p r e s e n t e d i d F i g . 1 . 6 . f
- - - - - - - - - - -- -
The p r o c e s s o f p h o t o s y n t h e s i s g e n e r a t e s a s t r o n g ox idan t , 1
and a s t r o n g r e d u c t a n t . The s t r o n g r e d u c t a n t formed i n PS' I -
c a n reduce bo th O 2 and C02. I f O2 i s reduced, th,e h i g h l y - a *
t o x i c - - supe rox ide a n i o n ( 0 7 ) i s formed which r e a c t s r e a d i l y 2
wi th c h l o r o p l a s t components. Th i s 1 ight-oxygen t,oxic*ity * I
o c c u r s when t h e supp ly o f C02 is l i m i t e d o r t h e r e i s a n
e x c e s s amount o f O 2 p r e s e n t (Asada e t a l . , 19T.7). The over - I
a l l e f f e c t o f p h o t o r e s p i r a t i o n is t o reduce t h e O 2 concep t r a - - t p r
t i o n and. t h e r e f o r e r e l i e v e - t k e i n ' h i b l t i o n of RuBP carb~ulal,
a l l o w i n g r e d u c t i o n o f C02 r a t h e r t h a n 0 2 . Thus, pho to re s -
p i r a t f o n is most l i k e l y a p h y s i o l o g i c a l d e f e n s e mechanism ,
a g a i n s t l igh t -oxygen t o x i c i t y (Bjcrkrnan, 1973; sad^ e t a l . , ,
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-
1977) . Under condd t ions o f l i m i t i n g C02 o r e x c e s s l i g h t
energy , t h e p r o c e s s o f p h o t o r e s p i r a t i o n wastes ATP and MADPH
and t h u s e n a b l e s t r a n s f e r o f e l e c t r o n s from t h e PS I r e d u c t a n t
v i a f e r r e d o r i n t o NADP'. Th is a l s o p r e v e n t s pho toox ida t ion of - - - --
c h l o r o p l a s t components by 0 2 s h d o t h e r a c t i v e forms of oxygen:- --
- - - - - - , - - L p
a
1 . 7 S u b j e c t of Study \ /
Many problems s t i l l remain t o be so lved b e f o r e the mole- .
c u l a r mechanism o f p h o t o s y n t h e t i c O2 e v o l u t i o n is f u l l y
unders tood . .The re a r e many methods a v a i l a b l e t o s t u d y t h i s
P rocess , i n c l u d i n g ESR, NJR, f l u o r e s c e n c e , l i g h t - i n d u c e d
absorbance changes , e l e c t r o n microscopy, mass spec t roscopy , J- .. -- - -- - p- --
g a s (C02 o r 0 1 exchange, b i o c h e m i c a l ~ i s o l a t i o n o f l i p i d 2
a n d / o r p r o t e i n complexes, e t c . 'However, som d of t h e break-
t h roughs i n t h i s f i e l d have come from k i n e t i c s t u d i e s o f O2 5
e v o l u t i o n i n p l a n t s and c h l o r o p l a s t s which were i l l u m i n a t e d by
b r i e f , s a t u r a t i n g l i g h t f l a s h e s (Kok e t a l . , 1970; Forbush e t
a l . , 1971; J o l i o t e t a l . , 1971) . These s t u d i e s o f O2 evo lu - W , \
-tiert-hawe been hampered l a r g e l y by two problems; t h e d i f f i -
c u l t y o f s e p a r a t i n g 0 2 e v o l u t i o n and d2 up take components,
and c a l i b r a t i o n o f t h e e l e c t r o d e system. -
Two t y p e s o f e l e c t r o d e sys tems are c u r r e n t l y used f o r O2 b
exchange ( e v o l u t i o n and /o r u p t a k e ) measurements i n p l a n t s o r
I c h l o r o p l a s t s u s i n g a series o f b r i e f , s a t u r a t i n g f l a s h e s . The --,
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p r o v i d e s t h e f i r s t d e r i v a t i v e o f t h e O2 signal,-while t h e ba re
p la t inum e l e c t r o d e (Chandler and Vidaver, 1970; Swenson e t a l . ,
1986) p r o v i d e s t h e c u r r e n t due t o 02"reduc t ion a t t h e ca thode 0
as a f u n c t i o n o f t i m e . Use o f t h e ba re ~ t ' e l e c t r o d e h a s de-
c r e a s e d i n r e c e n t y e a r s , la rgely due t o an i n a b i l i t y t o p re - .
c i s e l y c a l i b r a t e t h i s type of e l e c t r o d e system, b u t a l s o due
t o t h e f a c t t h a t i t can provide l i t t l e i n fo rma t ion on i n d i v i d -
ua l s t e p s i n t h e p h o t o s y n t h e t i c p r o c e s s . However, t h e ba re P t
e l e c t r o d e i s a v a l u a b l e t o o l t o s tudy t h e e f f e c t of O 2 up-
t a k e which o c c u r s i n t h e l i g h t and t o de te rmine t h e r e l a t i o n - *
d
s h i p between ambient O 2 c o n c e n t r a t i o n and 0 e v o l u t i o n . 2
Nei the r of t h e s e two problems can be s t u d i e d us ing t h e J o l i o t
e l e c t r o d e , which a t temptS ' t o d i s c r i m i n a t e be tween a 3 a s t 1 i g h t -
i nduced r e s p o n s e and--any - s lower 1 igh t - induced respons-es . The - -- -- v
J o l i o t e Jec t rode minimizes, b u t does n o t e l i m i n a t e , an O2 up-
t a k e componenL
The o b j e c t o f t h i i r e s e a r c h is t o i n v e s t i g a t e t h e i n f l u -
'ence o f O2 c o n c e n t r a t i o n and i n t e r n a l O2 consumption * 9 _ -
r e a c t i o n s on p h o t o s y n t h e t i c O2 e v o l u t i o n . The e l e c t r o d e L
sygtein was c a l i b r a t e d , and a n a t t e m p t was made t o s e p a r a t e t he
up take and e v o l u t i o n components o f t h e O2 exchange measure-
ments . D i f f e r e n t gene ra and s p e c i e s o f marine a l g a e were used 1 --- -
as expe r imen ta l -s&nples as - t hey may r e ~ e m b i e h ighe r p l a n t s \
wi th r e s p e c t t o p h o t o s y n t h e t i c a p p a r a t u s and r e a c t i o n s , a r e
e a s i l y ob ta ined . and a r e completex systems f r. themse lves .
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I
CHAPTER 2. THE OXYGEN EVOLVING COMPLEX
Photosynthetic oxygen evolution is carried out in the
oxygen-evolving complex associated with Photosystem 11. The
components of the oxygen-evolving complex and the me~han~sm of- -
water oxidation are discussed, beginning with the photochemi-
cal reactions of PS 11. m.
The primary photochemical reaction of PS I1 is an electron - - - -
transfer from the excited FS I1 reaction center (P680*) to an - -- - -- - - - - - - - - - - - - - -
intermediate electron acceptor (Pheo) (Fig. 2.1). This charge
separation (discussed in Sec. 1.4) can be written as:
h i - + - Pheo --t PGaO Pheo .
where '~heo refers to pheophrtin (Klimov et al., 1977). Trans- - - -
dfer of an electron from the lowest excited singlet state of
PGeO* to Pheo is believed to occur within 1 ps (Butler et al., - - --- - - - - pp
1983). The secondary electron transfer step (Fig. 2.11, which
results in charge stabilization (Eckert and Renger, 19801, can
be Jepicted as:
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F i g . 2 . 2 Charge s e p a r a t i o n i n PS I1 ( a f t e r Govindjee e t a l . ,
The e l e c t r o n c a r r i e r s of PS I1 t h a t undergo
o x i d a t i o n - r e d u c t i o n r e a c t i o n s and cha rge
accumula t ion a r e shown t o g e t h e r wi th t h e e
1
approximate e l e c t r o n t r a n s f e r t imes . \
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- - Pheo QA + Pheo QA .
C__--
The p r imary e l e c t r a n a c c e p t o r , QA, i s a p l a s t o q u i n o n e (PO) -
molecu le which is a s s o c i a t e d w i t h a n i r o n molecu le , and
t i g h t l y bound t o t h e ' r e a c t i o n c e n t e r p o l y p e p t i d e ; t h i s i r o n - D
a s s o c i a t e d p l a s t o q u i n o n e - is d e s i g n a t e d QA (Renger and - -- - - - -- --
Govind jee , 1 9 8 5 ) . QA i s reduced t o ' t h e u n p r o t o n a t e d semi- -
q u i n o n e a n i o n , QA , i n l . e s s tharf 1 n s ( S a t o h , 1985 1 . T h i s
c h a r g e t r a n s f e r r e a c t i o n , from PGBO* t o PA, r e s u l t s i n -
f o r m a t i o n of a n e l e c t r i c a l p o t e n t i a l d i f f e r e n c e a c r o s s t h e
t h y l a k o i d membrane ( J u n g e and W i t t , 1 9 6 8 ) .
QA is r e o x i d i z e d by t h e secondary e l e c t r o n a c c e p t o r ,
2- QB ( F i g . 2 . 1 ) which a c c e p t s two e l e c t r o n s t o form QB
(Bouges-Bocquet, 1973; ~ e l t h u y s and Amesz, 1974; V e l t h u y s , - - --- - -- -- - - - - - - - - - - - - - - -- - --
1 9 8 0 ) . While t h e e l e c t r o n t r a n s f e r from Q A t o QB i s s low - -
(200-300 p s ) , t h e e l e c t r o n t r a n s f e r from QA t o QB is even
s l o w e r ( 0 . 6 - 0 . 8 m s ) (Cramer and C r o f t s , 1 9 8 5 ) . The reduced
2- s e c o n d a r y a c c e p t o r , QB , is s u b s e q u e n t l y p r o t o n a t e d t o form
a bound p l a s t o q u i n o l ( Q B H 2 ) which exchanges p r o t o n s w i t h i n
2 m s w i t h a m o b i l e p l q s t o q u i n o n e molecu le ( P O ) . The s e r l e s o f
f r e a c t i o n s i s d e p i c t = d w i t h 70% and 30% o f t h e PS I1 r e a c t i o n ' 1 -
c e n t e r s i n e i t h e r -OF two o x i d a t i o n s t a t e s , Q Q o r QAQB , - A B
. r e s p e c t i v e l y , p r i m t o t h e f i r s t , s h o r t ( J J B ~ light f l a s h
(Cramer and C r o f t s , 1982; Govind jee et a l . , 1 9 8 5 ) :
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;I+ ( s t a b l e )
hv - QA QB QA QB Q* Q ~ ? H + )
/Y
PO PQH2 ?+ H . ( s t a b l e )
On t h e donor s i d e o f PS 11, t h e o x i d i z e d PS I1 r e a c t i o n - - - + T - p p - p - - - - - - - - - - - - - - -
c e n t e r ( PsSO i s reduced by t h e redox component Z (Babcoek e t
a l . : 1976) ( s e e F i g . 2 . 1 ) . Renger and Govindjee (1985) have -
sugges ted t h a t Z is a s p e c i a l p l a s t o q u i n o l (PQH2) t h a t func-
t i o n s a s a one -e l ec t ron carrier between t h e oxygen e v o l v i n g
complex (OEC) and P680. The r e d o r coup le ZO'IZ ha s been sug- - + g e s t e d t o be PQH2 /PQH2 (Ghanotak is e t a l . , 1 9 8 3 ) . E l e c t r o n
+ t r a n s f e r from 2 t o P680 is dependent on t h e o x i d a t i o n s ta te
o r S s ta te (Sn , n = 0,1, 2'3.4) o f t h e oxygen-evolving =om-'
p l e q (Brettel e t a l . , 1984; Schlcrdder e t a l , , h9115). A f W -- + one l i g h t f l a s h , e l e c t r o n t r a n q f e r from 2 t o P680 o c c u r s
- -
w i t h i n 50 n s ( v a n Best and Hath is , ,1978).
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- -- --
E l e c t r o n t r a n s f e r from t h e manganese s i t e i n t h e OEC t o 2
t a k e s p l a c e i n 50-800 ps depend ing on t h e o x i d a t i o n s t a t e o f
+ t h e OEC (Govind tee e t a l . , 1 9 8 5 ) . Reduc t ion o f P680 o c c u r s i n
20 n s d u r i n g t r a n s i t i o n s . from SO + S1 and S1 + S2 and i n 250
t o 300 ns- dur' ing t r a n s i t , i o n s from S2 + S3 and S3 + ( S 4 ) 4 So
' ( B r e t t e l e t a1 . ,1984; Sch lodder e t a l . , 1 9 8 4 ) . , Oxygen evo lu - I - - - - - - - -
t i o n r e s u l t s from w a t e r - s p l i t t x n g i n app rox ima te ly J m s a f t ( e r
t h e OEC h a s c y c l e d t o i t s most o x i d i z e d s t a t e ( S 4 ) ( Junge , .
and Jackson , 1982; Govind jee e t a l . , 1 9 8 5 ) . A d e t a i l e d d i s - f .
c u s s i o n o f O 2 e v o l u t i o n w i l l be p r e s e n t e d i n Get. 2 . 4 . P
C
2 . 2 The oxygen e v o l v i n g complex %
\
2.2.-1 P o l y p e p t i d e s p p
The oxygen-evolving complexes ( O E C s ) of PS I1 a r e
l o c a l i z e d n e a r t h e i n n e r s i d e o f t h e t h y l a k o i d membrane
(Aker lund e t a l . , 1982; L a r s s o n e t . a l , 1984) as shown I n .. -
F i g . 2 . 2 . Each OEC i n t h e t h y l a k o i d membrane a c t s indepen-
d e n t l y o f t h e o t h e r s (Kok e t al . . , 1970; F o r b u s h s e t d l . ,
1 9 7 1 ) . A s s o c i a t e d w i t h t h e OEC are a t l e a s t s e v e n polypep-
t i d e s . Four o f t h e s e p o l y p e p t i d e s a r e b e l i e v e d t o be d i r e c t l y -
a s s o c i a t e d w i t h t h e a c t i v e s i t e o f t h e ovygen-evolving complex
(Gov ind j ee e t , a l . , 1985 ) , l a b e l l e d as 18, 24, 33, and 34 kD
- - p r o t e i n s i n F i g . 2 . 2 . The u n i t o f molecu la r we igh t is a
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Fig. 2.2 Model of the oxygen-evolving complex (after
Govindjee, 1984; Govindjee et al., 1985) - -
7
M = 34 kD polypeptide containing active site for
water-splitting
CYT b55j =-cytochrome b559 -. 2 = primary electron donor to PS I1
RC = reaction center complex
P680 = PS I1 reaction center
PHEO = pheophytin
QA = primary electron acceptor - - --- - -
LHC = 1 ight-harvesting complex 3
Og = secondary electron acceptor h
R = lipid molecule
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dalton-(D), where 1 kD = 1000 g/mol. The other three
polypep,tides are labellei in Pig. 2.2 ag CYT b559, RC, and /
32kD. These p ypeptides can be summari as follows
y 1 9 8 5 1 : (Govindjee e h l . ,
Photosystem I1 reaction' center polypeptide (47-5l'k~)
containing a .chlorophyll-a complex ( P6*b 1 ; pheo-
phytin (PHEO) , the intermediate electron acceptor; a I
- I L
bound plastoquinol, the primary electron acceptor,
(PA); and a bound plastoquinol electron donor (Z)-- "
Secondary bound plas toauinol electron acceptor ( QB 1
of 32 k D molecular weight
Cytochrome bSgg with 10 kD molecular weight
Intrinsic.27-34 kD polypeptide (labelled in Fig. 2.2 rn 1
=
as H; referred to in text as 34 kD) associated wfth Mn
Peripheral, hydophil ic 33 kD polypeptide, possibly
associated with Hn (location in Fig. 2.1 .is arbitrary)
'k 1
~eci~hcyal 23-24 kD, polypeptide (Akerlund'et. al, --
19821, referred to in text as 24 kD)
. .
Peripheral 17-18 kD polpeptide (Akerlund et al., 1982) L - \
I
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, - k.G -
'. b
-- - - . 31
- --
The i n t r i n s i c 34 kD p o l y p e p t i d e is a p p a r e n t l y the- most
e s s e n t i a l p r o t e i n f o r O2 e v o l u t i o n , s i n c e removal -o f a l l
-- 34 kD p r o t e i n l e a d s t o c o m p l e t e i n h i b i t i o n of O2 e v o l u t i o n
(Murata e t a1 . , 1 9 8 3 ) . : Membranes i n which t h e 18 ' and 24 k ~
p o l y p e p t i d e s a r e removed, b u t which c o n t a i n t h e 34 kD poly- 7
p e p t i d e , ' c a n s t i l l e v o l v e O 2 i n t h e p r e s e n c e o f ~ 1 - and - - -
- - - - L - - -
2+ . Ca i o n s , a l b e i t w i t h some loss of O 2 e v o l v i n g c a p a b i l i t y m,
( N a k a t a n i , 1984; G h a n o t a k i s e t a l . , 1984b; Hiyao and Hura ta ,
1 9 8 4 ) . Oxygen e v o l u t i o n c a n be r e s t o r e d by r e i n d i n g one o f --- - --
t h e 24 kD p r o t e i n s back t o t h e membrane i f t h e 34 kD p r o t e i n is
p r e s e n t a t t h e b i n d i n g s i t e (Mura ta e t a l . , 1983; Andersson e t
a l . , 1984b; L a r s s o n e t a l . , 1 9 8 4 ) . Optimal O 2 e v o l u t i o n is
r e s t o r e d o n l y i f one 1 8 kD p r o t e i n is rebound t o t h e membrane
. o r i f t h e ~ 1 - c o n c e n t r a t i o n is e l e v a t e d t o a g r e a t e r concen-
- t r a t i o n t h a n i s requrre-d--fcrnon-depleted PS IIL-membranFs
m
( A k a b o r i e t a l . , 1984; Miyao and Murata, 1 9 8 5 ) . There is some
c o n t r o v e r s y o v e r t h e r a t i o o f 18, 24, and 34 kD p o l y p e p t i d e s
p r e s e n t i n t h e OEC. Murata e t a l . ( 1 9 8 4 ) s u g g e s t t h a t t h e 18,
24, and 34 kD p o l y p e p t i d e s a r e r e q u i r e d f o r o p t i m a l O2 B
e v o l u t i o n in r a t i o s o f 1: l : l %=#' pe OEC, w h i l e Cam.marata e t a l . ,
(1984; L a r s s o n e t a l . , 1984) s y g g e s t t h a t t h e r a t i o is 2:2:2
p e r OEC . The m o l e c u l a r c o m p o s i t i o n o f t h e OEC and t h e s p e c i f i c
0 - -
f u n c t i o n o f t h e d i f f e r e n t p o l y p e p t i d e s are s t i l l unknown, C however c u r r e n t r e s e a r c h on the . i s o l a t i o n and p u r i f i c a t i o n o f
t h e p o l y p e p t i d e components o f t h e OEC may s o o n e n a b l e 1
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determination o f - t h e f u n c t i o n and s p a t i a l r e l a t i o n s h i p s o f t h e
s p e c i f i c polypeptides.
b - --- -
Manganese i s known t o be , e s s e n t i a l f o r t h e o x i d a t i p n o f
H20 t o O2 'Cheniae, 1980; Sauer , 1980; Ono and Inoue, */
1982;' Diamukes, 1986). S t u d i e s done w i t h mutant s t r a i n s o f
1 r .
.. $he green algae Chla.vdomonas. which have a reduced O2 evolu-
-- - tlon. show a d i r e c t c o r r e l a t i o n between O2 e v o l u t i o n , Mn con-
t e n t , and t h e abundance of a 24 kD p o l y p e p t i d e (Cammarata e t
a1 . , 1 9 8 4 ) . Using chemical t r e a t m e n t s t o remove Nn from t h e , ._ r
membrane, fou r Hn atoms per PS I1 r e a c t i o n c e n t e r were found
, . , b
atoms/PS 11 were r e l e a s e d from t h e mutant s t r a i n s . Therefore , -
4 equivalent Rn atoms may be o rgan ized i n t o a t e t r a n u c l e a r
c lustorfbound t'o a 34 kO p r o t e i n ( l a b e l l e d as M in, F i g . 2 . 1 -
and a 24 kD e x t r i n s i c p r o t e i n (Cantntarata e t a l . , 1 9 8 4 ) . I I
Experimental evidence shows t h a t i n a v a r i e t y of
p h o t o s y n t h e t i c organiebas, 4 Hn atoms are bqund t o t h e OEC
( S c h a t z and Uitt, 1984a,b; Bowes e t &I..,- 1 9 0 & ' . ~ u v a b ~ r a and
Murata, 1983; C a m r a t a e t a l . , 1984; Ghanotak is e t a l . , -
-
1984aI. PS 11 p a r t i k l e s isolated from a red algae,
cruentPr, show that -50 Chl molecules and 4 Hn
atoms are bound together p e r r e a c t i o n c e n t e r ' ( ~ o h a t z and V i t t ,
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- - - - - - -
1984a.b) . These p r e p a r a t i o n s show ,an 0 2 . e v o l u t i o n r a t e of 0 -1 -1 2300 pmol O2 (mg C h l ) h (Scha' tz and W i t t , 1984a,b) under
normal c o n d i t i o n s and wi th s a t u r a t i n g l i g h t i n t e n s i t y . I n t h e
many exper iments which c o r r e l a t e t h e Mn contenC of t hy l ako id
membranes wi th t h e O 2 e v o l u t i o n r a t e , c o n s i d e r a b l e v a r i a t i o n s
i n O 2 e v o l u t i o n r a t e s were fouhd, bu t a l l ev idence - - - i n d i c a t e s - - - - -
-
t h a t 4 Mn atoms p e r PS 11- r e a c t i o n c e n t e r a r e p r e s e n t i n PS-11
, membranes w i th op t ima l O 2 e v o l u t i o n (Kbwabara and Murata,
1983; Ghanotakis e t a l , 1984b; Cammarata e t a l . , 1 9 8 4 ) .
Lcwered O 2 e v o l u t i o n r a t e s have been a o r r e l a f e d t o a reduced
Mn c o n t e n t i n c h l o r o p l a s t s and PS I1 p a r t i c l e s (Cammarata e t
a l . , 1984 1 . However, v a r i a t i o n s i n 0 evolution r a t e s c o u l d 2
a l s o r e f l e c t v a r i a t i o n s i n t h e r a t e o f r e o x i d a t i o n o f t h e i
. s e c o n d a r y quinone a c c e p t o r (Q 1 (Dismukes, 1 9 8 6 ) . . B
The r equ i r emen t -o•’ 4-Mnatoms per PS I1 r e a c t i o n c e n t e r
does n o t imply t h a t a l l 4 atoms a r e e s s e n t i a l f o r H20 oxida- I
t i o n . Of t h e s e v e r a l bound Mn p o a l s i n c h l o r o p l a s t s (Cheniae
and H a r t i n , 1970; Sharp and Yokum, 1989; Khanna e t a l . , *
1981a ,b ) , o n l y one gppea r s t o be e s s e n t i a l f o r Og e v o l u t i o n ,
Another pool o f Hn is "ve ry - loose ly bound" and .non- func t iona l
i n ,,02 e v o l u t i o n (Radmer and Cheniae. 1977; Yocum e t a l . , \
1983; Khanna e t a l . , 1981b) . However, a , " loose ly boundv pool
a p p e a r s t o p l a y a r o l e i n O2 e v o l u t i o n (Radmer and Cheniae, -- --
1977; Yocum e t a l ; , 1981.; Khanna e t a l . ,, 1983) . The f u n c t i o n \
o f t h e " t i g h t l y bound" pool o f Hn is n o t c l e a r , b u t i s e s sen -
, t i a l f o r O2 e v o l u t i o n (Khanna e t a l . , 1 9 8 3 ) .
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J 1
The l o e h f 1 z&&m & *he 4 4 r - w i i 3 k L - W E C .baz+so t Been
comple t e ly r e s o l v e d . I n t h e model of Cammarata e t a l . (1984);
4 Mn atoms l i e i n 1 a c l e f t , bound t o two 34 kD p r o t e i n s and t o
t h e "2" r e g i o n o f t h e r e a c t i o n c e n t e r p r o t e i n . T h i s a l s o sup-
p o r t s t h e model o f Dismukes e t a l . (19831, 'which s u g g e s t s t h a t
t h e r e a r e 2 Mn atoms pe r 34 kD p r o t e i n (shown i n F i g . . 2 . 2 ) . - - - - -- -
2 . 2 . 3 Ch lo r ide i o n s
Chlor ide i o n s a r e known t o be e s s e n t i a l t o t h e f u n c t i o n of
t h e OEC i n t h a t removal o f ~ 1 - r e v e r s i b l y i n h i b i t s t h e O 2
evolut io 'n mechanism (Hind e t a l . , 1969; Ke l l ey and Izawa,
1978; Govf id jee e t a l . , 1983; Izawa e t a l . , 1983) . The number >
of ~ 1 - i o n s p e ~ - P s I 1 reaction c e n t e r h a s been es t i rna tedptQ - -
be as high as 4-8, (Izawa e t a l . , 1 9 8 4 ) . C h l o r i d e i o n s may be -
r e p l a c e d by ~ r - , NO3 , o r I - w i th d e c r e a s i n g o r d e r o f e f f e c -
t i v e n e s s , ( K e l l e y and Izawa, 1978; C r i t c h l e y e t a l . , 1982)<
Other an ions e i t h e r i n h i b i t O2 e v o l u t i o n (F-, OH-) o r have no
2- - - e f f e c t (SOq , C104 , PO4 1 . F l u o r i d e i o n s have been shown t o
r e v e r s i b l y i n h i b i t t h e t r a n s i t i o n s So + S1 + S2 (Casey and
X u , 1984a,b) , whi le d e p l e t i o n o f ~ 1 - i n t h e d a r k appar - f
e n t l y i n h i b i t s t h e S2 +.S3 t r a n s i t i o n ( ~ h e d e t a l . , 1984; - - - -
I t o h e t a l . , 19841, r e s u l t i n g i n i n h i b i t i o n o f O2 e v o l u t i o n .
S ince o p t i m a l O2 e v o l u t i o n r e q u i r e s t h e p re sence o f t h e
18 kD p r o t e i n o r a n e l e v a t e d ~ 1 - c o n c e n t r a t i o n , it h a s been
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a
vr C
Ol
P
a~
c
4
4
>t
vi '0
2
c
4
P
-4
ca
rd
a
G
V)
4
4J -
Pa
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- -
3. Binding of ~ 1 - stabililizes the OEC against thermal
damage leading to the release of Mn atoms from the
active site and irreversible inactivation (Coleman et
al., 1984).
In Fig. 2.2, ~ 1 - is shown -to be bound to the 34 kD _protein- - - ---
in the cleft which contains 2 Hn atows and is the site of
-P H20 oxidation and H release.
Chloride appears to exert its effect by binding to the
membrane in a pH dependent manner (Critchley et al., 1982;
Theg and Homann, 1982; Govindjee et al., 1983). At pH values
above 7.2-7.4, more ~ 1 - is required for optimal O2 evo3xi-&
tion (Kelley and I%aawa, 1978; Critchley et al., 1982) and
Crilichley et al. (1984) suggest that OH- and ~ 1 - ions compete /
- - _ - - - _ - - - - - - _- - _ - - -
for binding sites. Experimental evidknce in inverted thyla- d
koid membranes shows that irreversible inactivation of O2 - -
evolution is suppressed by high C1- concentration and is not
dependent on the presence or absence of the 24 kD protein.
Depletion of C1- ions causes the OEC to become more
sensitive to inhibition by Tris (hydroxymethy1)aminomethane
buffers tTris) (Izawa et al., 198.3). NH20H (Kelley and Izawa,
19781, and heat treatment (Coleman et al., '1984). This indi-c
cates that CI- is involved in maintaining photo ox id^^^€
the OEC by the react ioh center t Sandusky and Yocum, 1983).
Two models have been described which are consistent G'ith
- these observations. However, nebther of these two models
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completely explains all e x p e r i m F t a l p e v i d e n c e i i n g the
effect'of ~ 1 - on O2 evolution. In the first model, ~ 1 -
is assumed to bind .in one of the lower S-states (SO or S1)
to the active site containing Mn in the OEC. In the dark,
~ 1 - stabilizes the S1 state against deactivaticn to S 0 -
and allows formation of a long-lived S2 state. The active -- - -
\ -
- - - - - - - - -
site would then directly control binding of H20 at the M;
atoms (Dismuke* 1986).
- - In the sea-nd model, a single ,C1- ion binds to the Mn site in order to neutralize each positive charge accumulated
in response to the differential extraction cf.protons and
electrons in the S-state transitions. This would result in
the proper conformation for O 2 evolution by coupling the OEC
to the PS 1.I reaction center (Johnson e,t al., 1983; Govindjee,
1984; Dismukes, 1986);- Thus, both-uptake of ~1-- dur-ing one - - 9
S~state transition, and release of C1- during a different
s-state transition will take place. z f charge neutrality. is
maintained by binding ~ 1 - , it could be that one
~ 1 - is taken up on the S1 S 2 transition, and one ~ 1 - is
released during the S3 2 So transition (Dismukes, 1986). This
agrees with the observed inhibition loci for F- inhibition and
~ 1 - depletion, respectively (Dismukes, 1986 .
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2 . 2 . 4 Calcium b ind ing
-
The r o l e o f ca2+ i n PS I1 and b2 e v o l u t i o n i s st i l l
u n c e r t a i n , a l t h o u g h i t is known t o be e s s e n t i a l f o r O 2 evo lu-
t i o n (Dismukes, 1986) . c a 2 + - - c a n r e s t o r e O 2 e v o l u t i o n i n
membranes which a r e miss ing the- 24 kD p o l y p e p t i d e (Miyao-and------- . \
Hurata , 1984) . Treatment o f PS I1 p a r t i c l e s which r e l e a s e s
t h e 18 and 24 kD p r o t e i n s r e s u l t s i n i n h i b i t i o n o f O2 evo lu-
2+ t i o n and shows a reduced ( 4 0 % ) C a c o n t e n t (Miyao and
Murata, 1984) . A t p h y s i o l o g i c a l (b v i v ~ ) s a l t concen t r a -
2+ t i o n s , Ca and t h e 18 and 24 kD p r o t e i n s a r e a l l r e q u i r e d
f o r O2 e v o l u t i o n . The 18 and 24 kD p r o t e i n s p r o v i d e h igh
a f f i n i t y b ind ing s i t e s , f o r c a 2 + (Ghanotak is e t a l . , 1964b) . -
Calcium appea r s t o be involved i n t h e b i n d i n g o f e s s e n t i a l - - - - - - - - -- -- - - -- - - - - - - -- - - -- - - ---
p r o t e i n s u b u n i t s w i t h i n t h e OEC o r i n t h e b i n d i n g o f t h e 34 kD I
po lypep t ide t o t h e PS I1 r e a c t i o n c e n t e r p r o t e i n . Ono and
Inoue ? l 9 8 3 a , b ) have proposed t h a t bo th Hn and c a 2 + must be -
bound t o t h e t t r e s t i n g t t OEC b e f o r e i t can be p h o t o a c t i v a t e d .
2.3 -Water o x i d a t i o n -
. , .,
- i Water o x i d a t i o n t o molecu la r oxygen i n p h o t a d - w t h e t i c -
sys tems may be r e p r e s e n t e d by t h e o v e r a l l e q u a t i o n : .ZA -
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The e f f e c t i v e pH n e a r t h e w a t e r - s p l i t t i n g s i t e i n c h l o r o -
p l a s t s is d e t e r m i n e d t o be a p p r o x i m a t e l y 7 ( S a u e r , 1 9 8 0 ) . I n ,
c h l o r o p l a s t s , w a t e r o x i d a t i o n o c c u r s i n f o u r s t e p s w i t h a n
" e n e r g y a v e r a g e o f 0 . 8 1 e V f o r e a c h s t e p i n t h e c o u p l i n g o f
-- - H20 w i t h t h e OEC,. However, t h e e n e r g y r e q u i r e m e n t s f o r t h e
i n d i v i d u a l ' s t e p s a r e - v e r y - d i f f e r e n t . F i g u r e 2 . 3 shows t h e -
r e d o x e n e r g i e s f o r f r e e i n t e r m e d i a t e s o f e a c h o f t h e o x i d a t i o n
' s t e p s f o r w a t e r - s p l i t t i n g . F i g u r e 2 . 4 compares o n e - e l e c t r o n
e n e r g y s t e p s f o r f r e e i n t e r m e d i a t e s and t h e c o r r e s p o n d i n g
s t e p s s f o r i n t e r m e d i a t e s a s s o c i a t e d w i t h a n oxygen-evolving
complex (Renger , 1978; Renger and ~ c k e r t , 1980 1 . 0 --
The charge-accumula t i n g i n t e r m e d i a t e s which f u n c t i o n i n
t h e o x i d a t i o n o f H20 a r e most l i k e l y Mn complexes (Renger ,
1 9 7 7 ; Govind jee e t a l . , 1978; R'admer and Chen iae , 1977; - - - - - -- - - -- - - -
Wydryzynski, 1982; Renger and Govind jee , 1 9 8 5 ) . The h i g h e s t
P e n e r g y b a r r i e r i n t h e o x i d a t i o n o f H20 is t h e f i r s t s t e p as
shown- i n F i g . 2 . 4 ( ~ e < ~ e r , 1 9 7 8 ) . The w a t e r - s p l i t t i n g 'ehzyme
( l a b e l l e d M i n F i g . 2 . 2 ) must f u n c t i o n i n l c w e r i n g t h i s -?
p o t e n t i a l b a r r i e r , t h u s r e d u c i n g t h e - e n e r g y needed t o undergo 6
t h e f i r s t e l e c t r o n t r a n s f e r . Complexes c a n be formed w i t h Mn
i n t h e o x i d a t i o n s t a t e s ' M n ( I I ) , Mn( I I I1 , and Mn(1V) (Harr iman
e t a l . , 1978) and t h u s Mn complexes are a t t r a c t i v e f o r c h a r g e -
s t o r i n g . M A ( I I ) cumplexcs are g e n e r a l l y stable, whLle-MnCI-Vl CJ +
complexes u s u a l l y form oxygen-br idged b i m o l e c u l a r s t r u c t u r e s
(Har r iman e t a l . , 19781'. I n p r i n c i p l e , t h i s would allow a n
o v e r a l l f o u r e l e c t r o n o x i d a t i o n as a Mn(I1) complex undergoes \
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Fig . 2 . 3 Redox energy f o r o x i d a t i o n o f H20 ( a f t e r Radmer
' and Cheniae, 1977)
- - - -
-
This diagram-shows t h e redox energy o f t h e one- - -
e l e c t r o n s t e p s f o r t h e o x i d a t i o n of H20 t o 02.
The s o l i d l i n e ( 1 i n d i c a t e s t h e pathway--via
H202 a s t h e two-equivalent r e d u c t i o n s t a t e .
The dashed l i n e (----- 1 i n d i c a t e s t h e r e d u c t i o n
pathway v i a H20 + 0 a s t h e twb-equivaleht
r e d u c t i o n s t a g e . The d o t t e d l i n e ( . . . . . I shows othe
pa th of minimum energy .
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NUMBER O F ELECTRONS REMOVED FROM WATER
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Fig . 2 . 4 Comparison of redox e n e r g i e s f o r o x i d a t i o n o f H20
v i a f r e e i n t e r m e d i a t e s and v l a t h e c a t a l y t i c
' pathway i n p h o t o s y n t h e s i s ( a f t e r Renger, 1 9 7 8 ) . b
E n e r g e t i c s of t h e fou r s t e p water o x i d a t i o n v i a :
a . . f r e e i n t e r m e d i a t d -
2
v
b . i n t e r m e d i a t e s bomplexed w i t h Mn i n the, oxygen-
e v o l v i n g cgmplex
Th-e- z e r o p o i n t s o f t h e energy s c a l e , H20 and - - - - - - - - - - - - - - - - - - - - - - - ---
* (HZO) , a r e a r b i t r a r y and t h e a b s o l u t e e n e r g i e s
I
* -. of bo th s t a t e s do n o t have t h e s a m e v a l u e . The
- - symbol * is used t o deno te a complexed i n t e r -
mediate, which is n o t t he - same as t h e co r r e spond ing * C
f r e e i n t e r m e d i a t e .
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FR
EE
E
NE
RG
Y C
ON
TE
NT
(A
RB
ITR
AR
Y U
NIT
S)
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- 42
- - - - - - -
a two e l e c t r o n o x i d a t i o n t o form a b imolecu la r Mn(IV) complex ' '
(Harriman e t a l . , 1978) .
8. The w a t e r - s p l i t t i n g enzyme must a l s o e n s u r e t h a t t h e k
h i g h l y r e a c t i v e water o x i d a t i o n i n t e r m e d i a t e s a i e s t a b i l i z ed
u n t i l t h e o x i d a t i o n o f H20 i s completed. Manganese has a
v a r i a b l e c o o r d i n a t i o n number (Cheniae , 1970; Lawrence and - ,- -- -
Sawyer, 1978) and t h u s a v a r i a b l e number o f g roups c a n form
9 bonds wit'h t h e c e n t r a l Mn a om i n t h e Mn complex . Thus bonds
can be formed which s t a b i l i z e t h e r e a c t i v e i n t e r m e d i p t e ~ ,
formed du r ing H20 o x i d a t i o n (Renger. 1978) . Compared t o a l l
t h e o t h e r t r a n s i t i o n metal i ons , Mn has t h e l a r g e s t thermal
e q u i l i b r i u m c o n s t a n t f o r t h e fo l lowing r e a c t i b n (Wells, 1965) :
-
T h i s i n d i c a t e s t h a t H ~ ( I I I ) O H - is ve ry s t a b l e i h n e u t r a l .
aqueous s o l u t i o n s (wel l$ , 1965) .
The i n t e r a c t i o n o f H20 molecu les wi th t h e OEC i s s t i l l ,
undetermined. Based on expe r imen ta l s t u d i e s w i th H20 *
a n a l o g s ( i . e . NHZOH and N H 2 N H 2 ) , 'it was proposed t h a t t h e
a b i l l t y o f a molecule t o i n t e r a c t wi th t h e Qq e v o l v i n g s i t e
c o r r e l a t e s - ' w i t h t h e shape o f t h e molecule, r a t h e r t h a n i ts
, chemical p r o p e r t i e s (Radmer, 1983; Radmer and ~ l l i n g e r , - 1983 - .
, Radmer de te rmined t h a t t h e H20 b i n d i n g s i t e l i e s i n a c l e f t -I ,l
approximate ly 4 A wide and 2 . 5 A deep, wi th two Hn atoms
,b ind ing two H20 molecu les l . i 7 A a p a r t ( t h e l e n g t h o f a n
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0-N b o n d ) . Radmer s u g g e s t s t h a t t h e e x i s t e n c e o f a c l e f t
a round t h e b i n d i n g s i t e may h e l p p r e v e n t t h e decay o f S s t a t e s 0
k. 0
by a l l o w i n g H 2 0 o x i d a t i o n i n t e r m e d i a t e s t o r e a c t w i t h o t h e r
m o l e c u l e s i n t h e b i n d i n g s i t e , b u t n o t t h y l a k o i d membrane
components o u t s i d e o f t h e c l e f t . 't
-r
<.. 5 L
, 2 . 4 K i n e t i c s o f oxygen e v o l u t i o n I
0 x y g e n 0 e v o l u t i o n r e s u l t s from Photosys tem I1 w a t e r -
s p l i t t i n g a c t i v i t y i n t h e oxygen-evolving complex ( O E C ) . T h e '
c u r r e n t l y A a c c e p t e d mode3 o f w a t e r - s p l i t t i n g , t h e S s t a t e
h y p o t h e s i s (Kok e t a l . , 1970; Forbush e t a l . , 1971) r e q u i r e s
t h e g e n e r a t i o n and c o o p e r a t i o n o f f o u r p h o t o c h e m i c a l l y formed ,
4 + o x i d k z i n g e q u i v a l e n t s (OEC -t OEC 1 i n i n d i v i d u a l PS I1 reat=-------
t i o n c e n t e r s . The major e v i d e n c e f o r t h i s - - model i n v o l v e s a
l i n e a r f o u r s t e p o s c i l l a t i o n i n O2 e v o l u t i o n o b s e r v e d d u r i n g
a series o f s h o r t s a t u r a t i n g l i g h t f l a s h e s (Kok e t a l . , 1970;
J o l i o t etal.;3371). Every l i g h t f l a s h o x i d i z e s e a c h r e a c -
t i o n c e n t e r by r e l e a s i n g one e l e c t r o n , which r e s u l t s i n o x i d a -
t i o n o f t h e oxygen-evo lv ing c e n t e r s . One e l e c t r o n is t r a n s - t . ) " f e r r e d t o 2, which i n t u r n t r a n s f e r s a n e l e c t r o n t o P680 ,
a n d p r o t o n s are r e l e a s e d . T h i s e v e n t is r e f e r r e d t b as;> ff
s i n g l e A r n - o v e r o f t h e OEC. The tu rn -over t i m e gf t h e O@C i s '?
t h e t i m e which is r e q u i r e d f o r t h e OEC t o , r e c o v e r fkom - . r - . r r
p h o t o e x c i t a t i o n . I n terms o f k d n e t i c s t u d i e s , , i t is t h e time . .
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* - r r - - -
interval between two successive s a t ~ r a f iaspl i g h t f l a s k s which . 'J
g i v e ha1 f df the maxi n
" " 0
the f i r s t f l a s h iDincr akd Hauzerall', 1973b+. - i . " 1 -
The O2 y l C l d ' per light f l a s h oscillates wi-th a a ,-
- 47
p e r i o d i c i t y o f Lour uh'ich i s comp t l b l e w l t h c$smi.cal P -- ' 9 L
% ,
$ntermsdlatcs or oxygen-evolving centers syccessf v e l y * c y c l . i n g - - s . -'
a t rough five d l f farcnt orLdat~on s ta tes , SO through Sq, ,qs &
'
- shown in Fig. 2 . 5 . The subscript a_= 0 , 1 , 2 , 3 , 4 i n d i c a t e s t h e + . \ i I I ,
number o f uxfdlzing eqyivalents s t o r e d i n the- system, in
excess of t h a t i n S o . Each Sn s t a t e d i i f e r s . - f r o n the pee- -
- -. , n ,
ccsding state , SnW1. by the loss f bne e l d b t r o h . ~ h e h the - P
released i n t h e final s t e p as Sd returns ta SO i n the d a r k . ,
Each S s t d t e transition .occ~+ in"- two stages, i.e. Sn + .
- 1
created i m d i a t s l y after 1 i g h t absorption i n t h e reaction .. a - L
center PGaQ. .The transition from Sn8 -+ Sn+l is a dark"
rsa8tion during which cine p o s i t i v e charge e q u i v a l e n t i s * .
sccumul a t e d . pne e lec t ron 1s transferred to the p h o t o o x i d i z e d P
"4 + P S I I 'rta&tion cent&- ( PgsO 1 and transferred* ( 1 . thyough the
_ elqctron transport c b l z while the s t a t e ad&ncss. The ~k , sta te . yhich has accunulatcd tour ox ld lq lng aqulvalents. is a
h i g h l y unstablb, and rapidly regenerates - - - Sg+ by evolving -- - -
.- 02. t h e s ta te advancement reactions are rats-limited by the
@ - rcox idation of the ~ r i l p r y acceptor Qk . "except f o i s>' ;
F
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g . 2 . 5 The S-states o f khe oxygen-evolving complex ( a f t e r \ L
T h i s s c h e m a t i c aiagram r e p r e s e n t s t h e model o f O2 t \ * - b - s - - - - - - - -- - -
e'vd1u"Con pr4posed. by Kok e t a 1 . ( 1970 . Each OEC .--
under-gaes t h e a c y c l i c series o f r e a c t i o n s which a r e >
< 6 d e p i c t e d i n thA3 f i g u r e . The S - s t a t e s d e n o t e t h e Y r '!
o x i d z i t i o n s t p t e - o f t h e OEC and a r e i n d i c a t e d by t h e - I ' % , 6
p h o t o t r a n s i t i o n s and t h e subsequen t , d a r k r e l a x a t i o n s F
.+ *'4 . . . %*
a r e t h e - s t e p s S,.' + Sn+l . ,. The approx.imqte t i m e
c o n s t a n t s f o r t h e b . S - s t a t e t r a n s i t i o n s , . a r e i n d i c a t e d
f o r e a c h t r a n s i t i o n . --The? d e a c i t i v a t i o n r e a c t i o n s - L
1 which o c c u r are r e p r e d e n t e d by dashed l i n e s ,( ----- . .
and l a b e l l e d wi th ' t h e c o r r e s p o n d i n g r a t e c o n s t a n t s .
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-- - ---
tHe r e l e a s e d o f O2 (Dekker e t a l . , 1 9 8 4 ~ ) . - + The S s t a t e t r a n s i t i o n s , t h e H r e l e a s e p a t t e r n , and t h e
t ime c o n s t a n t s f o r e l e c t r o n t r a n s f e r t o t h e primary a c c e p t o r Z
may be l i s t e d as f o l l o w s ( Junge and Jackson, 1982) :
Each of t h e t r a n s i t i o n s So + S1,- S1 + S2, S2 /" -' S3, and
S + S + S c o n ~ ~ i t u t e on+-step i n t h e o x i d a t i o n o f H 3 4 0 2
The s t e p p a t t e r n f o r H+ r e l e a s e i n i a rk -adap ted t h y l a k b i d s *
is 1 , 0 , 1 , 2 ( W i l l e and Lavergne, 1982) f o r t h e s e q u e n t i a l S
t s t a t e t r a n s i t i o n s "with t h e cor responding H r e l e a s e t i m e s ,
( F z r s t e r e t a l . , 1 9 8 1 ) . The Z r e d u c t i o n t imes were determined . , ,
by Babcock e t a l . ( 1 9 7 6 ) . Recent ly Brudvig ef a l . (1984) have
shown t h a t t h e OEC e x i s t s i n two d i f f e r e n t s tgtes , r e s t i n g
( fo l lowing long d a r k - a d a p t a t i o n ) and a c t i v e . Thus, t h e H t
r e l e a s e p a t t e r n may a c t u a l l y be d i f f e r e n t f o r a n a c t i v e OEC. --
, I n da rk adap ted c h l o r o p l a s t s , t h e on ly S s ta tes p r e s e n t
a r e SO and S1
. S1 w i t h i n 5 s
1
. S2 and S3 d e a c t i v a t e i n t h e da rk t o
i n c h l o r o p l a s t s and w i t h i n 60 s i n i s o l a t e d
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t hy 1 a ko i ds I 30 1 io t and KoX , 1 ~ ~ - - U a r K a ~ d - a ~ ~ a ~ f ~ o ~ ~ o ~ p 1 ~ n t - s ,
a l g a e , and c h l o r o p l a s t s e s s e n t i a l l y synchron izes t h e oxygen-
e v o l v i n g c e n t e r s , i n t h a t o n l y SO and S1 are p r e s e n t a f t e r a
few minutes . Shor t , - s a t u r a t i n g l i g h t ' f l a s h e s w i th a f requency
- o f approximate ly 1 t o 4 Hz w i l l r e s u l t i n s i n g l e t u rn -ove r s o f r
a
each oxygen-evolving complex. D e a c t i v a t i o n o f S2 and S3 i n - - - C L f p L
A -
PS I1 membranes a t room t empera tu re has been de te rmined t o be f
T1/2 = 20 s and 100 s, r e s p e c t i v e l y (Beck e t a l . , 1985) . The
d e a c t i v a t i o n o f S s t a t e s is dependent a n t h e redox s t a t e o f - - - -
t h e e l e c t r o n a c c e p t o r s i d e o f PS I1 ( R u t h e r f o r d e t a l . , 1984;
Vermaas e t a k . , 1984; Govindjee e t % a l . , 1985 1 . Decay of S2 -
c e n t e r s t o t h e S1 s t a t e a s s o c i a t e d wi th QB had a h a l f t i & o f . r
/
20-30 5 , while t h o s e a s s o c i a t e d wi th QB had a ' h a l f t i m e o f /
-150 s (Ru the r fo rd e t a l . , 1984) . The decay o f S3 + S2 was de-
a ' t e rmined? to be r e l a t i v e l y indepe d e n t o f t h e redox s t a t e o f -
t h e PQ pool (Vermaas e-t a1 . , 1984 1.
The d i s t r i b u t i o n o f S . s ta tes i n da rk adap ted c h l o r o p l a s t s
. h a s been sugges t ed t o range from 100% So (Bader, 1984) t o
100% S1 (Vermaas &t a l . , 1984) . The most pcobable i n i t i a l
' S - s t a t e d i s t r i b u t i o n i n dark-adapted c h l o r o p l a s t s is i
S :S :S :S = 0.25:0.75:0:0 ( ~ e l t h ; ~ s and Kok, 1978; 0 1 2 3 - - - - Lavergne, 1 9 8 6 ) . However, Vermaas e t a l . (1984) showed t h a t ,
i n long-t ime d a r k adap ted t h y l a k o i d s , t h e d i s t r i b u t i o n is 100% '-4
4 ,- --- --
S1, wi th a f r a c t i o n o f t h e c e n t e r s (15-25%) p o s s e s s i n g a t
one -e l ec t ron donor c a p a b l e of . r educ ing S2 o r S j y i t h f a s t .
k i n e t i c s his' is e q u i v a l e n t t o a n
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i n i t i a l S s t a t e d i s t r i b u t i o n o f 75-85% S1 and 15-25% SO.
The O2 f l a s h y i e l d s e q u e n ~ e produced by a series o t -
s i n g l e turn-over s a t u r a t i n g f l a s h e s shows a p e r i o d i c i t y of
f o u r which i s e v e n t u a l l y damped t o a s t e a d y - s t a t e ' v a l u e .
Maximum O2 y i e l d i n most p h o t o s y n t h e t i c systems o c c u r s on
-- - --- t h e t h i r d f l a s h , wi th suci%&sive maxima on t h e s even th , - -
e l e v e n t h , e t c . f l a s h e s , A f t e r 20-30 f l a s h e s , t h e O2 y i e l d
has reached i t s s t e a d y - s t a t e va lue ( Y i ) . The g e n e r a l
behavior o f t h e O2 f l a s h y i e l d sequence- i n d i c a t e s + t h a t a l l
PS I1 r e a c t i o n c e n t e r s a c t i ndependen t ly . The p e r i o d i c i t y of
X- f o u r is g e n e r a l l y c o n s i s t e n t w i t h exper imenta l r e s u l t s and .
: w i t h t h e S - s t a t e model, b u t t h e damping t o a s t e a d y - s t a t e
v a l u e . a f t e r a number o f f l a s h e s i s s t i l l t h e sub , ec t of deba t e -
(Forbush e t a l . , 19713 T h i b a u l t , 1978; Lavore l , 1978; - - - -- - - - -- - - - - - - -
J u r s i n i c , 3981; D e l r i e u , 1983) . > The damping t o a s t e a d y - s t a t e va lue was e x p l a i n e d by
-
Forbush e t a l . (1971) a s a phase l o s s due t o double h i t s o r
misses a t t h e PS I1 r e a c t i o n c e n t e ~ r . "Misses" a r e randomly -
d i s t r i b u t e d f a i l u r e s o f S - s t a t e transitions o r quantum absorp-
t i o n . ffDouble h i t s " occur when t h e r e are two s u c c e s s i v e -- - - -
4
S - s t a t e t r a n s i t i o n s w i t h i n a s i n g l e i i g h t f l a s h , i . e . - when two
photons are absorbed by t h e same PsS0 r e a c t i o n c e n t e r . Thus,
misses r e t a r d t h e phase o f t h e c y c l e , whi le &oub-le h k t s - --
advance i t , and bo th c o n t r i b u t e t o t h e phase l o s s . ow ever, t h e d a m ~ i n g can also p a r t l y be_erp la incd b; a l i gh t - induead - endogenous O2 uptake which o c c u r s in green plants and a l g a e
- C
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d u r i n g a s e r i e s o f s c t u r ' a t i n g fl=sf'ies and may i n f l u e n c e s i n g l e *
f l a s h y i e l d s t o t h e e x t e n t t h a t measured y i e l d s a r e n o t equiv-
a l e n t t o a c t u a l water-spl i t t i n g y i e l d s . i
2 . 5 The r o l e o f oxygen- up take -
Green p l a n t s and a l g a e sh0w.a l i gh t -dependen t O 2 uptake
(Hoch e t al., 1963; Vidaver and French, 1965; R i d , 1968;
Jackson and Volk, 1970; Sa rgen t and Taylor , 1972; Radmer and #I
Kok, 1976; Radmer e t a l , 19_28rl;erbaud and Andre, 1979; Canvin
et a l . , 1980; Watanabe e t a l . , 1980; Fock e t a l . , 1 9 8 1 ) .
Oxygen up take i n t h e l i g h t mhy occur by d i r e c t pho to reduc t ion
o f 02 , r e f e r r e d t o a s t h e Mehler r e a c t i o n (Mehler, 1951a.b;
- Radmer and K o k , ~ -1976; R a d m e r e t a1. , 1978 1, t h e oxygenase -
r e a c t i o n of RuBP carboxylase-oxygenase and t h e subsequent -
p h o t o r e s M r a t o r y metabolism o f g l y c o l a t e ( s e e , S e c . 1 . 6 )
-(Andrews e t a l . , 1971; Bowes e t a l . , 1971; Badger and Andrews,
1974; Berry e t a l . , 19781, mi tochondr ia1 r e s p i r a t i o n ( J ackson
and Volk, 19701, and p o s s i b l y c h l o r o r e s p i r a t i o n (Bennoun,
1 9 8 2 ) .
Light- induced O 2 up take h a s been s t u d i e d i n many \ photo-
synthetic organisms . I n t h e g r e e n a l g a , = , l a , t h i s o2 + = - -
uptake was shown t o be wavelength dependent; a n i n c r e a s e i n -
O2 consumption o c c u r r e d wi th s h o r t wavelength l i g h t (maxima
,at' 370 nm and 460 nm) . (Miyachi , e t a l . , 1 9 8 e P i c k e t t and
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-- - -
- - - -
F ~ e n c h , 1967; Ried, 1968; S a r g e n t and - T a y l o r , 1971 w h i l e r e d
l i g h t (maximum a t -680 nm) c a u s e d a d e c r e a s e i n t h e r a t e o f
O2 u p t a k e (Ried , 1968; S a r g e n t and T a y l o r , 1 9 7 2 ) . The i n - . . c r e a s e i n O 2 consumpt ion h a s been a s s o c i a t e d w i t h a b l u e
l i g h t enhancement o f d a r k r e s p i r a t i o n d u r i n g p h o t o s y n t h e s i s .
M i t o c h a n d r i a l r e s p i r a t i o l l h a s been shown t o b e - b o t h -- - -
i n h i b i t e d (Hoch e t a l . , 1961) and u n i n h i b i t e d ( P e l t i e r and
T h i b a u l t , 1985b) by l i g h t . I n c y a n o b a c t e r i a , which have two
f u n c t i o n i n g photosystems. , b u t no membrane-bound o r g a n e l l e s -- -
- ( i . e . c h l o r o p l a s t s o r m i t o c h o n d r i a i , p l a s t o q u i n o n e h a s been
d e t e r m i n e d t o be a common l i n k between t h e r e s p i r a t o r y and
p h o t o s y n t h e t i c e l e c t r o n t r a n s p o r t c h a i n s ( H i r a n o e t a l . ,
1 9 8 0 ) . ' I n t h e c y a n o % a c t e r i a Bnd p h o t o s y n t h e t i c b = c t e r i a ,
i n h i b i t i o n o f d a r k r e s p i r a t i o n is s u g g e s t e d t o be due t o a n -- -
i n t e r a c t i o n between p h o t o s y n t h e t i c and r e s p i r a t o r y c h a i n s -
which a r e p r e s e n t i n t h e same membrane (Sandmann and Malkin, \ "OJ
1984; Vermeglio and C a r r i e r , 1 9 8 4 ) . However, i n g r e e n a l g a e , \
t h e p h b t o s y n t h e t i c and r e s p i r a t o r y a p p a r a t u s a r e found i n \
d i f f e r e n t s u b c c l l u l a r o r b a n e l l e s , t h e c h l o ~ o p l a s t s and m i to-
Chondr ia , r e s p e c t i v e l y . Thus any i n t e r a c t i o n between the two
pathways mus t - be v i a m e t a b o l i c s h u t t l e s (Evans and Garr, a
I 1 9 7 9 ) .
- L i g h t - d e ~ e n d e n t O2 u p t a k e which is s e n s i t i v e t o CO concen- T -2
i - t r a t i o n was fbund t o be due t o t h e p h o t o r e s p i r a t o r y g l y c o l a t e 1 : "'s
pathway ( S e c . 1 . 6 ) (Canv in e t a l . , 1980; ~ e r b a u d and Andre,
1979; P e l t i e r and T h i b a u l t , 1 9 8 5 a ) . With s a t u r a t i n g C02 <
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oxyg=nase shou ld be comple t e ly i n h i b i t e d i n t h e l i g h t , b u t
O2 uptake s t i l l o c c u r s (Canvin e t a l . , 1980; Gerbaud and
Andre, 1980; P e l t i e r and T h i b a u l t , 1985a) . However, t h e '
mechanism o f t h i s up take is s t i l l J unknown. I n g r e e n a l g a e , #
under c c ? d i t i o n s i n which p h o t o r e s p i r a t i o n has been shown t o - - - - - - - - - - - -
be a b s e n t ( i . e : 0.8% C02, 8% 0 1, no l i g h t i n h i b i t i o n o f 2 ' P
O2 up take was found (Brown, 1953; P e a t i e r altd T h i b a u l t , -
1985b) . P e l t i e r and Thibaul t ( 1985b)' have sugges t ed t h a t i n -
t h e g reen a l g a , w o r n o n a s reinhardii, Mehler r e a c t i o n s
( d i r e c t pho to reduc t ion o f 0 2 ) do n o t occur d u r i n g C02 f i x a -
t i o n , and t h a t t h i s O2 up take is due t o mi tochondr ia1 r e s p i r a -
t i o n .
Radmer dnd Kok (1976) have repor ted- ' that i l l u m i n a t e d a l g a e
r educe O2 a t a highrate-"hen t h e C02 c o n c e n t r a t i o n i s n g t - -- --
l i m i t i n g , and when C02 f i x a t i o n does n o t occu r ( i . e . d u r i n g
t h e l a g i n C02 r e d u c t i o n fo l lowing a d a r k - l t g h t t r a n s i t i d n
o r i n d u c t i o n p h a s e ) . During t h e f i r s t 20 s o f con t inuous il-
lumina t ion o f dark-adapated Scenedesaus. no n e t O2 e v o l u t i o n r
o r C02 uptake was d e t e c t e d u s i n g a mass s p e c t r o m e t e r ( w i t h
r e sponse t i m e o f 2-3 s). However, O 2 e v o l u t i o n d u r i n g t h i s
i n t e r v a l was normal, and t h u s was comple te ly compensated f o r
by t h e O2 up take . b
I n t h e p re sence o f i n h i b i t o r s of C02 f i x a t i o n , O2 evo lu-
t i o n was maximal, b u t a h igh r a t e of O2 up take was a l s o ob-
s e r v e d . I n t h e p re sence of cyanide , a p o t e n t i n h i b i t o r o f
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-- -
' ~ ~ x y g e n a s e and ca rboxy la se a c t i v i t y o f RvBP carboxy-
l a s e / oxygenase (Lorimer e t a l . , 1973a ,b) , 0, up take was
i n f e r r e d t o be due t o t h e pho to reduc t ion b e 0, i n p l a c e of
C 0 2 . Radmer and Kok (1976 sugges t ed t h a t a s p e c i a l high'
c a p a c i t y ox idase , d i s t i n c t from RuBP ox idase , e x i s t s i n whole
cells, and t h a t C0, and 0, d i r e c t l y compete viapMehler- -- -
r e a c t i o n s f o r t h e l i g h t - g e n e r a t e d r educ ing power of PS I .
This ox idase may be a s s o c i a t e d wi th f e r r e d o x i n , which is known
t o mediate O 2 r e d u c t i o n by i l l u m i n a t e d c h l o r o p l a s t s (Arnon
e t a l . , 1967) . During t h e i n d u c t i o n phase and when C02
r e d u c t i o n does n o t keep pace wi th O 2 evolutLon, O 2 is t h e main' O '
e l e c t r o n a c c e p t o r (Radmer and Kok, 1976; R.admer e t a l . , 1978) . I
--h T h i s O 2 uptake was observed i n s e v e r a l d i f f e r e n t p l a t s ' a n d
a l g a e (Ozbun e t a l . , 1964; Lex e t a l . , 1972; Volk and Jackson, - - -
1972 1, s u g g e s t i n g p - f i a t r a p i d d i r e c t pho to reduc t ion o f -c2 Ts - p p
0
common t o a l l p h o t o s y n t h e t i c o rgan isms .
The O 2 up take by i s o l a t e d , i l l u r i n a t e d c h l o r o p l a s t s i n h
t h e - a b s e n c e o f added e l e c t r o n a c c e p t o r s o c c u r s v i a a Mehler
r e a c t i o n (Mehler, 1951 1 . E l e c t r o n s which a r e t r a n s f e r r e d from 1
t h e wate r - sp l i t t i n g . sys tem ( O E C ) t h r o gh thAe , e l e c t r o n t r a n s - :: 8 .
p o r t c h a i n o f PS I1 and PS I may be a a i l a b l e f o r r e d u c t i o n of
a s u i t a b l e med ia to r . A t some p o i n t n t h e e l e c t r o n t r ans fea r 3
c h a i n , t h e e l e c t r o n s are t r a n s f e r r e from t h e a u t o o x i d i z a b l e 1 - ppp -p
mediator t o 0,. Th i s may proceed y t h r e e d i f f e r e n t mecha-
nisms, d e p i c t e d i n F i g . - 2 . 6 . The p h o t o s y n t h e t i c r e d u c t i o n of
0 r e s u l t s i n a n e t consumption o f O2 s i n c e H20Z is u s u a l l y 2
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C
U
4
C 3 b
C
al tm 0
rl 0
4 3
rl st C
u
E
fn m
C
0
3
VI b
h
P:
Y
'CI
C
5 0 a
E 0
' U
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t h e product , r a t h e r t h a n H20 CKeTiie=,-T9bla,E; Gooa and H i l l . . 1955) . . -
Reduct ion o f 0 2 ' b y e l e c t r o n a c c e p t o r s d a s s o c i a t e d wi th PS I
(Asada e t a l . , 1974; Harbour and Boltbn, 1975; J u r s i n i c , 1 9 -
T - y i e l d s t h e supe rox ide f r e e r a d i c a l , O 2 . The r a t e o f 0 2 *
-
produc t ion has been e s t i m a t e d from t h e supe rox ide d i smutase - - - - - --
i n h i b i t i o n r a t e . o f cytochrome c r e d u c t i o n i n s p i n a c h ch lo ro - . -1 -1 p l a s t s t o be -15 pmol (mg Ch l ) h r (Asada e t a l . , 1974) .
This r a t e co r r e sponds t o -5-10% o f t h e t o t a l e l e c t r o n flow
, u s u a l l y observed i n ch lo rc rp l a s t s (Asada e t a l . , 1 9 7 7 ) . Addi-
t i o n of f e r r e d o x i n i n c r e a s e s t h e r a t e o f O2 up t ake s i n c e f e r r e -
dox in is r a b i d l y reduced by PS I and reduced • ’ e r r dox in r e a c t s B -
q u i c k l y wi th O 2 (A l l en , ,1975 1 . Genera l ly , reduced b r r e d o x i n
+ w i l l dona te a n e l e c t r o n t o NADP , g e n e r a t i n g NADPH. However,
- u n d e r c o n d i t i o n s o f 1 imi t ing -C02 c o n c e n t r a t i o n , more Q-l-is - .
- --.- . - L 2 g e n e r a t e d (Radmer and Kok, 1976; Marsho e t a l . , 1979; Egneus -
e t a l . , 1975) . This r a d i c a l is h i g h l y t o x i c and i t s . c o n v e r -
Y s i o n t o O 2 and H202 is c a t a l y z e d by a f a m i l y o f enzymes: . ,
'.+- - -' . *
t h e superoxide d i smutases . Superoxide d i smutase , p r e s e n t i n &-
c h l o r o p l a s t s , c a t a l y z e s t h e r e a c t i o n : " r . , a
k P
1 - -
i - ** -- -
i n o r d e r to ' p reventhhonvers ion o f O 2 * i n t o more r e a c t i v i ,
s p e c i e s , such ag ;h= hydroxyl r a d i c a l OH^ ( F i i d o v i c h , 1978: "
\ 0
H a l l i w e l l , 1978). Hydrogen pe rox ide may d i f f u s e t o t h e
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7perox i somes where i t is scavenged by
c h l o r o p l a s t s may have a n o t h e r enzyme
, la ta . lk i* th&gh t h e
p resen$ t o b r e a k down . .
H202 (Asada a l . , 1977; Halliwell e t a l . , 19.81). . Ascorba te ' - . ,
(Foyer and iwell, 19761 a n d g l y o x y l s t e ( ~ l s t ' n e r e t ' a l . , , - ,
19751 have b e e n p roposed a s s c a v e n g e r s o f H202 i n c h l o r o b l m
The s u p e r o x i d e a n i o n * fs a l s o s c a v e n g e d by i n t e r a c t i o n w i t h
a3k " o t h e r c h l o r o p l a s t components , s u c h '.as cytochrome f (Fe . -+ - + , B I
+ . 2 t ' 3 t ' ' F e 2 + ) , p l a s t o c y a n i n ( c u 2 + + CU . I , f e r r e d o x i n (Fe. . *+ F e L 1 , , = s r-
2 t 3+ a s c o r b a t e , r e d u c e d g l u t a t h i o n e , and Mn (I4n2+ + Hn 1 . Super- - ; -
* 5 - o x i d e is c o n v e r t e d t o i n a c t i v e m d e c u l a r okygen o n l y when Oi k
I )
o x i d i z e s r e d u c e d f e r r e d o x i n , p l a s t o c y a n i n , ,and c y t o c h r o k ti i
a .
(Asada e t a l . , 1 9 7 7 ) .
4- Edlr Oxggen u p t a k e h a s been o b s e r v e d a d u r i n g f l a s h i l l u m i n a t i o n *. 3
of a l g a e and c h l o r o p l a s t s (Weiss and S a u e r , 1970; ~ u r k i n i c ,
1978; Schmid and T h i b a u l t , 1979; o J u r s i n i ~ , l 9 8 Q 3 , b u t t h e - - - ---
1 =
s i t e s o f t h i s u p t a k e a r e s t i l l u n c e r t a i n . ' ~ i t o ~ h o n d r i a l ~ r e s - - p i r a t i o h , i n t h e l i g h t d o e s n o t v a r y o n a time s c h l e o f se
( J a c k s o n and Volk, 19701, and f o r t h i s r e a s o n , i t most l i k e l y q
d b e s n o t c o n t r i b u t e t o a f l a s h - i n d u c e d O 2 u p t a b e . * .
'Schmid and T h i b a u l t ( 1 9 7 9 ) have shown t h a t ip t o b a c c o
~ K l o r o p l a s t s , a PS I O2 u p t a k e a f f e c t s t h e O 2 y i e l d i n . a +"
' sequence o f s h o r t ( 5 ps) s a t u r a t i n g f l a s h e s . T h i s 0, u p t a k e
i n - c h l o r d p l + a s t s was g r e a t l y enhanced by t h e p r e s e n c e o f a n +
exogenous e l e c t r o n a c c e p t o r s u c h as p-benzoquinonq or" f e r r i -
c y a n i d e b u t e i t s o r d e r o f magni tude was n o t d e t e r m i n e d . . Thb
O2 u p t a k e was e v i d e n t on t h e f i r s t two f l a s h e s . b u t was
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, ihhibltor 3 t 3,P-dichlorophsnyl)-l,~-di1sathylixea- (DCWUI, the . . .U2 uptake was present when sn exugtnous. electraq accep to.
w a s added, Lndlcstlng t h a t this was a PS I-mediated O2 up- .
take. Using mu t i n t * - topacco 'chlcaroplasts (with an exogenou5
e lec t ron accspkor 1 c x h l b i t l n g o n l y PS I phbtofcactions, t h e
steady-state O2 uptake was dhoun to b e dependent on f l a s h
Recent ly , B e c k et a l . , (1985) have shown t h a t a biphasic
Q cansumgtlsn occurs i n untreated PS L I membranes a f t e r 2
cont ircuows i i luminatlon., The f a s t phased o f O2 consumption
was hlghly v a r i a b l e - . a n d dependent on t h e i n t e n s i t y and l e n g t h I$
of t h e i l l u m i n a t i o n period and l a s t e d apprbximately 2 mln. - -- - - - -
This List O 2 uptake was soggested to be due to d i s s i p a t i o n
sloG phase of O2 cor)&mptlon l a s t e d about 1 h, was dependent
,on t h e anount of PS % I OEC in t h e saslpla graphration and was .
inhibited by the electron transport i'rahlbltor.-DCHC. The
~ . x l m u i rat8 of O Z consuaption in t h e %lor phass was propor-
>
itluainarlon.. The autbsrs- suggest: that. t h e s l ~ < p h s m say be
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g - - - -- -
57
- I
- - - - - - -- -
the. slow consumption of O2 catalyzed -
Oxygen consumption was found4 tboo.Loccur in both PS I and \
PS 11 of photosynthetic organisms through several difrcrent 9 18
processes an,d is an integral component o•’, photosynthesis
(Hehler, 1951a,b; Vidaver and French, 1965; Jackson and Volk, i
- -
1970; ~lideu'ell and Raven, 1975; ~adnfer et al'., b78; Schmid
and Thibault. 1979; Peltier and Thibault 1985a.b; Beck &t al., , d
1985). Oxygen consumption appears to play a- role in the dissi-
pation of excess reducfrig power i n PS I and may occur at the
level of the transport chain via a
Hehler metabolism. In the 1
/ -light. the PS 11 OEC is apprarently in an active state which is I able to catalyze the redu'ction of 0 (Beck et al, 1985).
b 2
During dark-adaptation - of PS I 1 particles, a structural change - - - - - - - - -
-m
in the Mn site hf the OEC accars, changing the electron trans-
port properties of the d o n w side of PS I1 and causing a con-
version from thd active state to a resting stdte which does I {
not consume OZ (Brudvig, 1984; Brudvig et al., 1984).
P
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CHAPTER 3. MATERIALS AND METHODS
3 .1- Marine a l g a e
- - - ---
D i f f e r e n t gene ra o f m u l t i c e l l u l a r marine a l g a e from t h r e e
d i v i s i o n s o f e u k a r y o t i c a l g a e were used t o s t u d y t h e k i n e t i c s
o f O2 exchange i n p h o t o s y n t h e s i s . Green a l g a e (Ch lo rophy ta ) I
c o n t a i n c h l o r o p l a s t s and a r e s i m i l a r t o h i g h e r p l a n t s i n t h e i ~ 1 p h o t o s y n t h e t i c a p p a r a t u s and f u n c t i o n . Brown a l g a e
(Phaeophyta 1 a l s o c o n t a i n c h l o r o p l a s t s , b u t have d i f f e r e n t
t h y l a k o i d a r rangements and p igmen t /p ro t e in complexes and
sl i g h t l y d i f f e r e n t phot:osynl:hetic mechanisms ' than green a lgae
and h ighe r p l a n t s . Red a l g a e (Rhodophyta) a r e e u k a r y o t i c , but - - - - - -- - - - - - - -
L
have a p h o t o s y n t h e t i c s t r u c t u r e similar t o t h e p r o k a r y o t i c
c y a n o b a c t e r i a . The c h a r a c t e r i s t i c s of the t h r e e d i v i s i o ~ s
measurements for v a r i o u s gene ra w i t h i n t h e d i v i s i o n s . *
One genera of g r e e n a l g a e , Ulva, was used predominsn t iy i -I
for p h o t o s y n t h e t i c O2 exchange m d s u r e m e n t s due to its l o c a l
a v a i l a b i l i t y and s i r h i l a r l t y i n p h o t o s y n t h e t i c s t r u r t t u r e and
apparatus t o higher plants. .
- 3 ; 1.1 Sample p r e p a r a t i o n
0
.The a lga l gene ra used f o r t h i s research were subject to
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l o c a l a v a i l a b i l i t y . Red a l g a e Csuch a s u-g. and , '\
Pornhvra a. ) were predominant ly c o l l e c t e d d u r i n g . t h e win te r ~
\ '\
. \
and e a r l y s p r i n g ( Janua ry through A p r i l ) , whi le g r e e n * a l g a e %
( s u c h as y l v a a. and Q - & ~ L - o ~ Q I : D ~ a. were c o l l e c t e d ' du r ing
t h e . l a t e s p r i n g and summer months ( A p r i l through September ) .
Brown a l g a e (Laminaria and A l a r i a were c o l l e c t e d a t v a r i o u s ' - - - - - - - - -
times throughout t h e y e a r .
Marine a l g a e were c o l l e c t e d from s p e c i f i c s i t e s i n o rde r
d t o minimite sample v a r i a b i l i t y . Y1va gg. was found 1m low
i n t e r t i d a l zon6s a t Brockton P o i n t i n StanLey Park, Vancouver, r
B . C . Enteromor~ha a. and PorDhvra sanjuanensis were found i n
h igh i n t e r t i d a l zones i n Ambleside Park i n West Vancouver,
B . C . and B e l c a r r a Park i n Pokt Moody, B . C . pori-
were c o l l e c t e d fr-om-Broakton P o i n t i n Vancouver, B.c. and - - - - - -
Barnet Marine Park i n Burnaby, B . C . Whenever p o s s i b l e , e n t i r e
l i v i n g p l a n t s were c o l l e c t e d , however, i n some c a s e s , Living
a l g a e which were cast up on t h e beach were used .
Algae were main ta ined i n M i l l i p o r e f i l t e r e d ( 0 . 2 2 pm)
seawater i n a e r a t e d c o n t a i n e r s i n a P e r c i v a l (model 1.35LL)
i n c u b a t o r a t 1 0 t 1% f o r p e r i o d s up t o a week. A 1 4 h
pho tcpe r iod was prov ided by cool -whl te f l u o r e s c e n t t ubes wi th -
2 a n i n t e n s i t y o f 0 . 3 - 0 . 4 mU/cm . Genera l ly , most exper iments - --
were performed w i t h i n 1-3 days a f t e r c o l l e c t i n g a l g a e . A
r e d u c t i o n i n o v e r a l l O2 exchange was n o t i c e d i n a l g a e which .
had been main ta ined i n a'n a r t i f i c i a l environment f o r 5-7- d a y s .
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3 . 1 . 2 Dete rmina t ion o f c h l o r o p h y l l c o n t e n t -
The t a t a l c h l o r o p h y l l c o n t e n t i n g r e e n a l g a e was measured
us ing t h e method o f ' ~ r n o n ( 1 9 4 9 ) . Twenty samples o f a l g a e
were c u t w i t h a 6 mm d iameter co rk borer and t h e n p l aced i n t o " . a mor ta r . ' A f t e r t h e a d d i t i o n o f ' f i n e sand p a r t i c l e s aria a--few - --- -
t
m l of ace tone t o t h e mor ta r , t h e a l g a e d i s k s were f i n e l y
grbund. Two t o t h r e e more m l o f ace tone were added. t o t h e '
rnorta'i and t h e c h l o r o p h y l l / a c p t o n e s o l u t i o n was poured i n t o a -
flask. The mortar was c o n t i n u a l l y r i n s e d with a c e t o n e u n t i l
a l l t h e c h l o r p h y l l was e x t r a c t e d . The flask was f i l l e d t o
p rov ide 10 mi o f s o l u t i o n wh ich was c e n t r i f u g e d f o r 5-10 m i q .
a t 6000-7000 rpm. Sand, l i p i d s , p r o t e i n s and exgraneous
m a t e r i a l p r e c i p i t a t e d o u t o f s o l u t i o n , whi le t h e - t r a c t i o n
l a y e r c o n t a i n e d c h l o r o p h y l l and a c e t o n e . F ive ml of t h e
e x t r a c t w a s ' p i p e t t e d binto 25 m l a ce tone , r e s u l t i n g i n a 1 : 6
d i l u t i o n f o r t h e ch Io rophy l1 absorbance measurements. , % , \
The absorbance ( i n yg ch lo rophy l l /ml s o l u t i o n ) was
measured i n - a Beckman spec t ropho tome te r and 'de t e rmined by t b e p
f l l owing e q u a t i o n (Arnon, 1949) : 9 4
where A-645 and A663 a r e t h e absorbances of c h l o r o p h y l l , a t
645 nrn . and 663 nm, r e s p e c t i v e l y . S ince 10 m1 o f s o l u t i o n
( a l g a e i n a c e t o n e ) was used, t h e t o t a l c h l o r o p h y l l c o n t e n t
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I0
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C, n >r
fn
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-
Fig. 3.1 aiagram of the platinum and silver electrode holder d 1
a. The platinum and silver electrodes are indicated in
- this exploded perspective view of the electrode - --
6
, holder (after Chandler and Vidaver, 1971). The
bottom of the sample holder is not shown.
b. The relationship of the Pt and Ag electrodes to the. -
algae sample, dialysis membrane and electrolyte
solution is depicted (not drawn to scale).
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-- - -pp
avo id v o l t a g e f l u c t u a t i o n s due t o t h e p o l a r i z a t i o n . The corn- d 0
ponenfs and chemical r e a c t i o n s o f t h e e l e c t r o d e system w i l l be'
d i s c u s s e d i n t h e fo l lowing s e c t i o n s .
3 . 2 . 1 Membranes and e l e c t r o l y t e s o l u t i o n s I
A membrane s e p a r a t i n g t h e a l g a l t h a l l u s and e l e c t r o l y t e
s o l u t i o n from t h e su r round ing environment p r o v i d e s a f i n i t e
d i f f u s i o n - layer o f c o n t r s l l e d t h i c k n e s s a t t h e e l e c t r o d e . \
The membrane is t h e l a r g e s t b a r r i e r t o d i f f u s i o n o f t h e O2
molecules t o t h e P t ca thode (Hitchman, 1978).
When t h e P t e l e c t r o d e is b i a s e d a t -0 .7 V v s Ag1AgC1, O2 0
is reduced a t t h e ca thode . Th i s ~ e s u l t s i n a lowered O2 con-
c e n t r a t i o n a t t h e P t e l e c t r o d e ; an3 thus O2 i n t h e s a m p l e - - -- - -
ho lde r d i f f u s e s Ghrough t h e membrane and i n t o t h e t h i n l a y e r -
o0•’ e l e c t r o l y t e s o l u t i o n a t a f a s t e r r a t e t h a n i n t h e pbsence
o f t h e a p p l i e d p o t e n t i a l . Approximately 15-20 min were
r e q u i r e d f o r e q u i l i b r a t i o n - o f t h e s y ~ t e m .
The c r i t e r i a f o r a s u i t a b l e membrane f o r p o l a r o g r a p h i c
O2 d e t e c t o r s is adequa te p h y s i c a l s t r e n g t h , p e r m e a b i l i t y .
c h a r a c t e r i s t i c s whfch do n o t va fy wi th time, h igh p e r m e a b i l i t y
t o 02, and a v a i l a b i l i t y i n t h i n s h e e t s (Hitchman, 1978). Many
d i f f e r e n t mernb;anes have been used f o r p o l a r o g r a p h i c O2 d e t e c -
t o r s , such a s f l u o r i n a t e d p l a s t i c s , po lye thy lene , s i l i c o n e
rubber , n a t u r a l rubber , po lyv iny l c h l o r i d e , c e l l o p h a n e , mylar,
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and t e f l o n , ( H o a r e , 1968; Hitchman, 1 9 7 8 ) . The t h i c k n e s s o f
t h e most commonly used membranes is 10-25 pm (Hitchman, 1 9 7 8 ) . I
For t h e s e e x p e r i m e n t s , a d i a l y s i s membrane was used, which
c o n s i s t s p r e d o m i n a n t l y o f c e l l u l o s e , and h a s ' a h i g h pe rmeab i l -
i t y t o 0 2 . The d i a l y s i s membrqne was soaked i n . s e a w a t e r and
h e l d t i g h t l y i n p l a c e 'on t o p o f t h e e l e c t r o d e s - w i t h arr '0-r ing,
Both t h e t h i c k n e s s o f t h e d i a l y s i s membrane and t h e r e s u l t a n t
shape o f t h e O 2 exchange c u r v e depend on how t i g h t l y t h e
membrane is s t r e t c h e d o v e r t h e e l e c t r o d e s .
The e l e c t r o l y t e s o l u t i o n p r o v i d e s t h e e l e c t r o c h e m i c a l I
c ~ o n t a c t be tween t h e anode and c a t h o d e and must c o n t a i n t h e
a n i o n ( = ) n e c e s s a r y t o p r o v i d e t h e r e f e r e n c e c o u p l e f o r t h e
a n o d e . S e a w a t e r , t h e n a t u r a l h a b i t a t of mar ine a l g a e , pro-
v i d e s t h e b e s t c h o i c e f o r t h e e l e c t r o l y t e s o l u t i o n s i n c e i t -- -- - - - - - --
c o n t a i n s a h i g h c o n c e n t r a t i o n o f ~ 1 - i o n s . The e n v i r o n m e n t a l
c o n c e n t r a t i o n o f ~ 1 - i o n s i n t h e s e a w a t e r v a r i e d o v e r t h e .
p e r i o d o f t h i s r e s e a r c h ' f r o m 18 .8 -22 .9 g ~ l - / l s e a w a t e r .
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3 . 2 . 2 The Pla t inum Cathode
Oxygen produce& by t h e a l g a e _ m$ d i f f u s e th rough t h e 4
d i a l y s i s membrane i n t o t h e ambient atmosphere and i t may
d i f f u s e t o t h e P t e l e c t r o d e where i t is reduced . A P t ca thode
p o t e n t i a l of -0'7 V wi th r e s p e c t t o Ag/AgC1 p r o v i d e s four
e l e c t r o n s i n t o t a l f o r t h e r e d u c t i o n of e a c h O 2 molecule t o
OH- a c c ~ r d i n g t o t h e e q u a t i o n s : C B
* 1
i f a l l t h e hydrogen
H202 d i s s o c i a t e s t o
pe rox ide is reduced ( D a v i e s e t a$, 1 9 6 2 ) . >. -
t h e perox.ide a n i o n by: v
Equat ion 3 .4 ~ n d i c a t e s - t h a t i n t h e v i c i n i t y o f t h e P t , -
e l e c t r o d e , the e l e c t r o l y t e s o l u t i o n is a l k a l i n e a s indkated a=,'-
by t h e pink-red c o l d r o f p h e n o l p h t h a l e i n added t o t h e e l e c t r o - \
l y t e (seawater); t h e pH a t t h e P t has beep de te rmined t o be
approximate ly 1 2 . 3 (Hitchman, 1978) . The proposed r e s c t i o n
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V)
cu' -4
Ttl
hJ
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where No r e p r e s e n t s the . numbel- 'of moles. of O2 reduced at t h e e
cathode per u n i t a r e a per e n i t time, n is t h e number -of- elec: - - -
t r o n s t r a n s f e r r e d from one O2 molecu le , , j is t h e c u r r e n t
2 d e n s i t y (amps/m 1 , F is Faraday 's' cons tan t , IOZ lei. and -
[ O H - I e 1 are Che c o n c e n t r a t i o n s of tb two species a t the'
s u r f a c e of the e l e c t r o d e , and. Hl..and K~ a r e - r a t e c o n s t a n t s
f o r . t he forward and backward r e a c t i o n s of eqn , 3 . 7 , i . e . 7 O2
r educ t ion and OH- ox ida t ion , e s p e c t i l ~ e l y , r\ , <
3.2.3 The s i l v e r e l e c t r o d e Y'
I
T h e s i l v e r e l e c t r q d e s e r v e s two func t ions : i t acts a s -Y
both counter and r e f e r e n c e e l e c t r o d e . The r e f e r e n c e e l e c t r o d e
i n W i s s y s t e m is the redox couple Ag/AgCl ( 0 . 2 2 2 V vs . N H E a t -q-.
. 25 oC), uhich is* prepared by o p e r a t i n g t h e anode i n seawater.
The Ag o x i d i z a t i o n i n the presence of ~ 1 - ions i n t h e e l e c t r o -
l y t e r o l u t i o 2 + i s g iven by: 1 . .
-.. , %$
Deplet ibn of ~ 1 - ions i n t h e e l e c t r o l y t e s o l u t i o n w i l l occur
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f over a p e r i o d o f t ime s i n c e el- is requited-y b o t h t h a
* 9
e l e c t r o d e system and f o r p a r t i c i p a t i o n i n t h e process o f
w a t e r - s p l i t t i n g i n t h e a l g a e . , . Howe:sr, - i n a l l i tDI
of t h e exper iments ber formed, t h e d u r a t i o h o<_the exp'ef~wents
was s h o r t enough , t o minimize t h e d e p l e t i o n d f ~ 1 - ioris and
t h e r e s u l t a n t d e c r b a s e i n t h e e l e c t r o l y t e s t r e n g t h , i I i - -
I -- - - - - 1
L
.)I] - I
F
- 3 . 3 Exper imental methods a p p a r a t u s
. a
3 . 3 . 1 Exper imental methods i
!4
Samples were cut f r o r a l g a e wi th a 6 . 0 mm diameter cork 3
b o r e r and t i g h t l y he ld on t h e b a r e P t e l e c t r o d ; by a t h i n " - r)
d i a l y s i s membrane I cell 'ulose 1 - soaked i n seawater. - The - - - -
membrane was s t r e t c h e d t o cove t t h e Ag/AgCl electrode and
secu red wi th an O-r ing. For a11 measurements, t h e * P t
B e l e c t r o d e was b i a s e d a t - 0 . 7 0 0 2 0.001 V v s Ag/Ag$l, and uau
mainta ined c o n s t a n t p o t e n t i a l by t h e c i r c u i t s shown.ln U.
F i g . 3.2 c B
P I (
e$iments , - t 3 e v o l t a g e was agp2 ied across t h e
e l e c t r o d e s a f t e r - t h e s h p l e had dark-adapted Lor approximately 0
10 min. ApproStimately- 20-30 min was r e q u i r e d t o o b t a i n a i f * *
s t a b l e basel ine . . - s 'I
A l l expe r imen t s 'w'ere &epeated two t o t h r e e <times a t room \
t empera tu re pslng disks ' c u t %om the same algal thallus. I f -
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'*.
F i g . M e a s u r i n g c i r c u i t f o r t h e d a t a a c q u i s i t i o n s y s t e m ,
-- - The c i r c u i t u s e d f o r p r e l i m i n a r y 0 e x c h a n g e
2 'b
measu remen t s is d D
- The power s u p p l y - f o r t h e . m e a s u r i n g c i r c u i t s - - - -
I
shown i n c a n d d replaced t h e 1 . 5 V b a t t e r y * -
u s e d i n p a r t a .
I - -
The O 2 r e d u c t i o n c u r r e n t a t t h e c a t h o d e is meas-
u r e d a c r o s s a l o a d res i s to ' r , R%L ( 1 o r 1 0 k n ) .
IL
* T h e O 2 r e d u c t i o n c u r r e n t a t t h e c a t h o d e is meas-
ured across a d e c a d e box r e s i s t o r , ( R L can be - - - - - - - - - - - -- - - --- -
v a r i e d f rom 1 fi to 9 9 . 9 9 9 kn) .
a l l t h r e e a m e a s u r i n g c i r ' c u i t s , t h e v o l t a g e across a . -
was i n p u t to" th2i' T r k c o r N o r t h e r n s i g n a l ave rag - k
e r . The P t e l e c t r o d e was m a i n t a i n e d - a t - 0 . 7 0 t 0 . 0 5
e 4 J v s Ag/AgC1 i n c i r c u i t a , a n d - 0 . 7 0 0 V w i t h r e s p e c t
t o Ag/AgC1 i n c i r c u i t s ' c and d . The symbol
r e p r e s e n t s s h i e l d e d c a b l e .
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6
e - - -- - - - -- -- s a m p l e s were u s e d f o r a s e c ~ n ~ e x ~ e r i m e n t , t h e y were d a r k -
a d a p t e d f o r te"n minu tes , which was s u f f i c i e n t f o r r e p r o -
d u c i b i l i t y . Most e x p e r i m e n t s were r e p e a t e d up t o t e n times
u s i n g a l g a e c o l l e c t e d o v e r t h e growing s e a s o n , u s i n g 2-3
s a m p l e s from e a c h * t h a l l u s , yielh?y 20-30 e r p e r imen t s f o r e a c h - spec ies . T h i s was n e c e s s a r y - t o c3bensate f o r d i u r n a l -- - and - - -
s e a s o n a l v a r i a t i o n s . Much v a P i a b i l i t y was found among a
s p e c i e s , t h u s a n e s t i m a t i o n of e r r o r i n t h e measurements is -
d i f f i c u l t t o a c h i e v e . Data which is p r e s e n t e d i n t h i s t h e s i s . -
r e p r e s e n t s i n d i v i d u a l e x p e r i m e n t s which a r e r e p r e s e n t a t i v e o f
t h e a v e r a g e r e s p o n s e f o r a g i v e n s p e c i e s . To compensate f o r
s e a s o n a l v a r i a t i o n s , o n l y O 2 exchange measurements which
were r e p r o d u c i b l e o v e r a l o n g p e r i o d o f t i m e a r e p r e s e n t e d .
The p h y s i o l o g i c a l s t a t e o f t h e a l g a e a t t h e t ime o f t h e
0 exchange measurements-i-s-of-paramount ~ m p o r t a n c e ~ C ~ n t r o - ~ - - - 2
0 exchange c u r v e s were t a k e n p r i o r t o e a c h e x p e r i m e n t . I f 2
t h e c o n t r o l c u r v e d i d n o t f a l l w i t h i n t h e expe 'c ted r a n g e of
OP2 exchange v a l u e s , t h e e x p e r i m e n t was r e p e a t e d u n t i l h h i s
o c c u r r e d . I n some cases, o p t i m i z a t i o n o f t h e sample p lacement - w i t h i n t h e e l e c t r o d e was s u f f i c i e n t , i n o t h e r c a s e s , a new
c o n t r o l was e v e n t u a l l y e s t a b l i s h e d .
E s t a b l i s h i n g - . c o n t r o l O2 exchange c u r v e s f o r d i f f e r e n t Y
g e n e r a o f m a r i n e a l g a e was e s s e n t i a l t o i n t e r p r e t a t i o n .of t h e - - -
d a t a . Long-term c o n t r o l O2 exchange measurements , encompas-
s i n g s e a s o n a l v a r i a t i o n s , were done &r s e v e r a l doif f e r e n t
g e n e r a o f m a r i n e a l g a e and a r e p r e s e n t e d iq C h a p t e r 4 . d -
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I
Q,
'LC
w
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F i g . 3 . 3 Apparatus f o r oxygen exchange measurements wi th
f l a s h i l l u m i n a t i o n
The l i g h t was channe led t o t h e sample- h o l d e r by a - - - -
l i g h t p i p e from t h e xenon f l a s h lamp o r r e f l e c t e d -
____I_ __--- by m i r r o r s from t h e excimer-pumped dye l a s e r .
Early e x p e r i m e n t s were recorded on a c h a r t
r e c o r d e r ; l a t e r exper iments were - i n p u t t o a
microcomputer,
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PU
LS
E
GE
NE
RA
TO
R
LIG
HT
P
IPE
PU
LSE
D L
IGH
T
OR
M
IRR
OR
S
1 (1
-10
Hz)
I
CO
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TE
RI
- (C
HA
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OR
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MPL
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ER
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ING
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UIT
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measurements F i g . 3 . 4 Apparatus f o r oxygen exchange under
low O2 c o n c e n t r a t i o n s .
- -
The data a c q u i s i t i o n system
-
shown i s the same a s
F i g . 3 . 2 . The mixing tanks a l low any ambient -
0 2 / N 2 r a t i c t b b e ob ta ineo . To o b t a i n an
anaeraobVic environment, N2 i s f lushed through the
s y s tern.
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MIX
ING
I I
SA
MP
W
HO
LDER
I I
MIX
ING
-
TAN
K
TAN
K
- PR
ESS
UR
E
GA
UG
E
PRE
SSU
RE
G
AU
GE
' I
I ST
EE
L TUBING
-
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- - - - - - - - - -- -- --
3 . 3 . 4 Oxygen exchange measurements under low oxygen
p a r t i a l p r e s s u r e s o r under a n a e r o b i c c o n d i t i o n s . "
\ Oxygen exchange measurements were made under c o n d i t i o n s o f
low m ~ i e n t 0 c o n c e n t r a t i o n s and under a n a e r o b i c c o n d i t i o n s . -$
2
Two d i f f e r e n t sys tems were wsed f o r t h e s e measurements. I n L
o r d e r t o measure O 2 exchange under low O 2 p a r t i a l p r e s s u r e s
o r under a n a e r o b i c c o n d i t i o n s , t h e sample ho lder was connected . t o O 2 and lo r N 2 t a n k s . The 0 and N 2 'were s u p p l i e d t o t h e 2 - - sample ce l l by two h igh p r e s s u r e Linde s p e c i a l t y g a s mix ture
( t a n k s , one c o n t a i n i n g 0 wi th 280 p1 C02 pe r l i t e r , and t h e - 2
o t h e r c o n t a i n i n g N 2 w i t h 285 p1 C02 per l i t e r . A 1 . 5 1 s t a i n -
l e s s s t e e l chamber was a r r anged i n p a r a l l e l wi th t h e sample
cel l t o a l l ow mixing o f t h e O 2 and N 2 t o any d e s i r e d p a r t i a l - - - -- - - - - - -- - - - - - -- - - - - --
p r e s s u r e ( F i g . 3 . 4 1 .
An a n a e r o b i c environment was a l s o o b t a i n e d by connec t ing - --
t h e sample h o l d e r w i t h p l a s t i c t ub ing t o a smal l P i t tman a i r
pump a s shown i n F i g . 3 . 5 . A i r was c i r c u l a t e d th rough a f l a s k
o f a l k a l i n e p y r o g a l l o l s o l u t i o n and t h oughout t h e c l o s e d . f
5 pystem a t a f low r a t e o f app rox ima te ly 100 c m /min u n t i l t h e i
0 i n t h e system was removed. The p y r o g a l l o l s o l u t i o n was . .IL
2 J
prepa red by a d d i n g o 2 . 8 g p y r o g a l l i c a c i d i n U-gl d i s t i l l e d
water t o 5 g KOH i n 10 m l d i s t i l l e d water (Gabb and Latchem, - --
1 9 6 7 ) . Gene ra l ly , two t o t h r e e hours were r e q u i r e d t o o b t a i n
a comple t e ly a n a e r o b i c environment . I n o r d e r t o e n s u r e t h a t
t h e a l g a e d i d n o t become d e s s i c c a t e d by t h e c i r c u l a t i n g a i r , . -- -
\
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F i g . 3 . 5 Appara tus f o r oxygen 'exchange
a n a e r o b i c c o n d i t i o n s .
- --
Cont inuous i l l u m i n a t i o n
e r p e r & m c n t s . Algae was
measurements under
was used. f o r t h i s series o f
p l a c e d i n t h e sample h o l d e r
and t h e s y s t e m c l o s e d t o t h e a t m o s p h e r e . The g a s
i n t h e s y s t e m was pumped t h r o u g h p y r o g a l l o l t o
remove 02. --
same a s f o r
The d a t a a c q u i s t i o n s y s t e m is
f l a s h i n g 1 i g b t e x p e r i m e n t s .
t h e
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I 1
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I - - - -, -- ---p-p
a f l a s k of .water was connected i n s e r i e s wi th t h e f l a s k of
p y r o g a l l o l s o l y t i o n .
3.3T5 L igh t s o u r c e s
Both pu l sed and con t inuous l i g h t were' used t o i l l u m i n a t e
t h e sample, depending on t h e t y p e , o f exper iment performed.
Continuous i l l u m i n a t i o n was provided by a Q u a r t z l i n e EGH lamp
(Canadian General Ebectric, 120V, 3OOW 1 o p e r a t e d a t v o l t a g e s *
up t o 1 1 0 V . L i g h t was passed through a 4 .7 c m t h i c k l a y e r o f
water t o a b s o r b t h e i n f r a r e d p o r t i o n o f t h e spec t rum. Pulsed
l i g h t was o b t a i n e d by a xenon f l a s h ( 4 or 5 ps bul-
excimer-pumped dye laser wi th f l a s h d u r a t i o n less t h a n 1 0 n s . * - - - - - - - - - - - -
~ o t k e n o n f l a s h and con t inuous e x c i t a t i o n l i g h t were led 2
t h e sample th rough f i b e r o p t i c bund le s . M i r r o r s were used t o
r e f l e c t t h e laser l i g h t i n t o t h e sample h o l d e r .
For t h e f i r s t series o f f l a s h i l l u m i n a t i o n O2 exchange
exper iments , a n E G f G FX 224 xenon f l a s h lamp o p e r a t e d a t
1 . 0 kV with'a 10 pF d i s c h a r g e c a p a c i t o r produced a p u l s e width
(FUHH) of 4 p s . For l a t e r exper iments , a n EG&G FX 249 xenon
f l a s h lamp o p e r a t e d a t 1 . 0 kV wi th a 10 JJF d i s c h a r g e c a q a c i t o r . .- \
r e s G l t e d i n a p u l s e w idESof 5 p s . Each puls-Cmust be i -ntense - -
-- - - --
and s u f f i c i e n t l y l ong t o p rov ide a t l e a s t 'dne turn--over o f
each oxygen-evolving complex IOEC) f o r a low p r o b a b i l i t y of
misses , b u t must be s h o r t enough t o minimize doub le h i t s i n
-
--
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- > - - - - . , q - , ,
8 L. -
6 8 . >
- F -- - - 77 r -
C . . V
0 d - - - -- -- - -
t h e r e a c t l o r \ c e n t e r s [,two t u r n - o v e r s of t h e OEC).;. - The ' l i g h t 0 ,
c - . % ' I
was i n c r e a s e d u n t i l . t h e maximum n e t O2 e v o l u t i b n w a s ~ a c h i e v e d ; .' f~
However, iC is d i f f i c u l t t o s a t ~ r a t e t h e S2 + S j . t r a d s i g i o n : B
1
V
C
, (Del-r ieu, 19801, and t h u s t h e r e s t i l l may have been a t h i g h . . p r o p o r t i o n o f misses f o r OECs i n t h e S2 S t a t e prior. 'ko a .
a
l i g h t Elash. - *. - - - A - - --J-
' P . l
* f ' 0
The f l a s h f r e q u e was set by a Hewlett Packard 33018 -
f u n c t i o n g e n e r a t o r . which a l s o t r i g g e r e d t h e signs< avk iage r 6
s i m u l t a n ~ o u s l y w i t h t h e f i r s t f l a s h . The f l a s h f requency f o r -
a l l 1 expe r imen t s was s e t t o 3 . 3 Hz, w h i c h k e p t t h & time
i n t e r v a l between f l a s h e s s h o c t enough t o minimize d e a c t i v a - t i o h -
of t h e S - s t a t e s o f t h e OEC ( J o l i o t e t a l . , 1971; Kok e t a l , . 0 - 1971) . b u t l ong enough t o allow' t h e S - s t a t e t r a n s i t i d n s - t o D
o'ccur . The energy o u t p u t per p u l s e of t he ( 1 k V ) xenon f1as.h a t 7
8 i-
3 . 3 Hz was de te rmined t o be 3 .0 t 0 . 3 rnJ us ing a ~ c i e n t e c h 3 6 1 t .
* - -
power meter w i t h . d e t e c t o r 'model VPH-2 (Newpqrt Research - C o r p o r a t i o n ) . Using 450 nm as t h e average wavelength of t h e
xenon lamp ' ( r e f e r e n c e ) . t h e emis s ion was c a l c u l a t e d t o be %
-2 r 1 0 1 5 photons pe r • ’ l a t h . f 3 - ped dye laser was used t o p rov ide f l a s h ,
a, s h o r t p u l s e b o f a s p e c i f i c wavelengtn was " -
r red l i g h t was o b t a i n e d by usiag-arazine~715~ - A
. . p e r c h l o r a t e d i s s o l v e d in 'me thano l as t h e l a s e r c e , which h a s
maximal f l u o r g s c e n c e a t approximate ly 720 nn. Red l i g h t was >
o b t a i n e d by u s i n g DCM d i s s o l v e d i n methanol, which has a ;,
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3
r - fluorescence m a x i ~ u m a t 650 nm.
a
Yhite light from a Quartzfine EGH lamp, operated a t 0 -
voltages up to 110 V, uas used to provide illumination times
-= of up to 2.in. A simple mecha~lcml, shut ter controlled t h e - -
durat ion of illumination. The light intensity was measured ' 8 - C
with a Tektrunix J 1 6 photodetector vith 5 6 5 0 2 irradiancc - - - -- --
probe. 1
- L
3.3.6 Data scquisitian system
The current produced by O2 ~eductlon a t the PC cathode was . -.
I - ' measured across a load resistor. RL (which ranged from 1 t o
1
4 0 kn), #and input to a Tracor Northern Xudel TU 1710 signal
kverager. T h r e e m e & a ~ t ~ s ~ - c A ~ ~ r t r i t s 'were used during this - -
re search . Pref islnary maasureacngs vcrc par formed u s i n g t h e -+
ciicui t depicted i n Fig: 3 . 2 a . b t c r rmteasuremehts used t h e Y
9
ciscult shown gn Pig. 3.2c, while the f i n a l c i r c u i t i s shown
in Fig. 3.26. Figure 3 . 2 b d e p i c t s , t h e paver supply used for -.
circuits 3 . 2 ~ and d .
k l y experiments were rccarded on a Hoseley 70ql AR X-Y c
recorder . For later crpariments;thc sLgha1,avcrag~r was . - -
interfaced t o a sicrocomputer and output to a - H e u l a t t Packarc3 -- - - -
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4
To correct for the pile-up of pulses, the - data were fitted
with the Simplex algorithm (Nedier and llead, 1965; Caceci and - Cacheris, 1985) on an I= PC.' The data were read into t h e PC
i
by means of a ~oeston Instruments HIPAD digitizer to a maximum f
- - - --- - - of 1000 equidistant horizontal and vertical data points.
Curve fitting-as a function of the total number of data points
(Nl showed that the number of data points in the curve did not L)
- affect the values of the parameters used to f i t the curve. -- - -
The 0 exchange curve w* generated by adding pulses 2
uith the same shape as the third pulse (the reference re-
sponse), shifted along the time axis with the appropriate time
interval between pulses. The amp1 itude of each pulse was
determined to give the-best - - - - fit to -- the experimental - -- curve -- - - for - - -
the total0O2 exchange. This f ittlng' procedure assumes that
the time course of the O2 current from a single flash deliv-
ered at different times changes in scale, but not shape. This.
is a reasonable assumption since €I2 is always produced at the _ ' same locations within the algae, the evolution of Q 2 follows
four-step kinetics which only change. in magnitude as a func-
- tion of flash number (Kgk et al., 19701, and the half-time for ,
O2 evolutioh is indepeqdent of flaih number (Joliot et al., .
1966; ~ t k k e r et al., l984b).
The error function for the algorithm computed the sum of
the squares of the distances from the experimental curve to
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L . ---
L
- - --
CHAPTER 4 . OXYGEN E X C H A N G E M E A S U R E M E N T S I N MARINE ALGAE - . i
'3 - Much of , t h e e a r l y work on O 2 exchange ( e v o l u t i o n a n &.
\
u p t a k e ) and l i g h t - i n d u c e d O2 u p t a k e was f i r s t measured i n v
. a l g a e (Brown and Weiss, 1959; Hoch C t a l . , 1963; Vidav,er and \
- -- - - - -- -
French , 1 9 6 5 ) . e l g a e , i n g e n e r a l , r e p r e s e n t v e r y dLverse - - - - - g r o u p s , b u t t h e p r o c e s s e s o f 0 e v o l u t i o n and u p t a k e i n '
2 - -
d j f f e r e n t a l g a l d i v i s i o n s have many s i m i l a r i t i e s t o e a c h o t h e r
a n d t o t h o s e o f h i g h e r p l a n t s . -
. L
An a n a l y s i s o f O 2 exchange c u r v e s is d i f f i c u l t because
o f t h e i n t e r - r e l a t i o n s h i p be tween p r o d u c t i o n and consurnp't i o n
cf O2 b y t.he a l g a e and i t s d e t e c t i O n by t h e e l e c t r o d e ., \. -- s y s t e m . Thus, a d i s c u s s i o n o f p h o t o s y n t h e t i c O 2 exchange '
c a n n o t be c o m p l e t e w i t h o y t c o n s i d e r i n g t h e mechanism o f 0 - - - - - - - - - - * - - -- 2 , -- - - ---
r e d u c t i o n a t t h e P t e l e c t r o d e and how i t a f f e c t s t h e measured
0 exchange i n t h e a l g a e . However, i n o r d e r t o i n v e s t i g a t e 2
k i n e t i c s o f O 2 exchang'e, b o t h !n ' a lgae and i n h i g h e r p l a n t s , -- --
i t ~ i s e s s e n t i a l t o d e t e r m i n e t h e "normal" ( c o n t r o l ) 0 e x - - 2 1
c h a n g e . C o n t r o l O2 exchange c u r v e s r e p r e s e n t 9 exchange 2 -
i n u n t r e a t e d , f r e s h l y c o l l e c t e d a l g a e , d a r k - a d a p t e d f o r 1 0 min
i n a i r p r i o r t o 3 . 3 + 0 . 1 Hz f l a s h i l l u m i n a t i o n .
For f l a s h i l l u m i n a t i o n , r e l a t i v e l y 1 i t t l e i n f o r m a t i o n
e x i s t s i n the l i t e r a t u r e on O2 exchange i5easurements-usi~g --
t h e b a r e P t
c u r v e s were
e l e c t r o d e ; f o r t h i s r e a s o n , c o n t r o l O2 exchange -
e s t a b l i s h e d f o r d i f f e r e n t g e n e r a o f m a r i n e a l g a e .
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e i o d - o f t h i s r e s e a r c h i n o r d e r t o e s t a b l i s h t h e con- the Y - t r o l s . Genera i n t h r e e d i v i s i o n s were s t u d i e d , Rhodophyk
( r e d a l g a e ) , Phaeophyta (brown a l g a e ) , and Chlorophyta ( g r e e n
k g a e ) . , A d e t a i l e d d i s c u s s i o n o f t h e d i f f e r e n r k i n e t i c s +or
t h e genera s t u d i e d is beyond t h e scope o f t h i s t h e s i s .
4 . f The Red A 1 gae (Rhodophyta
Rhodophyta c a n be d i s t i n g u i s h e d from o t h e r g roups of
e u k a r y o t i c a l g a e b y s e v e r a l c h a r a c t e r i s t i c s , i n c l u d i n g t h e
'.absence of agg rega t ed t h y l a k o i d s and t h e p re sence o f c e r t a i n
" acces so ry phohosyn the t i c pigments, t h e p h y c o b i l i n s (Bold and,
Wynne, 1985 1 . Phycoe ry th r in i s g e n e r a l l y t h e p r e d o m i n a n t x ~ - -
i
c e s s o r y pigment and impar t s t h e r e d c o l o r a t i o n t o many Rhodo-
phyta , t h u s g i v i n g t h i ~ ~ g e n e r a t h e common name, r e d a l g a e .
However, manymred a l g a e do n o t appear r e d d i s h , and i n f a c t a
f u l l range of c o l o r a t i o n . is found (Bol&.and Wynne, 1 9 8 5 ) .
The l i g h t - h a r v e s t i n g complex i n t h e r e d a l g a e c o n s i s t s
l a r g e l y + o f agg rega t ed p h y c o b i l i p r o t e i n s which are found on t S e
e x t e r n a l . s u r f a c e o f t h e t h y l a k o i d s . These a r e r e f e r r e d t o a s
phycobi l isomes ( s e e F i g . 1 . 3 X . - The c o n t r o l O2 exchange c u r v e s f o r dark-adapted. P-
p e r f o r a t a and J r i d a e a a. are shown i n F i g . 4 . l a and F i g . 4 .2 ,
r e s p e c t i v e l y . The v a r i a t i o n between t h e two O 2 exchange
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F i g . 4 . 1 Oxygen e x c h a n g e i n Rgrahvra
The O2 e x c h a n g e c u r v e f o r d a r k - a d a p t e d
a t 3 . 2 - H z f l a s h
f r e q u e n c y i s d e p i c t e d . The , f i r s t f l a s h o c c u r s
? a t t = 0. Oxygen i s ' p r o d u c e d o n t h e t h i r d
f l a s h .
The same s a m p l e m h u per fora ta u s e d i n
F i g . 4.la was dark-adap ' ted f o r 30 rnin i n 5T O2
p r i o r t o i l l u m i n a t i o n . T h i s shows more d i s t i n c t
c u r r e n t p u l s e s t h a n F i g . 4.la. - - p- ---
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F i g . 4 . 2 Oxygen e x c h a n g e i n Jx idaea
The 0 e x c h a n g e c u r v e f o r da rk -adap tec 2
3 . 2 Hz f l a s h f r e q u e n c y is shown. E l e v e n l i g h t - - - - - -- - -- - - - A --
f l a s h e s were g i v e n t o t h e s ample , w i t h t h e f i r s t
f l a s h a t t = 0 , a n d t h e l a s t f l a s h a t t = 3 . 2 s . ' \
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c u r v e s s u g g e s t s - t h a t t h e rnechanlsms-oe q w ~ T v t i o n an&/-
u p t a k e may be q u i t e d i f f e r e n t be tween t h e two r e d a l g a l gen-
era . The mechanisms o f O 2 exchange i n r e d a l g a e is unknown, %
however, t h e r e is no e-vidence t o i n d i c a t e t h a t t h e p r o c e s s o f
O 2 e v o l u t i o n is d i f f e r e n t i n r e d a l g a e t h a n i n t h e g r e e n
a l g a e . B r e c h i g n a c and Andrcf ( 1 9 8 4 ) found t h a t i n t h e . r e d - - -- -- -- - - - -- - - - -
a l g a , C h r o n u ~ r i s ~ u s , p h o t o r e s p i r a t i o n is a b s e n t and t h u s i s
n o t r e s p o n s i b ~ f o r a l i g h t - i n d u c e d O 2 u p t a k e . Pho to reduc- w
t i o n o f O 2 h a s b e e n found i n 'a41 p h o t o s y n t h e t i c , organ i sms cg --
b,' examined ( B u n t and Heeb, 4 9 7 1 ; F l i d e w e l l and Raven, 1975;
Radmer and Kok, 1976; Radmer and O l l i n g e r , 1980; S h e l p and .
Canvin, 1980; Fock e t a l . , 1981; Behrens e t a l . , 1982; Furbank
e t a l . , 1983) and t h u s i t l i k e l y o c c u r s i n r e d a l g a e .
The O2 exchange c u r v e f o r P o r o h v r a i n a i r ( F i g . 4 . l a ) d o e s '
n o t f i t t h e S s t a t e - m o d e l - d e p i c t e d b y Kok e t a l . (-1970) . T h e - --
l a c k o f a f o u r s t e p p a t t e r n o f O 2 exchange i n P o r ~ h v r a under
normal c o n d i t i o n s may be due t o d i f f e r e n c e s i n O2 u p t a k e o r
O2 e v o l u t i o n o r b o t h . The s t r u c t u r e a n d / o r f u n c t i o n o f t h e
oxygen-evolvincj complex i n g o r ~ h v r g may be d i f f e r e n t t h a n o t h e r
r e d a l g a l - g e n e r a ( e . g Jridaeg) . The p o s s i b i l i t y t h a t P o r ~ h - is
p h o t o i n h i b i t e d under lower l i g h t i n t e n s i t i e s t h a n o t h e r r e d a l g a l
g e n e r a s h o u l d be i n v e s t i g a t e d . I n o r d e r t o d e t e r m i n e i f t h e
v a r i a t i o n i n O 2 exchange is due t o d i f f e r e n t O2 u p t a k e p roc -
esses, ( s a m p l e s o f Po rdhvra were d a r k - a d a p t e d i n 59 O 2 f o r
30 r!tn p r i o r t o i l l u m i n a t i o n . With a r educed ambien t O2 con- '
c e n t r a t i o n , O2 consumpt ion p r o c e s s e s which o c c u r i n P o r ~ m I,
1
4
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w i l l be d e c r e a s c b ; - The O2 exchange---a i r r 5%
O2 ( F i g . 4.lb) does show fou r s t e p O 2 exchange k i n e t i c s . The
s i g n i f i c a n c e o f t h i s r e s u l t is d i f f i c u l t t o i n t e r p r e t s i n c e a
d e c r e a s e i n ambient O 2 c o n c e n t r a t i o n w i l l p robably i n h i b i t t h e
p r o c e s s of O2 e v o l u t i o n as w e l l a s d e c r e a s e O 2 consumption
p r d c e s s e s . However, s i n c e a four s t e p O2 exchange p a t t e r n i s - - - - - - -
e v i d e n t from F i g . 4,lb, t h i s i n d i c a t e s t h a t t h e s t r u c t u r e and
f u n c t i o n of t h e OEC is P o r ~ u canno t be r a d i c a l l y d i f f e r e n t
from o t h e r marine a l g a e w h i c h show a - i o u r s t e p O2 exchange
p a t t e r n under normal c o n d i t i o n s .
4 . 2 he Brown Algae (Phaeophyta 1
The d i v i s i o n Phaeophyta c o n s i s t s o f d i v e r s e organisms
7 which range i n s i z e f rom-microscopic t o t h e l a r g e s t o f marine
-
p l a n t s ( b a c r o c v s t i & ) . O'ne common f a c t o r among brown a l g a e is
t h e i r unique t h y l a k o i d a r rangement . _The t h y I a k o i d s occur i n
g roups o f t h r e e w i t h some i n t e r . o n n e c t i o n s between t h e lamel-
l a e (Bold and Wynne, 1985). The browi c o l o r a t i o n o f many m e m -
b e r s of Phaeophyta is due p r i m a r i l y t o t h e pigment fucoxan th in ,
S t u d i e s on p h o t o s y n t h e t i c w a t e r - s p l i t t i n g i n t h e brown
a l g a e have i n d i c a t e d t h a t bo th copper and manganese p l ay a
r o l e i n t h e OEC (Holdsworth and Arshad, 19771, however t h i s
has n o t y e t been c o n c l u s i v e l y proven.
Oxygen exchange curves f o r f l a s h i l l u m i n a t i o n ~f two
gene ra o f brown a l g a e a r e shown i n F ig . 4 . 3 f o r Alaria and
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-
F i g . 4 . 3 Oxygen e x c h a n g e i n Alaria
a . The O2 e x c h a n g e c u r v e f o r d a r k - a d a p t e d Alaria
a t 3.-2 Hz f l a s h f r e q u e n c y is s i m i l a r t o t h a t o f - - - - -- -
ylva, but i s l o w e r i n m a g n i t u d e . T h i s may be
d u e t o t h e t h i c k n e s s o f t h e a l g a e . T h e r e is no
e v i d e n c e t o i n d i c a t e t h a t t h e O 2 e x c h a n g e
mechanisms i n b l a r i a are d i f f e r e n t t h a n i n t h e
g r e e n a l g a e .
-
b . T h r e e l i g h t f l a s h e s g i v e n t o t h e sample. ( w i t h
t h e f i r s t f l a s h a t t = 0) p r o d u c e O 2 o n t h e - 0
t h i r d f l a s h , w h d c h r e p r e s e n t s t h e c h a r a c t e r ist ic 1
r e s p o n s e o f t h e s y s t e m t o 0 p r o d u c t i o n by 2
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- - , F i g . 4 . 4 a n d 9.5 f o r m. D i f f e r e n t s a m p l e s of *
showed< two d i s t i n c t O2 e x c h a n g e c u r v e s ; the I I
v a r i a t i o n may be d u e t o two d i f f e r e n t s p e c i e s o r t o sehssnal 0 4.
o r d i u r n a l v a i i a t i o n s w i t h i n t h e same s p e c i e s . l
4 . 3 The G r e e n Algae - ( ~ h l o r o p h y t a )
- Oxygen exchahge h a s b e e n w i d e l y s t u d i e d i n t h e green algae
d u e t o t h e s i m i l a r i t y o f p h o t o s y n t h e t i c s t r u c t u r e and Eunct i o n
t o h i g h e r p l a n t s . Two g e n e r a o f g r e e n a l g a e were s t u d i e d , * Y l v a a n d m t e r @ o r ~ h * which b o t h b e l o n g t o t h e same f a m i l y ,
AT.
U l v a c e a e . F i g u r e 4 . 6 shows t h e O2 e x c h a n g e c u r v e f o r
En te rmorpha , which is s imilar t o ' t h e O 2 e x c h a n g e cl!rve shown
f o r y l v a i n F i g . 4 . 7 .
, Oxygen e x c h a n g e c u r v e s b r Y ~ V Q were o b t a b d f o r a large
number o f s a m p l e s ; a r e p r e s e n t a t i v e O 2 e x c h a n g e c u r v e is v
d e p i c t e d i n F i g . 4 . 7 . The O2 e x c h a n g e c u r v e of F i g . 4.7,. ,
t a k e n f o r d a r k - a d a p t e d y l v ~ , shows O2 was r e l e a s e d on t h g -
s e c o n d f l a s h . T h i s . is c o n s i s t e n t w i t h t h e f i n d i n g s o f
J u r s i n i c (19781, who o b s e r v e d t h a t O 2 was r e l e a s e d on t h e
s e c o n d f l a s h f o r p h y s i o l o g i c a l l y f r e s h s a m p l e s . T h i s .
i n d i c a t e s t h a t a c e r t a i n number A o f OECs underga dauble t u rn -
o v e r s o f some o f t h e PS I 1 r e a c t i o n c e n t e r s o n e i t h e r t h e I -
f i r s t o r s e c o n d f l a s h .
T h e 5 0 Z e x c h a n g e curve f o r ylva i l l u m i n a t e d w i t h 680 nm
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B
The U2 exchange curve tor dark-adapted- i C
q~
a t 3 . 1 l l z f l a r h f requency shous distinct Q2 pulses - . - - -
'and includes both D2 uptake and evolution
components as observed i n u. T h i r t e e n light
Eleskcs were g t y e n to t h e sample. The f i r s t f l a s h 93
occurred a t t 0, and the last f l a s h occurred a t
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P
Fig. 4 . 5 Oxygen exchange i n Lamlnarla
a . The O2 exchange c u r v e ' f o r da rk -adap ted
Laminaria a t 3 . 3 Hz f l a s h f r e q u e n c y is' q u i t e -- - - --- --
d i f f e r e n t from t h a t o f F i g . 4 . 4 f o r a d i f f e r e n t
sample o f m, b u t is s i m i l a r t o t h a t o f -a - Alaria i n F i g . 4 . 3 . The " d i p " i n t h e
o s c i l l a t i o n a t t h e s i x t h and e l e v e n t h f i a s h e s i n
, - F i g . 4 . 4 i s n o t e v i d e n t i n t h i s f i g u r e . he
O2 c u r r e n t p u l s e a t t h e second f l a s h i n d i c a t e s
t h e number o f d o u b l e t u r n o v e r s o f t h e OEC d u r i n g
e i t h e r t h e f i r s t o r second f l a s h . T h i s is - - - - - - - - -- - - - - - - - - - -
common i n f r e s h l y c o l l e c t e d a l g a e ( J u r s i n i c ,
b, Three s h o r t l i g h t f l a s h e s ( w i t h t h e f i r s t f l a s h
. a t t = 0 1 g i v e n t o d e p i c t t h e r e f e r e n c e r e s p o n s e
f o r -. 1'
I 2
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. F i g . 4 . 6 Oxygen exchange
The O 2 e x c h a n g e - at
-
c u r v e f o r dark-adapted
3 . 0 Hz flash frequency -
that f o r y1v.a i n F i g . 4 . 7 . --
.6'
is similar
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Fig. 4 . 7 , Oxygen exchange i n y l v a
The O2 exchange c u r v e f o r d a r k - a d a p t e d Ulva a t
3 . 3 Hz f l a s h f r e q u e n c y - - is s i m i l a r t o t h a t f o r - - - - - - - -
.- - a r u i n F i g . 4 . 4 . The f i r s t f l a s h o c c u r s a t
t =O. The p r e s e n c e o f a n O2 s i g n a l f o r t h e second
f l a s h i n d i c a t e s d o u b l e h i t s on e i t h e r t h e f i r s t o r
second f l a s h .
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l i g h t is shown i n F i g . 4 . 8 . . The r a t i o o f Y 3 / Y q ( Y n is t h e 0
n e t O2 y i e l d on t h e n t h f l a s h ) i s l a r g e r f o r w h i t e l i g h t
i l l u m i n a t i o n ( F i g . 4 . 7 ) t h a n f o r 680 nm i l l u m i n a t i o n . Dark-
a d a p t e d - was i l l u m i n a t e d w i t h l i g h t o f d i f f e r e n t wave- --
l e n g t h s , r a n g i n g from 602 t o 680 nm. The f l a s h y i e l d se- b
quences f o r t h e s e 02-exchange c u r v e s are shown i n - F i g . 4.-9. - -
B r i t z ( 1 9 7 6 ) h a s r e p o r t e d t h a t Ylva undergoes a c i r c a d i a n
rhythm o f c h l o r o p l a s t movement. T h i s would a l m o s t c e r t a i n l y
a l t e r O 2 exchange measurements . I n fact, Ulva h a s been found
t o undergo l a r g e d i u r n a l v a r i a t i o n s o f l i g h t - s a t u r a t e d photo-
s y n t h e t i c c a p a c i t y sit%, which i s m a n i f e s t by minima and - -
/
maxima i n t h e r a t e o f n e t O 2 e v o l u t i o n (Mishk ind e t a l . , 1976;
Mishkind and M a u z e r a l l , 1 9 7 7 ) . F r e s h l y c o l l e c t e d s a m p l e s had
tmax imum n e t O 2 e v o l u t i o n u n d e r 7 & t u r a t i n g l i g h t a t noon, and - - - -- - - -- - - - - - - -
a minimum a t m i d n i g h t (Mishkind e t a l . , 1 9 7 6 ) . A t low l i g h t
i n t e n s i t i e s , however, t h e r a t e o f n e t O 2 e v o l u t i o n remained
c o n s t a n t . Mishkind e t a l . ( 1 9 7 6 ) found t h a t . f r e s h l y c o l l e c t e d
2 L
y l v a , k e p t under c o n t i n u o u s i l l u m i n a t i o n ( 2 m W / c m - 1, main-
t a i n e d t h e s e o s c i l l a t i o n s f o r up t o 36 h . These v a r i a t i o n s i n
O 2 exchange f o r one sample g i v e a n i n d i c a t i o n o f t6e d i f f i - ,
c u l t y i n h e r e n t i n o b t a i n i n g c o n t r o l O 2 exchange c u r v e s . For
t h i s r e a s o n , a n e r r o r a n a l y s i s f o r t h e c o n t r o l c u r v e s p r e s - -
ented i n this c h a p t e r w a s n o t a t t e m p t e d . , -
The e x p e r i m e n t a l r e s u l t s p r e s e n t e d i n t h i s c h a p t e r r e p r e s -
e n t l lnormaltf O2 exchange f o r t h r e e d i v i s i o n s o f a l g a e . A r
c o m p a r i s o n o f O2 y i e l d p e r f l a s h f o r t h e d i f f e r e n t a l g a e is
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F i g . 4 . 8 Oxygen exchange i n Ylvb . i l l u m i n a t e d w i t h 680 nm
1 i g h t
- - - - - - -- -
The O 2 exchange c u r v e f o r da rk -adap ted Ylva C
i l l u m i n a t e d w i t h 680 nm l i g h t a t 3 . 2 Hz f l a s k - --
f r e q u e n c y is d i f f e r e n t from t h a t i n F i g . 4 . 7 f o r
w h i t e l i g h t i l l u m i n a t i o n . The a b s e n c e o f O 2 on
t h e second f l a s h ' ( i n d i c a t e d by f ) i n d i c a t e s t h a t t h e
d u r a t i o n o f t h e nanosecond l a s e r f l a s h was s h o r t
enough t o minimize d o u b l e t u r n - o v e r s o f t h e OECs. i
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I ^
F i g . 4 . 9 Oxygen exchange f l a s h y i e l d sequences for ylva
i l luminated a t different wavelengths
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" d e p i c t e d i n F i g . .4.10. T h i s f i g u r e s u g g e s t s t h a t some o f t h e
mechanisms o f u p t a k e and e v o l u t i o n may be q u i t e d i f f e r e n t
- between t h e d i v i s i o n s . The d i f f e r e n c e i n . t h a l l u s t h i c k n e s s o f ,
t h e d i f f e r e n t a l g a l geneora s h o u l d be c o n s i d e r e d , a s well a s
t h e l o c a t i o n o f c h l o r o p l a s t s w i t h i n t h e c e l l . - e
-- I n o r d e r t o b e g i n t o i n t e r p r e t t h e k i n e t i c s o f 0 -- -- -
2 '
exchange i n m a r i n e a l g a e , one g e n u s o f a l g a e , w, was -
s t u d i e d . The a n a l y s i s p r e s e n t e d i n Chap te r 5 . f o r t h e g reen *I
algae, y l v a , can be a d a p t e d t o a n a l y z e O2 exchange k i n e t i c s i
f o r t h e g e n e r a o f mar ine a l g a e d i s c u s s e d i n t h i s c h a p - t e r .
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F i g . 1 .10 Coapar l s o n of oxygen exchange f l a s h yiel&quences
far the different qencra of algae
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- - - - - - -
-
CHAPTER 5. RESULTS AND DISCUSSION
OXYGEN EXCHANGE MEASUREMENTS IN YJbVA
The bare Pt electrode system described in Chapter 3 re- *
cords the current due to O2 reduction at the cathode as a- - ---
f nction of time and is linear over a wide range of ambient Y 0 concentrations during steady-state measurements, Dynamic 2
measurements of O2 evolution and/or uptake in bi?lo@cal - - - -
systems can be made with the bare platinum electrode, however,
these measurements are limited by the response time of the
electrode system.
The bare Pt electrode has been used extensively for --- - -
research on O2 exchange i n marine algae under continuous -- - --- -- - = -- -
illumination (French et al., 1961; Fork, 1963; Vidaver and
French, 1965; Chakdler and Vidaver, 1970; Chandler and'
Vidaver, 1'971). However, little or no research has been done
using this electrode system for O2 exchange measurements
with short, saturating light flashes. In the past 15 years,
research has focussed on elucidating the molecular components,
and the mechanism of photosynthetic water-splitting and
concomitant O2 evolution. The Joliot electrode (Joliot and
Joliot, 1968) has heen used predominantly for Elasking l @ h t
studies since it minimizes the O2 uptake component.
However, both the mechanism of O2 evolution and the
sites of light-induced O2 uptake in photosynthesis are still
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- - - - - - - -
unknown. Much s p e c u i a t i o n h a s f o c u s s e d on t h e r o l e o f l i g h t -
induced O Z , c o n s u m p t i o n i n p h o t o s y n t h e s i s and i t s e f f e c t on O2
e v o l u t i o n , - - b u t no one h a s y e t been q b l e t o s e p a r a t e t h e O 2
e v o l u t i o n and u p t a k e components i n t h e k i n e t i c measur
I n o r d e r t o d e t e r m i n e t h e mechanism and k i n e t i c s o f 0
t i o n , i t seems r e a s o n a b l e t h a t t h e v a r i o u s . p r o c e s s e s
u p t a k e must be s e p a r a t e d from 0 e v o l u t i o n and n o t j u s t 2
' minimized o r n e g l e c t e d . I n f a c t , V i d a v e r , e t a l . (1984) have
s u g g e s t e d t h a t the ' "in yivo - f u n c t i o n i n g " o f t h e w a t e r - s p l i t - -
t i n g s y s t e m d e p e n d s on t h e p r e s e n c e o f p a r t l a l O 2 p r e s u r e s R ( < O . O l a a t m ) . Brudv ig ( 1 9 8 4 ) h a s shown t h a t t h y l a k o i d s w i t h a n
a c t i v e OEC take,up O2 a t t h e r a t e o f 1 -2 pmol 02/mg C h l / h .
Govind jee e t a l . (1985) proposed t h a t a n a c c e p t a b l e model o f Bb
0 e v o l u t i o n must i n c l u d e t h e g o s s i b i l i t y t h a t O E C s may be 2
- -L- -- - - - - - -- -- - - - --- - c a p a b l e of c o n v e r t i n g O& + H 2 0 , i . e . " r u n i n r e v e r s e " . This
s u g g e s t s t h e i n c o f p o r a t i o n o f a n O 2 u p t a k e component i n t h e . .
. S s t a t e model o f p h o t o s y n t h e t i c w a t e r - s p l j t t i n g . ,
I n t h i s r e s e a r c h , t h e b a r e P t e l e c t r o d e s y s t e m was used i n
o r d e r t o s t u d y b o t h O 2 e v o l u t i o n and O 2 u p t a k e , s i n c e b o t h
components are p r o v i d e d i n t h e O2 exchange measurements . The
magni tude o f t h e compet ing p r o c e s s e s d e t e r m i n e s whether t h e
n e t c u r r e n t r e s p o n s e w i l l be p o s i t i y e o r negative. Thus any
t r a n s i e n t O2 consumpt ion o c c u r r i n g i n t h e a l g a e i n r e s p o n s e
t o a l i g h t f l a s h w i l l 9e s b p i r i m p o s e d on a n O2 e v o l u t i o n ,
component a n d measured as 0 cxchange . -. a 2 -- t
S i n c e t h e b a r e P t e l e ~ t r o d e s y s t e m d e p i c t e d i n F i g . 3 . 1
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has no t been used p r e v i o u s l y topsTu~yy02 'exchange under
f l a s h i l l u m i n a t i o n , i t was e s z r . n t i a 1 t o de t e rmine t h e b e s t
method t o ana lyze O 2 exchange ( e v o l u t i o n and u p t a k e )
mea_su_rements, i n c l u d i n g d e t e r m h a t i o n o f system l i n e a r i t y , . how
t o i n t e r p r e t and c a l i b r a t e t h e O2 r e d u c t i o n c u r v e s , -
c a l i b r a t i o n of t h e e l e c t r o d e system, and a t t e m p t i n g t o - - - - -- -p - - - -
s e p a r a t e O2 uptake and e v o l u t i o n components from t h e
exchange measurements. A l a r g e p a r t o f t h i s t h e s i s r e s e a r c h '
focussed on s e t t i n g u p y t h e system, o p t i m i z i n g and c a l i b r a t i n g - - -
i t (Chapter 51, and d e t e r m i n a t i o n o f c o n t r o l r e s p o n s e s i n
d i f f e r e n t genera o f marine , a l g a e (Chapter 4 1 .
5 . 1 I n t e r p r e t a t i o n of oxygen exchange c u r v e s f o r Ylva
p r o c e s s e s l e a d i n g to t h e p r o d u c t i o n and consumption o f O2 i n -
t h e a l g a e a s wel l as t h e d i f f u s i o n of O2 o u t o f t h e a l g a l
t h a l l u s and r e d u c t i o n o f O 2 a t t h e P t e l e c t r o d e . Oxygen
produced by t h e a l g a e - - i n t h e sample h o l d e r c a n d i f f u s e through
t h e d i a ly s i s .membrane i n t o t h e environment i n t h e sample - h o l - -- - d e r and d i f f u s e toward t h e P t e l e c t r o d e where i t , i s reduced. '
\ -
The recorded O2 exchange c u r v e s w i l l r e f l e c t t h e r a t e - - - -- --
l i m i t i n g s t e p s which occur d u r i n g any o f t h e s e p r o c e s s e s . - Some o f t h e e a r l i e s t O2 f l a s h y i e l d - s t u d i e s by J o l i o t
and co-workers i n d i c a t e d t h a t t h e two p r i n c i p a l l i m i t i n g
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c h l o r o p l a s t s and O2 r e d u c t i o n a t t h e c a t h o d e are a f i r s t
o r d e r t h e r m a l r e a c t i o n which o c c u r s a f t e r t h e p r imary photo-
c h e m i s t r y , b u t p r i o r t o O2 e v o l u t i o n ( w i t h a r a t e c o n s t a n t
o f 800 s-' a t 20OC) and d i f f u s i o n o f O 2 from t h e a l g a e t o t h e - -
P t c a t h o d e ( J o l i o t e t a l . , 1 9 6 6 ) . T h i s r a t e - l i m i t i n g p r o c e s s - - -- --
p r i o r t o t h e p r o d u c t i o n o f O 2 i n t h e a l g a e ( i . & . t h e $ 3 +
( S 4 ) + So t r a n s i t i o n ) h a s been d e t e r m i n e d b y means o f
f l a s h - i n d u c e d UV a b s o r b a n c e s p e c t r o s c o p y (Dekker e t a l . ;
1984a) t o have a h a l f - t i m e o f 1300 ps, which i s comparable t o
2 t h e t ime c o n s t a n t o f 1.24 m s d e t e r m i n e by J o l i o t e t a l .
( 1 9 6 6 ) . Thus, 0 e v o l u t o n o c c u r s on t ime s c a l e which is - - *
2
much l o n g e r t h a n t h e d u r a t i o n o f a microsecond f l a s h , - a n d
w i t h i n a few m s a f t e r t h a o n s e t o f t h e f l a s h , no more O 2 i g
An e s t i m a t e o f t h e d d f s s i o n t ime o f O 2 from t h e a l g a e t o
t h e c a t h o d e may b e d e t e r m i n k d by c o n s i d e r i n g d i f f u s i o n a c r b s s
a u n i f o r m sample o f t h i c k n e s s d, where t h e t L m e c o n s t a n t is
2 2 g i v e p by T - 4d /x D (Rubinow, 1975; Crank, 1975). Thickness
o f t h e Uva s a m p l e s was d e t e r m i n e d t o be -10 pm by wei'ghing
s a m p l e s o f known a r e a on a Mettler HZ0 b a l a n c e , and assuming
t h a t a l g a e h a s t h e same d e n s i t y as w a t e r . E s t i m a t i n g t h e
t h i c k n e s s o f t h e e l e c t r o l y t e l a y e r n i s d i f f i c u l t , b u t f o r t h i s
a p p r o x i m a t e c a l c u l a t i o n , t h e e l e c t r o l y t e l a y e r is a s s u K d - t o
be less t h a n t h e t h i c k n e s s o f t h e a l g a e , i . e . -5 pm. The
d i f f u s i o n c o n s t a n t D f o r O2 i n b i o l o g i c a l m a t e r i a l s is
--
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water D 2 1.8 x m 2 / s (Boynton and ~ r a t t a i n , 1929) . Using
a n average va lue o f D t o i nc lude d i f f u s i o n th rough bo th t h e - -
a l g a e and e l e c t r o l y t e , t h e d i f f u s i o n time is c a l c u l a t e d t o be
7 - 30 m s . Th is d i f f u s i o n t ime i s m a n i f e s t e d ' i n t h e r i s e t ime b
of t h e O 2 c u r r e n t p u l s e f o r eech f l a s h . - -- - - - --
The O 2 p u l s e f o r each f l a s h i n d i c a t q s t h e r a t e a t which 6
O 2 is reduced a t t h e P t ca thode from t h e o n s e t o f a f l a s h t o
t h e beginning o f t h e nex t f l a s h . P roduc t ion o f O 2 by t h e
a l g a e i n c r e a s e s t h e r a t e o f O2 r e d u c t i o n a t t h e ca thode ,
whi le uptake of O 2 by t h e a l g a e removes O 2 from t h e sys - 'i -
tem, w h i c h r e s u l t s i n a d e c r e a s e i n t h e r a t e o f O2 ! r e d u c t i o n
a t t h e P t e l e c t r o d e . This c a t h o d i c O 2 r e a c t i o n depends on
t h e ambient O2 c o n c e n t r a t i o n i n t h e sample h o l d e r ( d i s c u s s e d
i n Sec . 5.3); A-seFies o f thr-ee s h o r t ( 4 p s ) l i g h t f l a s h e s -
g iven t o an a l g a l t h a l l u s produces t h e c h a r a c t e r i s t i c response
o f t h e system, w i th O 2 produced 6 n t h e t h i r d f l a s h , a s shown
i n F i g . 5 . 1 . The O2 c u r r e n t p u l s e w i l l decay back t o t h e
o r i g i n a l b a s e l i n e , i f no s u c c e s s i v e f l a s h is g i v e n . The 4
i n t e g r a t e d cu rve is a measure of t h e O 2 produced by t h e
a l g a e due t o one_complete c y c l e o f t h e oxygen-evolving complex
(i.e. S s t a t e t r a n s i t i o n s from S1 + S2 + Sg + ( S 4 ) + S O ) , w i t h
0, evolved on t h e Sj + ( S 4 ) + SO t r a n s i t i o n . CI
- - - - - - -
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f o r ' F i g . R e f e r e n c e
- -
c u r v e
The O 2 r e d u c t i o n c u r r e n t p u l s e d u e t o t h e t h i r d
4 p s l i g h t f l a s h a t 3 . 3 Hz f l a s h f r e q u e n c y ( t h e Ih
r e p r e s e n t s t h e c h a r a c t e r i s t i c r e f e r e n c e c u r v e 1
r e s p o n s e o f t h e e l e c t r o d e s y s t e m , The d e c a y o f ' t h e
p u l s e r e p r e s e n t s . t h e d e c a y o f t h e s y s t e m r e s p o n s e
t o O2 p r o d u c e d by y1va by t h e t h i r d f l a s h . The
i n t e g r a t e d c u r v e , g i v e s a m e a s u r e o f t h e ' n e t amount
o f O 2 e v o l v e d a s a r e s u l t o f - t h r e e l i g h t f l a s h e s .
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I
5 . 1 . 1 V a r i a t i o n o f f l a sh - f rTqCeTcyp-
F l a s h f r e q u e n c i e s , v a r y i n g from 1-3 .3 Hz f o r o p t i m a l
r e s p o n s e , have keen used by d i f f e r e n t r e s e a r c h g r o u p s (Kok e t
a l . , 1970; Forbush e t a l . , 1971; J o l i o t e t a l . , 1971; Diner , d
1 9 7 5 ) . A s e r i e s o f e x p e r i m e n t s was performed w i t h t o - - - - - - - - -
I
d e t e r m i n e t h e ' f l a s h f r e q u e n c y f o r optimum 0 exchange . 2 The
- r e s u l t o f v a r y i n g t h e f l a s h f r e q u e n c y f o r U l v a is shown i n
F i g . 5 . 2 . The same sample was used f o r each ' o f t h e f o u r f l a s h
f r e q u e n c i e s i n o r d e r t o minimize sample v a r i a b i l i t y . Between
e a c h s e r i e s o f f l a s h e s , t h ~ ? samples were da rk -adap ted f o r
10 min. A v a r i a t i o n i n f l a s h f r e q u e n c y s i g n i f i c a n t l y a l t e r e d
t h e O 2 e x c h a n g e . p a t t e r n . P a r t o f t h i s change is due t o t h e
d i f f e r e n t t o t a l l i g h t e n e r g y r e c e i d e d by t h e a l g a l t h a l l u s
d u r i n g t h e same t ime- - in te rva2 . T h e s m a l l s p i k e s on t+e c u r v e s p - --- - b
are due t o t h e r e s p o n s e o f t h e e l e c t r o d e t o t h e l i g h t p u l s e
and a r e c o n s t a n t i n s i z e i n a l l e x p e r i m e n t s u s i n g t h e same
f l a s h i n t e n s i t y .
The O 2 exchange c u r v e a t 1 . 6 5 Hz f l a s h f r e q u e n c y showed
no O2 p roduced o n t h e f'irst p u l s e , a small arnounf, on t h e
s e c o n d (which c a n be a t t r i b u t e d t o d o u b l e t u r n o v e r s o f t h e
OECs o n e i t h e r t h e f i r s t o r second f l a s l ~ ) , and t h e l a r g e s t
amount o f O2 o n t h e t h i r d p u l s e . A t 6 . 6 Hz. t h e i n d i v i d u a l a
- - - - -
0 2 - p u l s e s a r e a b s e n t , b u t a d i p i n t h e O2 exchange c u r v e is
o b s e r v e d a p p r o x i m a t e l y 1 . 3 s after t h e f i r s t p u l s e . The
i n i t i a l s l o p e o f t h e O2 c u r r e n t p u l s e r e s u l t i n g from O2
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F i g . 5 . 2 Oxygen exdhange curves for Ylva a t var ious f l a s h
frequencies
O2 exchange measurements i n a i r a s a funct ion o f - -
t i m e -for 10 min dark-adapted are g i v e n for
f l a s h frequencies o f . 1.65, 3.3, 6.6, and 13.2 Hz.
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- --- - -- -
exchange i n t h e a l g a e caused by t h e t h i r d s a t u r a t i n g f l a s h a t
a l l f l a s h f r e q u e n c i e s . i s approximate ly t h e same, t h i s ' i nd i -
c a t e s t h a t t h e r i s e o f t h e pul.se is p r o p o r t i o n a l t o thk amount -
of O2 produced by t h e a l g a e . The maximum s l o p e o f t h e r i s i n g #
O2 s i g n a l f o r each f l a s h is t h u s a measure o f t h e change i n
O 2 exchange by--the a l g a . P l o t t i n g t h e s l o p e s o f t h e - r i s i n g - - -
0 curve f o r each p u l s e as a f u n c t i o n o f f l a s h number w i l l 2
g i v e t h q n e t O2 y i e l d pe r f l a s h ( t h e f l a s h y i e l d s e q u e n c e ) .
A - A t 3 . 3 Hz, t h e i n d i v i d u a l p u l s e s i n t h e O 2 exchange -
0
p a t t e r n were d i s t i n c t , and t h e dark i n t e r v a l between f l a s -
was s h o r t enough t o minimize d e a c t i v a t i o h o f t h e S s t a t e s
This f l a s h f requency is compqrable t o t h a t used most o f t e
o t h e r r e s e a r c h e r s ( J o l i o t e t a l . , 1971; ~ e i s s ' e t a l . , 197
hes
Diner, 1975; Ze ina lov and L i t v i n , 1979; Schmid and . Thibaul t, -
19793. For t h e s e reasons,-3-3 Hz was used as ,_ thg con t ro l ; -
a 5 . 1 . 2 E x t r a p o l a t i o n o f decay c u r v e s
Oxygen exchange ( e v o l u t i o n and u p t a k e ) i n as a func-
t i o n o f f l a s h number a t ' 3 . 3 Hz f l a s h f r e q u e n ~ y is shown i n -
F i g . 5 . 3 . A t a 4 l a s h f requency o f 3 . 3 Hz, t h e r a t e o f O 2
r e d u c t i o n a t t h e ca thode does n o t -- s t a b i l i z e a f t e r each f l a s h - -
and t h e b a s e l i n e s t e a d i l y i n c r e a s e s due t o a "p i le -up" o f i n d i -
- v i d u a l O2 p u l s e s . T h i s o c c u r s because t h e r e l a x a t i o n time
of t h e system t o a s t e a d y - s t a t e vq lue is much l o n g e r t h a n t h e
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-
F i g . 5 . 3 6
Hz f l a s h Oxygen e x c h a n g e f o r i n a i r w i t h
f r e q u e n c y
O 2 e x c h a n g e f o r 5 min d a r k - a d a p t e d a- i n - seawater u n d e r a t m o s p h e r i c c o n d i r t i o n s d u r iny ,4 ps
s a t u r a t i n g l i g h t f l a s h e s a t 3 . 3 Hz ( 3 0 0 m s be tween
f l a s h e s ) . The l e t t e r s A , B, C, -and D a r e u s e d t o
c a l s u i a t e the f l a s h y i e l d s a s d i s c u s s e d i n . - t h e
l a b e l l e d t e x t . The b e g i n n i n g o f e a c h 4 p s f l a s h is
Q n t h e h o r i z o n t a l a x i s .
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time b e t w e e n f l a s h e s . The plfe:Kp o f U 2 ' p u l s e s a t t h e b a r e
P t e l e c t r o d e is d i f f i c u l t t o a v o i d d u r i n g O2 e x c h a n g e -
measuremen t s u s i n g l i g h t - f l a s h e s s i n c e t h e f l a s h f r e q u e n c y
mus t b e h i g h enough ( > I Hz) t o m i n i m i z e d e c a y o f t h e S a n d 2
S 3 s t a t e s d u r i n g t h e d a r k i n t e r v a l be tween f l a s h e s (Kok e t - -
a l , 1970; J o l i o t e t a l , 1 9 7 1 ) . To e l i m i n a t e t h e e f f e c t o f t h e - - - - - - - - -
p i l e - u p o f p u l s e s , e a c h O 2 p u l s e i s c o r r e c t e d f o r t h e O 2
e v o l v e d • ’ r o d t h e p r e v i o u s f l a s h . However, t h i s c o r r e c t i o n
d o e s n o t a c c o u n t t o r 0 e v o l v e d by t h e p l a n t which is 2 /
- 1 - consumed i n a PS I o r PS I 1 r e a c t i o n w i t h o u t ~ d i f f u s i n g t o t h e
P t cathode.
The l i n e a r - f o u r - s t e p f l a s h y i e l d s equenck o f 0 e v o l u - ' I 2
t i o n ( e x c h a n g e ) may b e d e d u c e d by p l o t t i n g t h e c h a n g e i n 0 2
c u r r e n t due t o e a c h l i g h t p u l s e . For example , i n F i g . 5 . 3 , - p o i n t - C - d e n o t e s t h e r a t e u f - 0 b e i n g r e d u c e d a t - t h e c a t h o d e -- --
@ 2 a t t h e b e g i n n i n g o f t h e f o u r t h f l a s h , w h e r e a s p o i n t D d e n o t e s
t h e maximum ra te o f 0 r e d u c t i o n a t t h e c a t h o d e f o r t h i s 2
f l a s h . The d i f f e r e n c e D - C = 0 . 4 9 pA is t h e c h a n g e i n O 2
c u r r e n t d u e t o O2 ' exchange o n t h e f o u r t h f l a s h . However, i t
is p r e f e r a b l e t o e x t r a p o l a t e t h e ac tua l maximum r a t e o f l .
2 a r e d u c t i o n a t t h e c a t h o d e f o r a g i v e n f l a s h b y c o r r e c t i n g f o r
0 . the d e c a y o f t h e O2 s i g n a l d u e t o t h e p r e c e d i n g f l a s h . For
e x a m p l e , i n F i g . 5 .3 , t h e d e c a y of t h e O2 s i g n a l a f t e r t h e
t h i r d f l a s h is a p p r o x i m a t e d by t h e line CE, where p o i n t E is
t h e e x t r a p o l a t e d v a l u e o f t h e r e s i d u a l O2 from t h e t h i r d
flash a t t h e time of t h e maximum O2 s igna l from t h e f o u r t h
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The d l f fere%%'r-E,which i s 0 . 6 9 pA . i n
F i g . 5 .3 , i s t h e O2 s i g n a l from t h e f o u r t h f l a s h a f t e r
a c c o u n t i n g f o r t h e r e s i d u a l O2 from t h e t h i r d f f l a s h . T h i s - -
d i f f e r e n c e was c a l c u l a t e d f o r e a c h f l a s h i n t h e s e q u e n c e and
p l o t t e d a s a f u n c t i o n o f f l a s h number. The expanded O2 ex-
change c u r v e o f F i g . 5 . 3 is shown i n F i g . 5 . 4 a , and t h e f l a s h - - -
y i e l d sequence f o r t h i s c u r v e i s shown i n F i g . 5 . 4 b . A c t u a l --7
decay c u r v e s were t a k e n f o r e a c h f l a s h i n t h e s e q u e n c e ( a s
shown i n F i g . 5 . 1 i o r t h e t h i r d f l a s h ) and i n a l l c a s e s , t h e
l i n e a r l y e x t r a p o l a t e d decay f o r a g i v e n p u l s e ( e . g . l i n e CE)
i s t h d 'same t o w i t h i n 0 . 5 % as t h e measured d e c a y t o t h e p o i n t
i n d i c a t i n g r e s i d u a l O2 f o r t h e f o l l o w i n g f l a s h (e.g'. p o i n t E l .
I f t h e s l o p e s o f t h e l i n e a r . p a r t o f e a c h r i s i n g O2 s i g n a l a r e
p l o t t e d a s a f u n c , t i o n o f f l a s h number a s d i s c u s s e d p r e v i o u s l y ,
a s i m i l a r f o u r s t e p - p a t t e r n a s shown i n Fig.- 7;4b i s obtained.----- I
I
]The i n t e g r a t e o i n d i i i d u a l O2 c u r r e n t p u l s e s p l o t t e d a s a
f u n c t i o n o f f l a s h number a l s o g i v e t h e same r e s u l t . These
, f l a s h y 4 e l d sequences . however, r e p r e s e n t O2 exchange o r n e t
0 e v o l u t i o n , r a t h e r t h a n a c t u a l O2 e v o l u t i o n . 2
To f a c i l i t a t e compar i son between o u r r e s u l t s a n d t h o s e o f
o t h e r r e s e a r c h e r s , a l l v a l u e s o f O2 p e r f l a s h were n o r m a l i z e d - - . - -
t o . t h e d i f f e r e n c e B - A = 0 . 9 0 pA f o r t h e t h i r d f l a s h i n
F i g . 5 . 3 . F l a s h y i e l d s e q u e n c e s o b t a i n e d w i t h i n t a c t a l g a e - - - - - - - --
have been found t o be n o t a b l y more damped t h a n t h o s e w i t h - c h l o r o p l a s t s ( L a v o r e l , 19781, however, as c a n b e s e e n i n
F i g . 5.5, t h e O 2 exchange d a t a f o r show good agreement - -
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-
t h e s e q u e n c e F i g . 5 . 4 Oxygen e x c h a n g e -
c u r v e a n d f - l ' asb . y i e l d
Hz f o r d a r k - a d a p t e d
The O 2 e x c h a n g e c u r v e o f F i g . 5 . 3 is
t o show the p i l e - u p of p u l s e s .
damped '
t h e t h i r d ,
The n e t O 2 y i e l d p e r f l a s h s h o w s
o s c i l l a t o r y p a k t e r n w i t h maxima a t
e i g h t h , t w e l f t h , e tc . f l a s h e s . T h i s t y p e - of
f l a s h y i e l d s e q u e n c e is t h e b a s i s f o r t h e f o u r - - -
(Kok e t a l . , - -- -
O 2 e v o l u t i o n - - - -
s t e p model
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FLASH NO. .
.(
4-
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y i e l d s e q u e n c e s f o r - - -
F i g . 5 . 5 Comparison o f oxygen
d a r k - a d a p t e d s a m p l e s
f l a s h
under a t m o s p h e r i c c o n d i t i o n s
a r e s u l t o f s a t u r a t i n g l i g h t f l a s h e s : - - -
Our data from ~ i g . 5 . 3 f o r Ulva a. u s i n g 4 JJS
( el. 0
f l a s h e s a t 3 3 Hz
- -
Data o f J o l i o t e t a 1 . ( 1971 1 f o r c h l o r - p l a s t s
320 m s a p a r t ( 8. - .8). u s i n g 2 ps p u l s e s
Data o f Forbush e t a l . ( 1 9 7 1 ) f o r i s o l a t e d
sp inach ' c h l o r o p l a s t s w i t h 1 s between f l a s h e s
-
C h l o r e l l a - c e l l s u s i n g - -
4 JJS p u l s e s 3 2 0 m s a p a r t
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l l l b
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f o r c h l o r o p l a s t s , b u t a r e lower i n c o m p a r i s i o n t o t h a t of
Diner ( 1975 f o r C h l o r e l b , a U n . i c e l l u p - F - - x e e n a l g a e . The n\- k
f l a s h y i e l d s e q u e n c e o f Forbush e t a l . ( 1 9 7 1 ) f o r s p i n a c h
c h l o r o p l a s t s was o b t a i n e d by u s i n g a f l a s h f r e q u e n c y o f 1 Hz,
w h i l e t h e o t h e r s used 3 . 1 Hz. - - - -- - - - - - - -
A s i m i l a r , damped f o u r - s t e p o s c i l l a t i o n was o b s e r t e d by
Dekker e t a l . ( 1 9 8 4 b ) by measur ing UY f l a s h - i n d u c e d a b s o r b a n c e
c h a n g e s i n d a r k - a d a p t e d PS I1 membranes. T h i s o s c i l l a t i o n h a s c
-
been a t t r i b u t e d t o t h e r e d u c t i o n o f Mn(1V) i o n s i n t h e
oxygen-evo lv ing complex (OEC) t o H n ( 1 I I M u r i n g t h e 1 m s
S 3 + ( S 4 ) + SO t r a n s i t i o n . The o s c i l l a t i o n i n a b s o r b a n c e
c h a n g e s i n Mn is i n d e p e n d e n t o f e l e s t r o d e / 0 2 measurements
and t h u s may r e f l e c t t h e a c t u a l O 2 e v o l u t i o n p a t t e r n (Dekker
e t a 1 . , 1 9 8 4 b ) . However, t h i s method s t i l l d o e s n o t s e p a r a t e - . -- . %
t h e p r o c e s s e s o f O 2 u i t a k e and O 2 e v o l u t i o n . Beck e t a l .
( 1 9 8 4 ) r e p o r t e d t h a t t h e OEC t a k e s up O 2 and t h i s - m a y have
some b e a r c n g on t h e Mn o x i d a t i o n s t a t e s . T h i s a b s o r b a n c e
change sequence g i v e s a f i t t o t h e Kok model w i t h i n i t i a l
d i s t r i b u t i o n o f So = 25%. S1 = 75%. and w i t h 9% misses and
9% d o u b l e h i t s on a l l t r a n s i t i o n s (Dekker e t a l . , 1984b) .
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I f th-e b a r e platin-um e l e c t r o d e i s assul.aqed t g . b e ~ ~ a l i n e a r " - . I \ . % ". system, t hen t h e t o t a l o u t p u t f u n c t i p n due t o . a seriis o f . . ,
1 I
* A ,' * -.\ + . e x c i t a t i o c s i=s s imply t h e .sum o f ' a i l i n d i v i d u a l * . 0 2 - " c d r ; ~ n t :. .
- - - e- - - -
r ea sonab le a s b u i p t i o n s i n c e t h e O2 d i f f u s i o n t i m e .fromo .thq A.
, . i I [ ' ; b
p l a n t t o t h e e l e c t r o d e is s h o r t compared t o t h e decay t i m e o f l L
t h e O2 reduc t6on c u r r e n t (-50 m s compared t o 1.,512.0 s ) , and - . - . ' - . . -
t h e o2 r e d u c t i o n r a t e a t t h e c a t h o d e is most l i k e - l y l i n e a r f y . p r o p o r t i o n a l t o 0, concenpra t ion . Therefore , i t - shpuld be
b * d '
* . ' . p o s s i b l e t o d e s c r i b e t h e waveform .of t h e e ,n t i re - f l a s h sequenc&<
a s a s u p e r p o s i t i o n o'f t h e O2 s i g n a l s from each f l a s h ' i n ~ t h e - * -
sequence. C
oxygen c u r r e n t p u l s e for. t h e r e f e r e n c e ch rve ( a s shbwn i d - . . F i g . 5 . 1 ) . were t ime-axis s h i f t e d ahd added together o g i v e .. - .
I ', t h e b e s t f i t t o exper i q e n t a l ' oxygen exchange 'measurements. . - - - . -* The c h a r a c t e r i s t i c e l e c t r o d e 7re;ponse '( tQe c e f e r e n o e c m v e ,
*\ d - 4 ,
I /
shown i n F i g . 5.1) $as de-termined b; g i v i n g F h r e e 5 q ~ s ' - r?i
s. 0 d . J
- s a t u r a t i n g f l a s h e s t o s a m p l e s ~ o f dark-adapted Ulva. .No 0, , '
1.
was prMuced Qn t h e f i r s t and second f l a s h e s by t h e dark- , * I *
adapted uq. The O2 s i g n a l due t -w- the . t h i r d s h o r t , s a t u - '
*- -
r a t i n g f l a s h was r eco rded u n t i b t h e s i g n a l had decayed b z k t t o . ' \
t h e . o r i g i n a l b a s e l i n e .as s e e n i n F ig . ' 5 . 1 .' P u l s e s p having ' the -
. same shape & s t h i s reTerence curve , b u t s h i f t e d along t h e t i m e r
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7
a x i s by t h e t ime between F ~ a - ~ h h e s ; - ~ k f e r ~ ~ t o g e t ~ ~ b - - t g i n tbe b e s t f i t t o t h e e x p e r i m e n t a l 0 exchange s e q u e n c e .
2
A compar i son o f t h e e x p e r i m e n t a l O 2 exchange sequence , t h i
-bes t - compcter f i t , and t h e r e f e r e n c e c u r v e are shown i n v
r F i g . 5 . 6 . .
- The c o n t r o l O 2 exchange c u r v e i n F i g . 5 .6 shows t h a t -. - - - - - - - -- --
s i m i l a r amounts o f 02, a r e produced on b o t h ' t h e
f o u r t h f l a s h e s . T h i s c o n t r o l c u r v e is d i f f e r e n t fkom t h e e, - -
I - c o n t r o l c u r v e shown i n F i g . 5 . 3 , which shows a l a r g e r amount - - -
o f 0; produced o n t h e t h i r d f l a s h t h a n o n t h e - f o u r t h f l a s h
( ~ i g ' . 5 . 3 ) . T h e s e d i f f e r e n t c o n t r o l cur-ves may be due t o ,
s e a s o n a l v a r i a t i o n s w i t h i n t h e same s p e c i e s ; ok t o two d i f -
f e r e n t s p e c i e s o f u. The c o n t r o l c u r v e i n F i g . 5 . 6 may .. i n d i c a t e a h i g h number o f misses f o r t h e S3 + S4 t r a n s i t i o n i n
J J l v b which r e s u l t s -in a ;dec rease i n t h e O 2 y-ield -for-- t h e - -
t h i r d f l a s h ( Y g ) and a n i n c r e a s e i n 0 y i e l d f o r ;he f o u r t h . ' 2
f l a s h (Y< 1 . - -
: c
The computer f i t u s e s t h e Simplex a l g o r i t h m , ' thus i t is
d i f f i c u l t t o u s e s t a t i s t i c a l t h e o r i e s t o compute t h e e r r o r -- (C-aceci and C a c h e r i s , 1984). For t h i s r e a s o n , t h e s u m . ~ • ’
s q u a r e s o f t h e v e r t i c a l d i s t a n c e s ( i n number o f p o i n t s ) f o r
one h o r i z o n t a l p o i n t i n ten was used t o d e t e r m i n e maximum *
b
e r r o r ( d i s c u s s e d i n S e c . 3 . 4 ) . A s c a n be s e e n from Table 5.1, -
t h e l a r g e s t e r r o r f o r f i t t i n g a n y o f t h e . p u l s e s was 7 .25% f o r
t h e f i f t h p u l s e . Most e r r o r v a l u e s were i n t h e r a n g e o f 3-5%.
The computer f i t d e t e r m i n e s t h e maximum r a t e o f oxygen
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Oxygen exchange curve Fig.. 5 . 6 f o r and f i t
O2 exchange i n Vlva (upper t r a c e ' i s ing a
- -- - - - -
bare P t e l e c t r o d e is shown t o be sum o f m u l t i p l e s
o f t h e r e f e r e n c e x r v e ( l o w e r ' t race 1 . The n f i t t e d c u r v e is g i v e n by t h e dashed l i n e (----- ) .
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---
T a b l e ' 5 . 1 R e l a t i v e A m p l i t r x d e , P o s i t I o K and Maximum E r r o r f o r '
e a c h F l a s h Determined by Computer F i t t i n g o f t h e
- E x p e r i m e n t a l Oxygen Exchange Curve 0
P
/
The r e l a t i v e a m p l i t u d e w i t h r e s p e c t t o t h e r e f e r e n c e p u l s e and
t h e maximum e r r o r is g i v e n f o r e a c h O2 p u l s e i n t h e f l a s h - - - - - -- *
= s e q u e n c e . N e t O2 produced per p u l s e c a n be o b t a i n e d by
mui t ipl ing t h e amount o f - 0 2 produced d u r i n g t h e r e f e r e n c e
r e s p o n s e by t h e r e l a t i v e a m p l i t u d e o f e a c h p u l s e .
FLASH NO. ELAPSED RELATIVE ERROR TIME ( s l AMPLITUDE ( % I
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r e d u c t i o n a t t h e c a t h o d e f o r eack fzash; - r & t a t z l v e h e r e f e r -
ence c u r v e , a n d i s a l s o shown i n T a b l e 5 . 1 . P l o % t i n g t h e r e l a -
j i v e a m p l i t u d e s ( T a b l e 5 . 1 ) as a f u n c t i o n o f f l a s h n u m e r
g i v e s t h e f i l a sh y i e l d s e q u e n c e f o r t h e c o m p u t e r - g e n e r a t e d oxy-
g e n e x c h a n g e c u r v e . F i g u r e 5 . 7 compares t h e a m p l i t u d e s o f t h e
compu te r -gene ra t - ed c u r v e t o t h e f l a s h y i e l d s e q u e n c e o b t a i n e d
by p i o t t i n g t h e change ' i n t 0 r e d u c t i o n r a t e f o r e a c h ow f l a s h a n d e x t r a p o l a t i n g ( i . e . t o p o i n t E i n F i g . 5 . 3 f o r t h e
f o u r t h f l a s h ) t o a c c o u n t f o r r e s i d u a l O 2 f rom t h e p r e v i o u s
f l a s h as d i s c u s s e d i n S e c . 5 . 1 . 1 .
The c o m p u t e r - g e n e r a t e d f l a s h y i e l d s e q u e n c e ( F i g . 5 . 7 )
shows e s s e n t i a l l y no d i f f e r e n c e , w i t h i n t h e f i t t i n g e r r o r , i n
t h e amount o f o x y g e n p r o d u c e d d u r m t h e t h i r d a n d f o u r t h
f l a s h e s . The r a t i o o f O2 y i e l d s f o r t h e t h i r d a n d f o u r t h i
'&
f l a s h e s CY3 a n d Y 4 , s p e c t i v e 1 y ) J g i v e s a v a l u e - o f - - - - -
Y 3 / Y 4 = 0 . 9 9 2 0 . E x t r a p o l a t i n g t h e d e c a y o f t h e O2 c u r r e n t r -
p u l s e t o a c c o u n t f o r r e s i d u a l O2*shows. o n l y s l i g h t l y more 0 2
p r o d u c e d o n t h e t h i r d p u l s e t h a n o n t h e f o u r t h p u l s e , w i t h
Y 3 / Y h = 1 . 0 5 3 . The v a r i a t i o n b e t w e e n t h e v a l u e s o f Y 3 / Y 4 f o r
b o t h me thods o f d e t e r m i n i n g the O2 y i e l d is w i t h i n e x p e r i m e n -
t a l e r r o r . Thus Y3/Y4 i s -1 f o r t h i s c o n t r o l O 2 e x c h a n g e
c u r v e . -- The f i r s t two o s c i l l a t i o n s i n y i e l d . , , are s imilar f o r b o t h
I S
' f l a s h y i e l d s e q u e n c e s i n F i g . 5 However, t h e t h T r d o s t i l l a -
t i o n i n y i e l d f o r t h e c o m p u t e r - f i t t e d c u r v e is r n u ~ h ~ l a r g e r - -
t h a n was p r e v i o u s l y o b t a i n e d by e x t r a p o l a t i n g t h e d e c a y o f t h q
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F i g . 5 . 7 Oxygen eqchange and e v o l u t i o n f l a s h y i e l d sequences
Using the two methods of determining the n e t O2
yield, the O2 yield as a function of flash number
is p l o t t e d for the O2 exchange curve -6f Fig. 5 . 6 :
o------a extrapolating the decay of the p r e v i o u s
pulse 31 the intersection sf a vertical
--line w i t h t h e maximum reduction rate fo r
- +----- r the computer - fit
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t h e f i t t i n g a t t h e minima and maxima o f t h e O 2 exchange cu rve
a f t e r t h e t w e l f t h f l a s h ( t > 3 .2 s ) a s c a n be s e e n i n F i g . 5 . 6
o r may i n d i c a t e t h a t t h e O2 y i e l d f o r Ylva may n o t be damped
t o a . s t e a d y - s t a t e va lue a s q u i c k l y a s was de te rmined p r e v i o u s l y .
The n e t amount of O2 evolved pe r f l a s h can be c a l c u l a t e d - - - - - -- -
from t h e r e l a t i v e ampl i tudes determined dur-ing t h e computer
f i t t i n g if t h e amount o f O2 produced by t e t h i r d f l a s h can be 9 L
c a l c u l a t e d . The O2 y i e l d due t o t h e t h i r d f l a s h ( t h e r e f e r - --
ence c u r v e ) was i n t e g r a t e d t o g i v e t h e n e t cha rge produced by - -
O 2 r e d u c t i o n a t t h e ca thode . This c a l c u l a t i o n does n o t i_--
accoun t f o r a f l ash- induced O2 uptake which h a s been shown t o
occur (Weiss and Sauer , 1970; Schmid and T h i b a u l t , 1979;
J u r s i n i c , 19'80; Swenson e t a 1 . , ' 1 9 8 6 ) , b u t w i l l o n l y e n a b l e
d e t e r m i n a t i p n of @.02 produced p,er f l a s h . I n t e g r a t i o n o • ’
t h e r e f e r e n c e c u r v e ( F i g . 5 , - i ) g i v e s a n e t cha rge o f
4 .15 x Coulombs.
Using 4 a s t h e number of e l e c t r o n s which r e s u l t from t h e - -
r e d u c t i o n o f O2 a t t h e ca thode ( a s d i s c u s s e d i n Sec. 3.2-.2),
t h e amount o f O2 produced by d u r i n g t h e r e f e r e n c e re
sponse ( t h e t h i r d f l a s h ) , is then , c a l c u l a t e d t o be 1 .1 x 10 -12
moles. The n e t amount o f O2 produced p e r f l a s h c a n t h ~ n be -
dete rmined by m u l t i p l y i n g t h h va lue by t h e r e l a t i v e ampli - -- - - -
t u d e s g i v e n i n Table 5 .1 . Th i s method of q u a n t i f y i n g t h e O2
r e d u c t i o n d u r i n g a series o f s h o r t s a t u r a t i n g f l a s h e s t a k e s
i n t o accoun t t h e p i l e - u p of p u l s e s which occu r d u r i n g O 2
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. exchange measurements u&sLng a b a r e P t e l e c t r o d e . '. T h i s i n f o r m a t i o n c a n a l s o be used t o d e t e r m i n e ' t h e p h c t o -
s y n t h e t i c u n i t - (PSU) s i z e f o r u. The c h l o r o p h y l l c o n t e n t 7
o f t h e sample was d e t e r m i n e d t o be 4 . 2 pg c h l , o r 2 . 8 x 10 15
c h l o r o p h y l l m o l e c u l e s ( 5 x loe9 . m o l e ) . From able 5 . 1 , t h e
r e l a t i v e a m p l i t u d e s f o r O 2 produked on t h e f i r s t f o u r
- - - - - - -
f l a s h e s a r e 0.0031660, 0.0062441, 0 .98370, and (3.99156. Mul-
t i p l y i n g t h e s e a m p l i t u d e s by t h e amount o f O 2 produced d u r -
i n g t h e r e f e r e n c e r e s p o n s e (1 .1 x 10-'2 moles ) g i v e s t h e
-
number o f moles ( m o I e c u l e s ) -of O 2 produced by a comple te
c y c l e o f t h e OEC (which inc ludesaOECs i n b o t h t h e SO o r S1
s t a t e s p r i o r t o t h e s e r i e s o f l i g h t f l a s h e s ) . Adding t h e .
amounts o f O 2 produced d u r i n g t h e f i r s t f o u r l i g h t f l a s h e s
-12 g i v e s a v a l u e o f 2 . 2 x 1 0 mole, o r 1 . 3 H m o l e c u l e s .
Thus. 2.8 x 1 0 1 5 c h l o r - o p h y l l m o l e c u l e s c o o p e r s t e t'o produce-- - a-p----p
( 1 . 3 x lo1' 0 m o l e c u l e s . T h i s is e q u i v a l e n t t o a PSU s i z e 2 1
o f 2290 2 150 c h l o r o p h y l l ' m o l e c u l e s , c l o s e t o t h e v a l u e o f a
2360 t 160 c h l / 0 2 c a l c u l a t e d f o r Ulv* by Mishkind
and Mauzera l l ( 1 9 7 7 ) . i
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5 . 2 S e p a r a t i o n o f Oxygen Uptake and E v o l u t i o n Components
5 . 2 . 1 F l a s h I l l u m i n a t i o n
.. The magni tude o f t h e u p t a k e component o f O 2 exchange was
d e t e r m i n e d by i n h i b i t i n g - p h o t o s y n t h e t i c wa te r - sp l i t t - ing+by - - - - ---
- DCHU, which p r e v e n t s t h e o x i d a t i o n o f PA ( t h e f i r s t s t a b l e
e l e c t r o n a c c e p t o r i n -PS 11) by e l e c t r o n transpo* A d d i t i o n
o f DCMU produced a l a g e Q2 u p t a k e a s shown i n Fig. 5 . 8 f o r - -
v a r y i n g f l a s h f r e q u e n c i e s . The O 2 u p t a k e o c c u r s e i t h e r d u r i n g
t h e ps f l a s h o r i n t h e s u b s g q u e n t d a r k i n t e r v a l and was l a r g e r
f o r h i g h e r f l a s b f r e q u e n c i e s . As s e e n i n F i g . 5 . 8 , a f l a s h
f r e q u e n c y o f 6 . 6 Hz r e s u l t e d i n a ' s h i f t i n t h e o n s e t o f O 2 R
I u p t a k e t o e a r l i e r times and a l s o produced a l a r g e r u p t a k e t h a n -- - - - - - - - -- - - - - - - -
-- g - - - - - - - - - - -- - - - - - -
a t lower f l a s h f r e q u e n c i e s . The u p t a k e a t 3 . 3 and 6 . 6 Hz
r e a c h e d i t s maximum ra te i n less t h a n 2 s a f t e r t h e f i r s t --
f l a s h , which c o i n c i d e s w i t h t h e p o s i t i o n s o f t h e f i f t h \ s i x t h f l a s h e s a t 3 . 3 Hz, and- t h e n i n t h and t e n t h f l a s h e s a t 1 6 . 6 Hz. S i n c e t h e a m p l i t u d e o i t h e u p t a k e is a p p r o x i m a t e 1 d i n v e r s e l y ~ p r o p o r t i o n a l t o f l a s h f r e q u e n c y , and t h u s p r o p o r -
t i o n a l t o t h e t o t a l l i g h t i n t e n s i t y , t h i s u p t a k e may r e f l e c t
t h e o x i d a t i o n i n t h e l i g h t o f a l i m i t e d p o o l o f r e d u c t a n t s ,
most 1 i-kely p l a s t o q u - i n o l s and o t h e r i a t e r s y s t e m c a r r i e r s , JXF
PS I .
Ant imycin A was - added t o s e a w a t e r - w i t h s a m p l e s o f ylu& t o
i n h i b i t t h e m i t o c h o n d r i a 1 r e s p i r a t o r y c h a i n and d e t e r m i n e i f
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Ulva w i t h Fig. 5.8 Oxygen u p t a k e
v a r y i n g f l a s h
i n a i r for DCMU-treated
f r e q u e n c i e s
<+\--
- The DCMU-mediated y l v a a p p e a r s
t o t a l 1 i g h t i n t e n s i t y s i n c e
h i g h e r f l a s h f r e q u e n c i e s .
t h e
i s l a r g e r a t
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- -- t h i s up tak& c o u l d be d u e - t o r e s p i r a t i o n . A d d i t i o n o f A n t i -
niycin A a l s o i n h i b i t e d O 2 e v o l u t i o n . and t h u s i t is n o t - -
p o s s i b l e t o e l i m i n a t e m i t o c h r o n d i a l r e s p i r a t i o n . However, any
- v a r i a t i o n i n mit6chondrial'+respiration i s much l o n g e r t h a n 5 s
( J a c k s o n and ~ G l k , - 1970 1' 2nd t h i s s u g g e s t s t h a t t h e O2
u p t a k e ' is n o t ;due - - - :to r e s p i r a t i o n . , - - - - - - - - - - - - - - -- --
. I
' The r ; s u l t s o f t h e DCMU e x p e r i m e n t s ( F i g . 5 . 8 ) s u g g e s t
t h a t t h e f i r s t minimum i n t h e O2 f l a k h y i e l d i n Fig.. 5 . 4 i s
n o t ' o n l y - due . t o a four - s t ep ' 0 e v o l u t i o n . b u t c o n t a i n s a 2 -
- . p o s e d " 0 i u p t a k e component. - The l i g h t - d r i v e n O2
" 2. . u p t a k e w,hich is n o t i n h i b i t e d by DCMU h a s been a s s o c i a t e d w i t h - .
0 . - PS ., I e a c t i i r i t y S ' ( v i d a v e r pnd. French. .l965; S a t o h e t al., 1 9 7 6 ) .
, d . - 1 1
his -well-known 02% u p t a k e t r . a n s i e n t i s g e n e r a l l y masked by
a - ' 02* e v o l u t i o p hay. n o t be d e t e c t e d a t t h e P t e l e c t r o d e i f t h e i . . ' . . _ . . ,
. - -magn i tude-of t h e u p t a k e i s less t h a n t h a t o f . t h e O 2 e v o l v e d \
and is not : ,suaf f i c i e n t ,tb a . a 1 ter t h e s h a p e of t h e s i g n a l . ' I f 9
t h e o n l y e f f e c t . o p f . a n O 2 u p t a k e is t o r e d u c e t h e amountoof '
O2 d e t e c t e d a t ) t h e P t c a t h o d e . p l o t t i * n g t h e O 2 y i e l d a s a 8
f u n c t i o n o f - f l a s h number canribt d i s t i n g u i s h O2 exchange from ... - B .- a c t u a l O2 e v o l p t i o n by w a t e r - s p l i t t i n g . S i n c e a l i g h t :
. ' d e p e n d e n t O2 uptake* occ;r&, somC obE t h e f e a t u r e s o f t h e - - - -- --
c 7.
f l a s h y i e l d b e q u e n c e c o d l d be a s s o c i a t e d w i t h t h e O2 u p t a k e S ' *
as well a s some o f t h e r e a c t i o n c e n t e r s r e c e i v i n g misses o r
d q u b l e h i t s . Al though t h e . o c c u r r e p c e o f misses and d o u b l e
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124
-- - A -
p-pppp
b i t s i n t h e PS 11 OECs is well-known, t h e e x i s t e n c e o f a n O2
up take s h o u l d be i n c o r p o r a t e d i n t o t h e S s t a t e t h e o r y .
The O2 u p t a k e i n F i g . 5 . 8 is c l e a r l y a PS I pho to -
/ r e a c t i o n s i n c e O2 u p t a k e a s s o c i a t e d w i t h PS I1 would be
s u p p r e s s e d by DCMU. Oxygen u p t a k e d u r i n g f l a s h i l l u m i n a t i o n
h a s been s h o w n t o e x i s t i n t o b a c c o c h l o r o p l a s t s (Schmid and _l_
T h i b a u l t , 1959) a n d was g r e a t l y enhanced by t h e p r e s e n c e o f a n
exogenous e l e c t r o n a c c e p t o r s u c h as p-benzoquinone o r f e r r i - - -
c y a n i d e . S i n c e Schmid and T h i b a u l t ( 1 9 7 9 ) did n o t p r e s e n t a
q u a n t i t a t i v e estimate o f t h e magni tude o f t h e O 2 u p t a k e ,
t h e i r r e s u l t s are n o t d i r e c t l y comparab le t o t h e u p t a k e shown
in F i g . 5 . 8 .
Because o f t h e magni tude o f t h i s DCMU-mediated O 2 up-
t a k e , i t seems r e a s o n a b l e that a n a n a l y s i s o f t h e O2 ex- - -- - - - - - - - - - - - - - - - - -
change c u r v e i n terms o f t h e S s t a - t e h y p o t h e s i s c a n n o t be
concerned s o l e l y w i t h O2 e v o l u t i o n , b u t must c o n s i d e r O 2 -
u p t a k e a s - w e l l . Oxygen consumpt ion h a s b e e n shown t o o c c u r i n ,
b o t h PS I and PS I1 ( V i d a v e r and French, 1965; Beck e t a l . ,
19851, a n d - t h u s i t is u n l i k e l y t h a t t h e O2 u p t a k e w i l l be
e x a c t l y t h e same w i t h PS I1 a c t i v e p r i n h i b i t e d . As well,
f l a s h y i e l d s e q u e n c e s o b t a i n e d w i t h PS I1 membranes c o n t a i n i n g k -
exogenous e l e c t r o n a c c e p t o r s may n o t be e q u i v a l e n t t o . 0 2
e v o l u t i o n which o c c u r s when b a t h p h o t o s y s t e m s are -- f u n c t i o n a l . - - - --- - - --
' However, PS I O2 u p t a k e is most l i k e l y l a r g e r t h a n t h a t o f i
PS 11, t h u s a f i r s t a p p r o x i m a t i o n t o a c t u a l O2 e v o l u t i o n
would d e t e r m i n e t h e magni tude o f t h e O 2 u p t a k e and " c o r r e c t t t ,
% ,
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--
f o r t h L s e f f e c t by a a d i n g i t- t F t h e O 2 exchange c u r v e . The
c o r r e c t e d O2 e v o l u t i p n c u r v e i s shown i n F i g . 5 . 9 a t o g e t h e r
w i t h t h e O2 exchange c u r v e o f F i g . = 5 . 4 f o r compar i son . The
O2 e v o l u t i o n c u r v e c a n t h e n be p l o t t e d i n t e r m s o f t h e 0 2
y i e l d a s a. f u n c t i o n o f f l a s h number a s d e s c r i b e d f o r
F i g . 5 . 3 . F i g u r e 5 . 9 b compares t h e O 2 exchange f l a s h y i e l d - - -- -- -
s e q u e n c e ' o f F i g . 5 . 4 w i t h t h e c o r r e c t e d O2 d v o l u t i o n c u r v e .
The c o r r e c t e d 0b2 e v o l u t i o n f l a s h yie?d i s g r e a t e r t h a n t h a t
o f t h e measured O2 exchange, s u g g e s t i n g t h e a c t u a l r a t e s o f -
-
- 0 e v o l u t i o n may b e g r e a t e r t h a n measured 0 exchange 2 2
ra tes . The damping which is e v i d e n t i n t h e O 2 exchange Y
' f l a s h y i e l d s e q u e n c e s ( F i g s . 5 . 4 , 5 . 5 , and 5 . 9 ) is n e t p r e s e n t
i n t h e O 2 e v o l u t i o n • ’ l a s h y i e l d s e q u e n c e . Removal o f t h e
DCMU,-induced PS I O2 u p t a k e component from t h e measured 0 + L 2
P
exchange- r e s u l t s -i6 s u p p r e s s i o n o f t h e d a m p i n g ~ i n t h e 0 - - - - - - ---- . n
&
2
y i e l d w i t h o u t i n v o k i n g t h e m i s s and d o u b l e h i t parameters . , , ' 8 #
- - -
A f l a s h y i e l d s e q u e n c e w i t h d e e p s u s t a i n e d a s c i l l a t i o n s ,
" s i m i l a r t o t h o s e i n F i g . 5 , 4 b b u t lower t h a n t h e one i n
F i g . 5 . 9 b , was o b t a i n e d by Kok and Ve l thuys (19?6), who added
o x i d i z e d benzoquinone t o h c v s t i s ce l l s ( e y a n o b a c t e r i a ) t o
i n h i b i t r e s p i r a t o r y O 2 u p t a b T h e i r r e s u l t s c l e a r l y indi ' -
c a t e t h a t t h e f l a s h y i e l d sequence calk be a l t e r e d by a p r o c e s s
which i n h i b i t s O 2 u p t a k e . Thus i f t h e O 2 exchange c u r v e . - --
o f F i g . 5 .4 c o n t a i n s a s i g n i f i c a n t O2 u p t a k e component, t h e n
i n terms o f a n S s t a t e model, w i t h o r w i t h o u t misses aqd
. > 'do.uble h i t s , t h e c a l c u l a t e d i n i t i a l d i s t r i b u t i o n o f S s ta tes
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Fig . 5 . 9 Measured oxygen exchange i n y l v a compared to -
correc t ed oxygen e v o l u t i o n - - - - - -
a ) Comparison o f Measured 0 exchange i n a i r 2
I and correc t ed O2 e v o l u t i o n ( . . . . . I a s - pL
a f u n c t i o n o f f l a s h number f o r 10 min'dark-
adapted y l v a .
b ) Comparison o f measured O 2 exchange ( el \
and correc t ed O 2 e v o l u t i o n ( o . . . . . 0 1 f l a s h - y i e l d sequences -far the- above- c u r v e s . w
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5 7 9 1 1
FLASH NO.
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127
- - - -
w i l l be- d i f f e r e n t . f o r O2 e v o l u t i o n a n d O2 exchange ( evo lu -
t ion and uptake 1 . i
Using t h e Sxper imenta l O2 exchange cu rve and t h e +
c o r r e c t e d O2 e v o l u t i o n c u r v e o f F i g . 5.9a. t h e a r e a under . t h e cu rve t o t h e b a s e l i n e f o r each o f t h e f i r s t f ou r f l a s h e s
'L w i l l g i v e a measure of t h e i n i t i a l S s t a t e d i s t r i b c l t i o n - - -- --
( 0 1 (01 (6) ( 0 ) ( s o . , S 1 S 2 S 3 1 . Since O2 i s obse;ved on t h e
second p u l s e f o r f r e s h dark-ada'pted a l g a e , c o n s i s t e n t M h t h e 7 -C
f i n d i n g s of J u r s i n i c (19811, tE area under t h e c u r v e o f ' the L
second pu l se , t o t h e beg inn ing ' of t h e t h i r d pulse",^ i n t e r -
p r e t e d a s a measure o f :he number of S s t a t e s i n t h e d a r k 1
( i . e . sl ( O ) 1 which undergo a doab le h i " t on e i t h e r t h e f i r s t o r 9 -
b second f l a s h . No O2 was evolved on t h e f i r s t p u l s e ,
i n d i c a t i n g t h a t S2 ( 0 ) = 0 . The m i s s f a c t o r c a n be determined - - -- - - - - - - -
'k - - - - - -- -- - - -- --
by moni tor ing t h e Q2 y i e l d f o r t h e t h i r d f l a s h as a function -
I
of l i g h t i n t e n s i t y . Many r e s e a r c h e r s c o n s i d e r t h a t . t h e r e is d a n equa l p r o b a b i l i t y o f misses f o r each of t h e S s t a t e t r a n s i -
t i o n s ( T h i b a u l t , 1978; J u r s i n i c , 1981; Wydrzynski, 19821, b u t
D e l r i e u (1980, 1983, 1984) has shown t h a t t h e S e t + S3 t r a n s i - t
t i o n has t h e g r e a t e s t p r o b a b i l i t y of misses. C a l c u l a t i n g t h e -
a r e a under t h e c u r v e f o r bo th t h e t h i r d and f o u r t h p u l s e s , t o
t h e beg inn ing o f t h e f o u r t h and f i f t h p u l s e s r e s p e c t i v e l y , and
taking i n t o a c c o u n t t h e m i s s and double h i t factors, the- 0
. . 1
\
i n i t i a l S s t a t e d i s t r i b u t i o n f o r bo th measured O2 exch3ngeL d
and c o r r e c t e d O2 e v o l u t i o n was dete rmined t o be 34%So ( ' I and
( O ) f o r 0 exchange and W2S0 2 ( ' I and 6 2 W 1 ( ' I f o r
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corrected O2 evolution. There is considerable variation in, -
pub1 ished. initial S state distributions calculated for both
algae and chloroplasts. Our initial S state distribution for
y , J is most comparable to that of another green algae,
also under xenon flash illumination, where So ( 0 )
and Sl were found to be 33 % and 67 % resppctively - - -
1 f (Jursinic, 1981). For all of the above cases, S2 and S3 (0
7 were z+ero.
5.2.2 Continuous Illumination . s -
Many attempts have been made to interpret p h o tosynthet ie I&
' induction phenomena whicli are manifesat as changes in the O 2 - - - - - - - - - - - - - - - - - -- -
exchange rates in dark-adapted algae and 'higher plants upan*
illumination (~li6ks and Skou, 1938; Hi11 and Wittingham, -
1953; Brown and Good, 1955; Vidaver and French, 1965; Chandler
and Vidaver, 1970; Schmid and Tkibault, 1979). The induction -
transients are produced by the competing processes of evolb- -
tion and uptake. The lighr-induced O2 uptake transient dur-
ing continuous illumination has been well-documented as dis- k
' cussed. in' Sec. 2.5., and is shown in Fiy. 5.10 using DCHU to
inhibit PS I1 O2 evolution. The DCMU-induced O2 uptake ip i -
compared wifh the corresponding b2 exchange curve for a sample
cut from the same algal thallus.
Since the O2 exchange curve represents the sum of 0 7
2 \
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\ 10 Oxygen exchange and oxygen uptake in ylvq under
continuous illumination
-
a . The U2 erehang- for ULyp under continuous
Illuafnation t s composed df both evolution and
uptake , cumponetits. ','he magnitude of the PS f
O2 uptake in comparison to to ta l O2 P
exchange can be s e e n Zrom t h i s figure.
b . The DCWU-lndoced U 2 uptake i s shown for
,Arrcws indicate when t h e 2 iat was turned on ( 7 f
and o f f ( i f . The baseiine i s shown as o u t p u t from
t?a signal avcrsqer? This m y be arbitrarif y
s h i f t e d t~ zero
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- - - - - -- --
u p t a k e and O2 e v o l u t i o n , s u b t r a c t i n g t h e DCWU-mediated O2
u p t a k e (PS I ) f rom t h e measu red O2 e x c h a n g e s h o u l d y i e l d t h e
c o r r e c t e d O2 e v o l u t i o n c u r v e ( d i s c u s s e d f o r f l a s h i l l u m i n a t i o n
i n Sec. 5 . 2 . 1 ) . T h e c o r r e c t e d O2 e v o l u t i o n c u r v e i s shown i n
F i g . 5 . 1 1 , t o g e t h e r w i t h t h e O2 e x c h a n g e c u r v e a n d t h e i n v e r s e - of t h e u p t a k e c u r v e f rom F i g . 5.11. Variation i n the Q 2 e v o l - --
u t i o n c u r v e o c c u r r e d a t t h e p o i n t l a b e l l e d A i n F i g . 5.11; i n
some cases, a rap id i n c r e a s e i n O2 e v o l u t i o n a t t h e o n s e t o f
i i lurninat ian would taper o f f , decrease, and t h e n increase t o *
the s t e a d y - s t a t e v a l u e , i n other c a s e s , t h e r e was a s h a r p
decrease f o l l o w e d by a s t e a d y i n c r e a s e t o a s t e a d y - s t a t e v a l u e
of O2 e v o l u t i o n .
- The a p p r o x i m a t i o n of i ic tual O2 e v o l u t i o n is a f f e c t e d by . I
1 t h e same considerations t h a t a p p l y t o the a p p r o x i m a t i o n o f - - - - - - - - - -
O2 e v o l u t i o n by f l a s h i l l u m i n a t i o n . The O2 u p t a k e shown i n #
F i g . 5 . 1 0 is s o l e l y a PS I- r e a c t i o n , s i n c e PS XI is i n h i b i t e d ,
and i t is u n l i k e l y t h a t t h e c o r r e c t e d O2 evolution w i l l be
t h e same wi?h PS I1 a c t i v e o r i n h i b i t e d . I t is i n t e r e s t i n p to
s p e c u l a t e , t h o u g h , t h a t t h e "anomalys shown i n F i g . 5.il a t
P o i n t A r e p r e s e n t s the PS I1 u p t a k e by t h e OEC r e p o r t e d b y
Beck e t a l . (19851, which is n o t c o r r e c t e d f o r by s u b t r a c t i n g
t h e PS I O2 u p t a k e .
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Fig. 5.11 Oxygen exchange, uptake, and evolution for y l v q
under continuous illumination A
. r 0
An approximation to actual 0 2
can be obtained by correcting
curve to account for the PS I +
the O2 exchange . - -
0 uptake shown in 2
Fig. 5.10. The significance of point A is
discussed in the text.
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5 . 3 . V a r i a t i o n o f Oxygen c o n c e n t r a t i o n
< @3 -
5 . 3 . 1 E f f e c t o f Ambient Oxygen C o n c e n t r a t i o n o n
Oxygen Exchange . . . * , ' h
-
I n o r d e r t o d e t e r m i n e t h e e f f e c t o f a m b i e n t 0 - c o n c e n z - - - " -- 2
t r a t i o n o n O2 e x c h a n g e , t h e s a m p l e h o l d e r was f l u s h e d w i t h 4
d i f f e r e n t p a r t i a l p r e s s u r e s o f 02, w i t h t h e r ema in in -g p r e s s u r e
d u e t o N 2 ( d i s c u s s e d i n Sec. 3 . 3 . 4 ) . Carbon t l iox ide was added
t o t h e p u r e g a s e s i n o r d e r t o e n s u r e t h a t C02 c o n c e n t r a t i o n .
was n o t l i m i t i n g a n d t h a t a n y v a r i a t i o n s i n O2 e x c h a n g e were
d u e -to v a r i a t i o n s i n O 2 c o n c e n t r a t i o n , r a t h e r t h a n C02.
T h i s was d o n e u s i n g b o t h c o n t i n u o u s and f l a s h i l l u m i n a t i o n .
The O 2 e x c h a n g e c u r v e s f o r Ylva w i t h f l a s h i l l u m i n a t i o n - - - - - - - --L - - -
( 3 . 3 Hz1 are shown i n F i g , 5 . 1 2 . T h e c o n t r o l c u r v e i n
F i g . 5 . 1 2 , o b t a i n e d u n d e r ' a t m o s p h e r i c c o n d i t i o n s b o t h i n air
a n d a t 20 % 02, g a v e i d e n t i c a l O 2 e x c h a n g e c u r v e s . A
- v a r i a t i o n i n t h e . 0 2 c o n c e n t r a t i o n from 17% t o 24% .showed
l i t t l e d i f f e r e n c e i n t h e r e s u l t a n t O 2 e t c h a n g e c u r v e s f rom /
t h o s e ' i n a i r .
The O2 e x c h a n g e c u r v e a t 100% O2 ( 1 atm. O2 p r e s s u r e ) -
showed a similar p a t t e r n t o t h e c o n t r o l c u r v e a t 20% O 2
( 1 a t m . t o t a l p r e s s u r e ) , + u t ' with a decreased OZ e w h - - - --
t i o n . Oxygera p a r t i a l p r e s s u r e s o v e r 0 . 8 5 atm. gave s i m i l a r
r e s u l t s . A t h i g h O 2 p a r t i a l p r e s s u r e s . t h e minimum i n the u
O2 e x c h a n g e c u r v e a t t h e s e v e n t h f l a s h i s ' s t i l l p r e s e n t , -- - .
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F i g . 5.12 Oxygen exchange f l a s h y i e l d s i n a f u n c t i o n
o f ambient' oxygen c o n c e n t r a t i o n 9 .
- 0 exchange 2
is compared
A l l samples
- -- - -
i n 1 . 5 % and 100% O 2 a t 1 atmosphere
a i r ( 2 0 % 0 2 ) . with
were
0 exchange i n 2 - -
d a r k adapted f o r . 10
--
min and i l l u m i -
Hz. f l a s h e s ( 4 nated with xenon
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- - - - -- L
however s u c c e s s i v e minima a r e -noat a p p a r e n t . The s l o p e <of t h e ' ,
L
s i n i t i a l r i s e b o f each i n d i v i d u a l O2 pulse fo r each f 1 a s h . i ~ n o t . c
-
a s s t e e p a s w i t h 20% 02 , and t h e i n d i v i d u a l O2 c u r r e n t yu l - -
s e s a r e l e s s d i s t i n c t . This o b s e r v a t i o n may be due t o . a s a t u r a - '
Lion e f f e c t a t - t h e Pt ca thode , r e s u l t i n g i n ' a dec rease* i n t h e 1
A- 0 - r e d u c t i o n r a t e , T h i s cou ld a l s o be due t o a n Inc reased ' --- - - -
2 -
0 u p t a k e , , s i n c e a n i n c r e a s e i n ambient 0 p a r t i a l p r e s s u r e s 2 . 2
r e s u l t e d i n a n i n c r e a s e i n O 2 uptake, which. c o u l d be due t o
d i r e c t pho to reduc t ion of 02 . The 0 exchange c u r v e w i t h . 2 -
1 a t m . O 2 is most l i k e l y a f f e c t e d by bo th s a t u r a t i o n of t h e P t
e l e c t r o d e and an i n c r e a s e i O 2 uptake by t h e a l g a e . P Decreasing t h e amount o f O2 i n t h e sample c e l l t o 1 . 5 %
O 2 gave a d i f f e r e n t O 2 exchange cu rve t h a n d i d 20% O 2 a s
shown i n Fig. 5 . 1 2 . No O 2 was evolved on e i t h e r t h e f ' r s t t o r t h e second f l a s h , and l e s s O2 was d e t e c t e d on t h e t w r d .
f l a s h t han on t h e f o u r t h , i n c o n t r a s t t o t h e r e s u l t s o b t a i n e d
a t 205 o r 100% 0 2 . The r e s u l t s i n F ig . 5 . 1 2 i n d i c a t e t h a t
v a r i a t i o n s i n ambient O2 c o n c e n t r a t i o n a f f e c t t h e measured
r a t e of O2 exchange. P l o t t i n g t h e peak h e i g h t s as a func- -
t i o n o f f l a s h number does n o t y i e l d a fou r s t e p p a t t e r n of n e t ,
O 2 e v o l u t i o n as shown i n F i g . 5 .13 . A f t e r each f l a s h . t h e
rate o f O2 r e d u c t i o n a t t h e ca thode d e c r e a s e s a lmos t t o t h e
o r h g i n a l b a s e l i n e . The l a t e r f l a s h e s i n t h e sequence yLeld a
h i g h e r c a t h o d i c O2 r e a c t i o n ra te t h a n t h e t h i r d f l a s h , which I
is u s u a l l y l a r g e r a t h ighe r O2 c o n c e n t r a t i o n s .
The l a c k o f a fou r s t e p p a t t e r n o f O2 exchange under low
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F i g . f l a s h y i e l d s e q u e n c e s f o r ylva a t 5 . 1 3 oxygen exchange
1.5% O 2 and under a n a e r o b i c c o n d i t i o n s -
f l a s h y i e l d A c o m p a r i s o n o f t h e O 2 exchange
sequence between low a m b i e n t O 2 p a r t i a l p r e s s u r e
(1.5% O 2 a t 1 a t m ) (e- - - - 0 ) and under
u a n e r o b i c c o n d i t i o n s ( A A ) is shown. A t low
0 c o n c e n t r a t i o n s , t h e our s t e p p a t t e r n i s n o t 2
e v i d e n t .
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- - - - - - - - -
ambien t O2 c o n c e n t r a t i o n s ~ m a y b e due t o v a r i a t i o n s i n e i t h e r
t h e O2 e v o l u t i o n o r u p t a k e k i n e t i c s , o r Both. S e v e r a l - '
I
L-
e x p l a n a t i o n s have been p o s t u l a t e d . to e x p l a i n t h e a l t e r e d O2
exchange c u r v e s under a n a e r o b i c c o n d i t i o n s and t h e s e a r e a l s o
a p p l i c a b l e tb 02 exchange under low O2 p a r t i a l p r e s s u r e s .
~ h d s e e x p l a n a t r o n s w i l l be d i s c u s s e d i n t h e f o l l o w i n g s e c t i c n . - - -
5 . 3 . 2 E f f e c t o f ~ n a e r o b i o s ~ s ' o n
For many y e a r s , t h e r e h a s Seen c o n s i d e r a b l e d e b a t e on t h e w Z
e f f e c t s o f a n a e r o b i o s i s on p h o t o s y n t h e t i c w a t e r - s p l i t t i n g I n
t h e measured r a t e o f O 2 exchange (Rab inowi tch , 1 9 5 6 ) . The ' .
p e s e ' n c e o f e n v i r o n m e n t a l O 2 i s b e l i e v e d o t o be e s s e n t i a l L
- - - -- - - -- -
(Burk and Warburg, 1951; Warburg, 1952; Vidaver e t a l . , 1 9 8 4 ) '
o r n o t e s s e n t i a l ( F r a n c k , 1953; A l l e n and Franck , 1955) f o r
O2 e v o l u t i o n . I t , i s w i d e l y a c c e p t e d t h a t l a c k of O 2 i n h i b -
@, - i<s t h e OEC, b u t t h e sitss and e x t e n t o f t h e i n h i b i t i o n a r e y-
s t i l l n o t c e r t a i n .
P a r t ' o f t h e c o n t r o v e r s y a p p e a r s t o r e s u l t from t h e d i f f i -
c u l t y o f o b t , a i n i n g a c o m p l e t e l y a n a e r o b i c e n v i r o n m e n t . D i f f e r -
e n t t e c h n i q u e s * h a v e b e e n u s e d t o d e p l e t e t h e s y s t e m o f Oi;
some o f these t e c h n i q u e s may r e s u l t i n a n i r r e v e r s i b l e i n h i b i -
t i o n o f Oi which i s n o t d i r e c t l y d u e t o a n a e r o b i o s i s . Many
o f t h e e x p e r i m e n t s were most. l i k e l y n o t c a r r i e d o u t i n a n e r c - $ .
b i c e n v i r o n m e n t s , b u t r a t h e r under c o n d i t i o n s of low O 2 \ .
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partial pressures. ' The sensitivity of the system is of
paramount importance in order to detect minute quantities of
on the order of 10 -15F-10 -16 moles. O2'
Some of the earliest experiments on the effect of anaero- a
biosis on O2 exchange measurements showed that green algae
d ( C h l o u an& -1- which were iliuminated in an -- -
anaerobic environment still evolved small quantities of O2
(Franck et al., 1945). This inhibition of O2 evolution has *
been attributed to the slow metabolic production of poison(s1 1 t
(Franck et al., 1945). the requirement of O2 for water- I
splitting (Burk and Warburg, 1951; Warburg, 19521, or reduc-
tion of the plastoquinone (PQ) pool (Diner, 1975, 1977).:= I
" .
Diner (1974) has suggested that W o r e l b cells placed in
an anaerobic environment (argon containing.5 ppm 02) undergo - - - - - - - - - - - - --
an imiediate reduction of the p?aaotoquinone (PO) pool in zhe
dark. The redox is dependent on the oxida-
tion state of the PQ pool. Under decreasing O2 concentra-
tions, the PQ pool becomes more reduced [Diner and Mauzerall,
1973a). The increasing reduction of the PQ pool with decreas-
!.ng O2 concentration is due to a balance between the pool
reduction by an endogenous reductant and its oxidation by oi5
(Diner and Mauzerall, 1973a). 4
Under anaerobic conditions, the reduction of the PQ kool
leads to a transfer of the rate-limiting step for a* single ,
turn-over of the OEC to the acceptor side of PS 11. Diner
('1975) has suggested that the OEC exists ii the following '
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* --
r e d o x s t a t e i n r e s p o n s e t o t h e f i r s t l i g h t f l a s h :
--_ _ where t h e symbol s a r e d e f i n e d a s i n Sec. 2 . 1 . The OECs in r I'
2 - t h e dark a r e t h u s a l m o s t e x c l u s i v e l y i n t h e SIQAQB . s t a t e . *
F o l l p i n g one l i g h t f l a s h , t h e O E C s e x i s t i n t h e S ~ Q ~ - Q ~ ' -
s t a t e and c a n n o t undergo a n o t h e r p h o t o r e a c t i o n u n t i l Q is A
r e o x i d i z e d . The r e o x i d a t i o n o f QA r e q u i r e s two steps, t h e
t r a n s f e r o f two e l e c t r o n s f r o m * ~ 2 - B t o PQ, and the t r a n s f e r of
> - one e l e c f r o n from Q t o QB. I f t h e PQ pool is c o m p l e t e l y A
reduced , t h e t r a n s f e r from 2 - BB to PQ c a n n o t o c c u r u n t i l t h e 9
PO pool i s r e o x i d i z e d . Follo-<ing t h e second and t h i r d fleshes
t h e f o l l o w i n g t r a n s i t i o n s a re be'l i e v e d t o o c c d r ( D i n e r , 1975 1 : ?
0.5 m s ,
2- .
Under a n a e r o b i c k o n d i t i o n s , i f most OECs a r e i n the QAQB --
s t a t e , then t h e S2 ' Sg t r a n s i t i o n i s i n d e p e n d e n t o f t h e
redox s t a t e o f t h e PQ pool and - t h u s s h o u l d pe a c c e i e r a t e d ,
vhich was found t o be t h e case i n a (Diner, 1 9 7 5 ) .
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The lowered net O2 e v o l u t i o n i n U l v a a t low O2 p a r t i a l ,
'* p r e s s u r e s ( F i g . 5.12) i s p a r t i a l l y due t o t h e e i f e d t o f a n a e r o -
b i o s i s , which r e s u l t s i n r e d u c t i o n of t h e PQ pool i n t h e d a r k . * .
\ , \ The PQ pool s e d u c t i o n c a u s e s a n i n c r e a s e i h t h e " m i s s o param-
e
e t e r , i . e . t h e nuniber o f OECs which do no t have a s i n g l e t u r n -
o v q i i n r e s p o n s e t o a 1 ight flash, and t h u s i n -a-de - --- - , a -- - .
c r e a s e i n t h e n e t 0 i i e l d . 2
The 0 exchange c u r v e under a n a e r o b i c 2
** **
' ( ~ i ~ . 5 . 1 4 ) a l j o shows - a d e c r e a s e - i n n e t O2 The net - - - - -
-
0, yiel73, p l o t t e d a s a f u n c - t i o n of f l a s h numbe , d o e s n o t '5
f i t t h e four s t e p S s t a t e model ( F i g . 5 . 1 3 ) . T i s - m a y be due \ a *
, t o a h i g h e r rate o f misses on some o f t h e S s t a 7 . .
r e d u c t i o n 6 f . t h e PQ p o o l , o r p o s s i b l y bq due t o i n a u t o c a t a l y -
t i c e f f e c t o f O 2 on t h e OEC..
a l l o w e l i m i n a t i o p o f
h a s been e v o l v e d by
a t l e a s t t h e O 2
O2 e v o l u t i o n . The Sirnplek a l g o r i t h m was n o t used t o f i t t h i s m
- B 0 e v o l u t i o n c u r v e , s3nce t h e a n a e r o b i c • ’ - lash yield e e r i - 2 'P ments p r e c e e d e d development o f t h e f i t t i n g t e c h n i q
. Y-l Diner a n d ~ a u z y r a l l ( l973a 1 d e t e r m i n e d t h a t c u d t i n u k u s far
\
L
r e d l i g h t super imposed on 0 . 2 5 Hz r e d l i g h t
t h e O2 y i e l d under a n a e r o b i c c o n d i t i o n s by
O2 y i e l d w i t h o u r background i l l u m i n a t i o n . The i n c r e a s e d \ O2 y i e l d was a t t r i b u t e d t o oxidation of e l e c t r o n c a r r i e r s n i
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F i g . ?%. P?
Oxygen
. -
- exchange ,for Ylva under a n a e r o b i c c o n d i t i o n s
wi th f l a s h i l l u i n i n a t i o n A
T - - - - -- -- - - - - - - - - - - - -
The 0 exchange c u r v e i s shown for Ylva which h a s 2 . -
been dark-adapted f o r 2 h under a n a e r o b i c condi -a - -
--- - -
t i o n s p r i o r t o a s e r i e s o • ’ 3 . 3 Hz xenon l i g h t
f l a s h e s .
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the ' a c c e p t o r s i d e o f PS 11 by f a r r e d l i g h t .
sin& f a r re& l i g h t o r idffes e t e c t r o n c a r r i e r s
( e . g . Q /and t h e PQ p o o l ) t h a t a r e r educed i n a n a e r o b i c v . /
s n v i r a n m e n t , i t is poskib1.e . t h a t far r e d l i g h t f l a s h e s g i v e n * /' --
t o a l g a e i n J h e a b s e n c e o f O2 will a l t e r t h e - -- - - -- - - - -
- i n H o f O2 exchange . T h e c o n t r o l O2 ,
, -/;data n o t shown) i n a i r showed- s m a l l e r O2 p u l s e ,,' i , - t h i r d and f o u r t h f l a s h e s i n t h e sequence t h a n t h e xenon
- - -- - - -
- - - - -
- -
f l a s h , however t h e O2 y i e l d p e r -
w i t h i n c r e a s i n g f l a s h number. The o s c i l l a t i o n s i O2 which \ \ a r e e v i d e n t w i t h w h i t e l i g h t o r r e d l i g h t f l a s h e s * - ( 6 8 0 nm)
were g r e a t l y d i m i n i s h e d w i t h f a r r e d l i g h t f l a s h e s T h i s \ d e c r e a s e i n n e t O2 e v o l u t i o n is most l i k e l y due t o h i g h e r
-- - - f r a t e of-misses on al+-S- s t a t e - - t r a n s i t i o n s , which - ---
t h a t t h e f a r r e d l i g h t f l g s h e s a r e n o t i n t e n s e enou -\,' . . - - - - -- - -
s a t u r a t e t h e PS I1 r e a c t i o n c e n t e r s . A series o f f a r
f l a s h e s , g i v e n t o 2 h d a r k - a d a p t e d and a n a e r o b i c g l v \ showed
t h e same r e s u l t a s t h e c o n t r o l . b u t t h e O2 pulses
v i s i b l e u n t i l t h e f o u r t h f l a s h . T h i s o b s e r v a t i o n -
\ - a n a e r o b i c i n h i b i t i o n o f O2 e v o l u t r o n , but is n o t c o n c l s i v e 9 s i n c e t h e l i g h t i n t e n s i t y e f f e c t c a n n o t b e e l i m i n a t e d . \ o - -
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3 - - - 1 4 2
-
/
5.3.3. Oxygen Requirement f o r Water-Spl i t t i n g and
~ G n c o m i t a n t Oxygen E v o l u t i o n
T h e d-ependence o f O2 e v o l u t i o n on t h e p r e s e n c e o r ab -
s e n c e o f O 2 h a s been wide ly d e b a t e d . Z e i n a l o v and i i t v i n - - - - - - - - A -- - - - - -
- - - - -- - -
( 1 9 7 9 ) s u g g e s t e d t h a t O 2 may be bound t o t h e S s t a t e s . Beck
e t a l . ( 1 9 8 5 ) have shown t h a t t h e r e s t i n g PS I1 OEC t a k e s up I
--4
02. V i d a v ~ e t a l . (19& h a v e suggested, on t h e b a s i s o f .. --
a b s o r b a n c e change measurements under a n a e r o b i c c o n d i t i o n s , k
t h a t t h e f u n c t i o n i n g o f t h e w a t e r - s p l i t t i n g s y s t e m r e q u i r e s
t h e p a r t i c i p a t i o n o f ~ 0 . 0 1 a tm. 0 O2'
Oxygen exchange measurements were pe r fo rmed o v e r a p e r i o d
o f t h r e e y e a r s t o d e t e r m i n e i f t h e w a t e r - s p l i t t i n g sys tem
c o u l d b e r e v e r s i - b l y a n d - ~ o r n p ~ e t e l y i n b i b i t t d b y th-e- absence--o-fP --
'a; '
02, a s measured by O 2 exchange . These @ x p e r $ h e n t s were p e r -
formed o v e r a l o n g t i m e p e r i o d t o e l i m i n a t e any s e a s o n a l v a r i a -
- - t i o n s i n o v e r a l l Q2 exchange t h a t occur w i t h i n a s p e c i e s . The
d i s c u s s i o n i n S e c . 5 . 3 . 2 s u p p o r t e d a r e v e r s i b l e i n h i b i t i o n 'of
0 e v o l u t i o n , b u t d i d n o t ' e x p l o r e t h e p o s s i b l i t y t h a t t h e 2 *
e n v i r o n m e n t i n the sample h o l d e r was n o t c o m p l e t e l y a n a e r o b i c .
For C h l o r e l l a , Kessler ( 1 9 7 3 ) o b s e r v e d t h a t 20 h o f d a r k i n a c -
t i v a t i o n were r e q u i r e d f o r maximum i n h i b i t i o n o f 0 e v o l u t i o n . - 2 - -
z However, f o r KLya, 6 h was t h e l o n g e s t time t h a t a n a e r o b i c
c o n d i t i o n s c o u l d be m a i n t a i n e d and s t i l l o b t a i n r e c o v e r y o f
O2 e v o l u t i o n when a i r was added t o t h e s y s t e m .
The sample h o l d e r was made a n a e r o b i c by f l u s h i n g t h e == n
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P - - - -- - -- - - -- - -
\ 3 ' i %
sample h o l d e r wi th N2 ( c o n t a i n i n g C O ~ ) f o r p e r i o d s o f t ime up
" t o 6 h . The f i r s t r e s u l t s ( F i g . 5.153 a p p e a s z t o i n d i c a t e
t h a t a complete, r e v e r s i b l e i n h i b i t i o n o c c u r r e d , However, t h e
measuring system was r edes igned ( F i g , 3 . 5 ) t o a l l o w approx i -
mately - a t en - fo ld - - - a m p l i f i c a t i o n of t h e s i g n a l , -and t h = exPeri: - --
ments were r e p e a t e d . Using two d i f f e r e n t methods f o r o b t a i n - -
i n g an a e r o b i c environments , f l u s h i n g wi th N2 and pumping L
a i r through p y r o g a l l o l - - ( F i g . 3 . 3 and 3 . 4 , r e s p e c t i v e l y ) ,- O2 - , --
e v o l u t i o n was always observed, even a f t e r 6 h a n e r o b i c expo-
s u r e ( i n t h e d W
c a t e , a t l e a s t f o r
water - sp l i t t i n g t o
/
a s shown i n F i g . 5 .16 . Th i s seems t o
Y l v b t h a t ambient O2 is n o t r equ i r ed (
o c c u r . However, t he p p s s i b i l i ty t h a t
i n d i -
f o r
may be bound t o t h e S s tates, and r e l e a s e d a t t h e o n s e t of c
- - - -
i 11 KminaEion to c : a t a l ' y z e T a t e r - s p l i t t ing canno t be exc luded .
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-
- -
f o r
144a
F i g .
- -
C .. . /
ylva under a e r o b i c and -
Oxygen - exchange
a n a e r o b i c c o n d i t i o m w i t h c o n t i n u o u s i l l u m i n a f i o n
- - - --
The hange c u r v e is shown f o r m m i c h was ' -7
dark-adapt% i n a i r 1 h a s compared t o IJl"&
which was d a r k - a d a p t e d f o r 1 h under a n a e r o b i c - - - -
c o n d i t i o n s p r i o r t o a c o n t i n u o u s i l l u m i n a t i o n .
A f t e r a n a e r o b i o s i s , a i r was l e t i n t o t h e s a m p l e
h o l d e r and t h e sample was da rk -adap ted f o r 1 0 min. #
The r e c o v e r y c u r v e is
c o r n e r o f t h e f i g u r e
shown i n t h e upper r i g h t
t h e
- -
Arrows
-
i n d i c a t e when t h e
o r - o f f ( J ) ,
l i g h t was t u r n e d
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B
- a Fig. 5.16 Oxygen exchange for U1vaaunder aerobic and 6 h - -
anaerobic conditions with continuous illumination - - - - - - - - -- - - - -- - -
"
\
The 0 exchange curve is shown for lJ1ia which was 2
dark~adapted in air for 20 min as compared to Ylva a - . -
which was dark-adapted for 6 h under anaerobic
conditions prior to a continuous illumination. *
After 'anaerobio~~s, air was let in to the sample
holder and the sample recovery was similar
shown i& Fig. ' 5.15.
- - - - - --
Arrows indicate light on(?) or off ( 4 ) .
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air v.
air ,
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CHAPTER 6 SUMMARY AND
Kinetic studies of O Z
isolated chloroplasts and
-- CONCLUSIONS f
exchange (evolution and*uptake) in
plants have contributed grea4kly to
the knowledge of photosynthetic processes. Oxygen evolution - - -- a - - - 4 - - - - - - - - ---
occurs in the thylakoid membranes of chloroplasts as,a result -
of water-spl itting in photosystem 11, while O 2 uptake occurs
through both PS I and PS I1 photoreactions. In marine algae, \ - zz
O2 uptake
reduct ion
in the light occurs primarily through direct photo- 1 -
of O 2 by photosynthetic electron carriers (the Heh-
ler reactions) (Hehler 1951a.b; Radmer and Kok, !976). Hito-
chondrial respiration'in both the light and dark also contrib-
utes to 0 consumption, although respiration in the light 2
occurs on a longer t-ime scaFe-than do the Mehler reactTonsP- -
f ackson and Volk, 1970). Photorespiration does not appear to - - -
play a large role (if pny) in light-induced 62 consumption
in marine algae (Glidewell and Raven, 1976; Shelp and Canvin,
1980; Osmond, 1981; Brechignac and Andre, 1984; Peltier and
Thibault, 1985a, b) . Several major problems still remain to be resolved in the
area of photosynthetic water oxidation, including isolation of -
the oxygen-evolving complex (OEC) and delineation of its ar- - - - - -
rangement in the.thylakoid membrane, elucidation of the mole-
cular components of the OEC and definition of their specific
biochemical functions, and determination of the mechanism and
molecular intermediates (e.9. plastoquinone, Mn complexes,
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~ 1 - 1 o f water o x i d a t i o n hand concomitant 0 e v o l u t i o n . The P
2
consumption o f O2 by v a r i o u s p r o c e s s e s i n p h o t o s y n t h e t i c ' o r - - - -
ganisms compl h a t e s t h e i n t e r p r e t a t i o n o f O2 exchange meas-
urements which a r e aimed a t unde r s t and ing t h e mechanism of
water o x i d a t i o n . Many r e s e a r c h e r s have a t t empted , t o i s o l a t e - - - - - - - - - - - - > - - -- - - -
-
t h e O2 e v o l u t i o n and up take components from t h e measured
rates o f O2 exchange, b u t w i thou t much s u c c e s s . Although -
most r e s e a r c h i n t h e p a s t few y e a r s has focussed on i s o l a t i n g - - - - - --- -- - - --- -
t h e molecular components o f t h e OEC, and on t h e p r o c e s s o f
. water o x i d a t i o n i t s e l f , t h e a b i l i t y *to d i s t i n g u i s h O2 up take
from O2 e v o l u t i o n i n O2 exchange measurements would g r e a t l y r -
advance the unde r s t and ing o f t h e k i n e t i c s o f bo th p r o c e s s e s .
. Both- water o x i d a t i o n and t h e i n t r i n s i c a l l y energy-wastbeful
2 0 - p r o c e s s o E dired& p h o t o r e d u c t - i o n o f O2 - b y e l e c t r o n transport--'--- -
'+ 6)
c a r r i e r s (which d i v e r t s e l e c t r o n s from t h e f ina! PS I e l e a t r a a - --- - +
a c c e p t o r , NADP 1 are impor t an t t o t h e fo rma t ion and r e g u l a - - -
t i o n of NADPH and ATP which a r e used t o power t h e d a r k r e a c -
t i o n s of C02 fixation.
D i f f e r e n t gene ra o f marine a l g a e i n t h e d i v i s i o n s Chloro-
- phyta , Phaeophyta, and Rhodophyta wer'e used t o s t u d y t h e f l a s h
y i e l d k i n e t i c s . o f p h o t o s y n t h e t i c O 2 uptake and e v o l u t i o k A
"p i l e -upn o f Op c u r r e n t pul-ses wag observed i n a l l gene ra o f - -- -- -
marine a l g a e which were s t u d i e d under c o n d i t i o n s * where t h e B
time i n t e r v a l between t h e f l a s h e s was s h o r t e r t h a n t h e decay
t ime o f t h e O2 p u l s e . Th i s p i l e -up o f p u l s e s o c c u r r e d s i n c e
t h e f l a s h f requency had t o be chosen t o a l l o w a c o n t i n u e u s
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r$ b
c y c l i n g o f t h e o x i d a t i o n s t a t e s ad? bhe oxygen-evo lv ihg complex
(OEC) w i t h minhnal ' d e a c t i v a t i o n of t h e S s t a t e s . .
The r e s p o n s e o f a b a r e p l a t i n u m e l e c t r o d e t o O2 exchange
i n mar ine a l g a e ( a n d more g e n e r a l l y t o any p l a n t sample i n a n
e l e c t r o l y t e medium) is c h a r a c t e r i s t i c o f t h e e i e c t r o d ? system. - - - -
The r e f e r e n c e r e s p o n s e o f t h e e l e c t r o d e / a l g a e s y s t e m is g i v e n
- by tQe c u r r e n t p u l s e due t o t h e t h i r d s a t u r a t i n g microsecond
l i g h t f l a s h f o r d a r k - a d a p t e d a l g a e , - i n c l u d i n g .decay - - - o f t'he - - - ' - - - - - -
f
p u l s e t o t h e o r i g i n a l b a s e l i n e . The amount o f O2 produced
by t h e a l g a e d u r i n g t h e r e f e r e n c e r e s p o n s e is d e t e r m i n e d by
rd c a l c u l a t i n g t h e area under t h e c u r v e , which r e p r e s e n t s t h e t o - -
- - t a l c h a r g e produced by r e d u c t i o n o f 0 at the c a t h o d e . S i n c e 2
f o u r e l e c t r o n s a r e produced f o r e a c h molecule o f O2 rediSced -
( i . e n = 4~electro~s7Q2~);~theeneetO e v o l v e d b p p h o t o s y n t h e - 2
t ic wate r o x i d a t i o n is g i v e n by:
8
where QO = t h e a r e a u n d e r t h e O2 c u r v e ( i n C o u i o m b s ~ , 2
' qe = e l e c t r o n i c c h a r g e , and NA = . ~ v o ~ a d r o ' s number .- 9 t h e a r e a under the O2 exchange c u r v e t o b e e r p r e s s e d i n Cou-
lombs, t h e v e r t i c a l and h o r i z o n t a l a x e s must .be e x p r e s s e d I n
terms o f O2 r e d u c t i o n c u r r e n t ( g e n e r a l l y i n P A ) and time. -
r e s p e c t i v e l y .
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The
for the
partially resolved eiperimental U2 exchange pulses
green algae, u.. were numerically deccrnvoluted - .by fitting the experimental curve w i t h the sum of time-shifted
B
single pulses derived f r m * t h e shape o f t h e rynfsrence , r e - - sponue, proving dynamic lfnearlty of the elect rode s y s t e m .
This allows q t & n t t f t c a t i o n of t h e n e t amount of sxygcn pro--- -- -
+ - duced per f l a s h by multiplying t h e refatPvc amplitude of e a c h
%
pul se b y t h e amount sf Q2 produced during t h e reference
evolution. and does not account for O2 produced by water
oxidation, but consumed i n Hehier r e a c t i o n s b e f o r e dl•’ fusing
o u t 02 the algae. The photosynthetic unit size can a l s o be
determined by calculating the n e t U2 e v o l v e d for one com-
from four sa tura t ing l i g h t f l a s h e s ) . For a-, t h i s was
determined to be 2 2 9 0 t 150 chl/U2. molecule, similar to t h a t -
o f with 2360' r 160 chl/02 molecule (Wishkind * %
,. - and Ha'uzcrall, 1977 1 .
The O2 consumption which is e v i d e n t i n Ylya when DCHU i s
usdd t o inhibit electron transfer from PA to t h e PO pool,
reaches its waxlqum value a t 4 2 s af ter the onset of 3 . 3 Hz
f l a s h illuaination. This mans t h a t the O current p u l s e s i n 2
l f g h t flashas do n o t contain a signlficaat O2 uptake compon- -
cnt. By t h e f o u r t h and E i f t h flashes, however, the l i g h t -
induced O2 consumption react ions i n - do c o n t r i b u t e -
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s i g n i f i c a n t l y t o t h e m e a s u r e d 0 e x c h a n g e rates. The f o r m o f 2
t h e O2 u p t a k e s u g g e s t s t h a t a 1;-mited p o o l o f r e d u c t a n t s , a.q
p l a s t o q u i n o l s a n d o t h e r i n t e r s y s t e m carr iers , is a v a i l a b l e f o r
o x i d a t i o n b y 02. The c h a r g e ( i n C o u l o m b s ) p r o d u c e d by n
f l a s h e s c o u l d be d e t e r m i n e d by t a k i n g t h e area u n d e r . t h e DCMU- -- -- --
i n d u c e d O2 u p t a k e c u r v e , and d i v i d i n g by t h e c h a r g e per e l e c - \
t r o n w h i c h g i v e s t h e number o f e l e c t r o n s t a k e n u p by 02.
t h e N e h l e r r e a c t i o n s , m o l e c u l a r o x y g e n r e q u i r e s o n e e l e c t r o n t o
p r o d u c e superoxide (0 7 ) and a n o t h e r e l e c t r o n t o p r o d u c e HZOZ 2
T h u s t h e number o f O2 m o l e c u l e s (mo les ) consumed in Mehle r
react i o n s c o u l d be d e t e r m i n e d .
I f t h e n e t O2 y i e l d is p l o t t e d a s a f u n c t i o n o f f l a s h
number , a f o u r - s t e p s e q u e n c e o f 0 exchange was o b s e r v e d i n 2
t h e g e n e r a w, Lamlnarla -
- - -- - -
, w, U, a n d Utero-. - -- -- - -- --
S u f f i c i e n t e v i d e n c e f o r a t r a n s i e n t e n d o g e n o u s u p t a k e i n a l g a e
a n d ~ h I ' - b r o p l a s t ~ 'has b e e n d e m o n s t r a t e d t o j u s t i f y i n c l u d i n g a
c o r r e c t i o n f o r O2 u p t a k e in t h e f o u r - s t e p flash s e q u e n c e . a
S u b t r a c t i n g t h e DCMU-induced O 2 u p t a k e c o m p o n e n t f r o m t h e
m e a s u r e d O2 e x c h a n g e r e s u l t s i n a f o u r - s t e p f l a s h y i e l d
s e q u e n c e w i t h s u s t a i n e d o s c i l l a t i o n s i n y i e l d . However, O
C * .
c o n s u m p t i o n o c c u r s i n b o t h PS I a n d PS 11, a n d t h u s t h e f l a s h :,'
y i e l d s e q u e n c e w h i c h h a s b e e n c o r r e c t e d for PS I uptake is n o t --
1 i k e l y t h e same as i f PS71 O2 u p t a k e is also c o n s i d e r e a .
As well, flash y i e l d s e q u e n c e s o b t a i n e d w i t h P S I 1 membranes
c o n t a i n i n g exogenous e l e c t r o n acceptors may not be equivalent
t o O2 e v o l u t i o n w h i c h o c c u r s when both photosyztees-are
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f u n c t i o n a l . However, PS I O2 u p t a k e is most l i k e l y l a r g e r
t h a n t h a t o f PS 11, t h u s s u b t r a c t i o n o f t h e PS I O2 u p t a k e -. -
s h o u l d g i v e a r e a s o n a b l e a p p r o x i m a t i o n t o a c t u a l O2 e v o l u -
t i o n . If i t were p o s a i U e t o i n h i b i t PS I O2 u p t a k e w i t h o u t
a f f e c t i n g O2 e v o l u t i o n , t h e e f f e c t o f O2 consumpt ion r e a c - - -
t i o n s on t h e n e a s u r e d - ~ a t e ~ o f O2 exchange and t h e - i l a s h
y i e l d sequence c o u l d be d e t e r m i n e d . Vidaver (1969; 1972) h a s 7
shown t ,ha t i n ylva J o b a t a under c o n t i n u o u s i l l u m i n a t i o n , h i g h
h y d r o s t a t i c p r e s s u r e s (-5000-10,000 p s i ) r e s u l t i n i n h i b i t i o n
o f PS I O 2 u p t a k e w i t h l i t t l e i n h i b i t i o n o f O 2 e v o l u t i o n .
Using s h o r t , s a t u r a t i n g l i g h t f l a s h e s t o i l l u m i n a t e y l v a a.
under 5000-10,000 p s i h y d r o s t a t i c p r e s s u r e , i t may be p o s s i b l e
t o e x p e r i m e n t a l l y i n h i b i t PS I O2 u p t a k e w i t h o u t s i g n i f i -
c a n t 1 y a f t 3 e r i n i t h e - p r o c e s s - - - o f - - - O2 e v o l u t i o n . T h i s may -
dm
r e s u l t i n f u r t h e r i n s i g h t s i n t o t h e e f f e c t o f O2 u p t a k e on
t h e f o u r - s t e p f l a s h y i e l d s e q u e n c e .
. Many s t u d i e s have been pe r fo rmed w i t h y l v a t o i n v e s t i g a t e
t h e t r a n s i e n t l i g h t - i n d u c e d O 2 u p t a k e u s i n g c o n t i n u o u s
i l l u m i n a t i o n ( V i d a v e r and French , 1965; Cha.ndler and Vidaver ,
1 9 7 0 ) . I f t h e t r a n s i e n t DCHU-induced O2 u p t a k e i s s u b t r a c -
t e d 'from t h e O2 exchange -curve , t h e l a r g e d i p a t t r i b u t e d by
Vidaver t o PS I O 2 u p t a k e is a b s e n t IXVidaver a n d French ,
1965) . The r e s u l t s shown i n F i g . 5 . 1 1 e s s e n t i a l l y v e r i f i e s
h i s a s s u m p t i o n t h a t t h e l a r g e d i p i n O 2 exchange a f t e r t h e
gushf f must be m o s t l y due t o a PS I -media ted O2 u p t a k e .
The e f f e c t o f a n a e r o b i o s i s o n t h e mechanism o f O 2
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evolution is still being widely debated. Generally, however, - -
most researchers concur that lack of O 2 inhibits O2 evolu-
tion, but the extent of the inhibition and the sites of inhibi-
tion are not clear. Diner and Mauzerall C1973a,b) have shown
that-anaerobiosis results in reduction of the PQ pool Ln the
0 dark, but this may not completely account for the inhibition
\ L
of O2 evolution in the absence of 0 2 ' Since continuous
far red light superimposed on 0 . 2 5 Hz red flashes increased t
the 0 yield under anaerobic conditions, dines and Mauzerall - - 2
(1973a) attributed this increase to the oxidation of reduced
PS I1 electron carriers by far red light. Thus, it is pos-
sible that far red light flashes biven to algae in the absence
of 02 will alter the anaerobic inhibition of O2 evolution. - - - - - - - - - - - -
However, an attempt waspmade to do this using far red laser
puls~es ( 7 0 5 - 7 2 0 nm), but the intensity was not sufficient to
alter the anaerobic response from the control response in air. 7
The 0 exchange curves for under anaerobic condi- 2
tions always show a small amount of 0 produced, even after 2
6 h of anaerobic exposure. For y l v a , it appears that O 2 is
not required for water-splitting to occur. However, the pos-
sibility that O2 could be bound to the s states and released
at the onset - of illumination to catalyze the production of
O2 can not be disregarded. Experiments by Radmer and Ollinger
(1980a) using mass spectrometry have led them to suggest that
under aerobic conditions in the dark, the Sl state of ...
spinach chloroplasts does not contain a bound intermediate
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4 -
z e - - - -
I
- - -
-- - - -
o x i d a t i o n produc t o f H Z O The a u t h o r s a l s o s t a t e t h a t any - -
a s s o c i a t i o n between t h e SO and S1 s t a t e s and wate r i n t e r - \ media tes would be s h o r t - l i v e d . However, i t is d i f f i c u l t t o \ e x p t r a p o l a t e expe r imen ta l r e s u l t s o b t a i n e d i n a i r t o t h o s e \
o b t a i n e d under a n a e r o b i c c o n d i t i o n s , where p l a n t s ar-e under-- -
O 2 s t r e s s , and t h u s t h i s p o s s i b i l i t y should be i n v e s t i g a t e d
more thoroughly under a n a e r o b i c c o n d i t i o n s . \ Fur the r s t u d i e s should be made on t h e f l a s h y i e l d k i n e t i c s
o f r ed a l g a e , e . g . P o r ~ h v r ~ which show d i f f e r e n t k i n e t i c s \
t han t h e g reen o r brown a l g a e . I t would be i n t e r e s t i n g t o
determine- i f t h e l a c k o f a f o u r s t e p O 2 exchange p a t t e r n i n
e p r P h v r a is due t o v a r i a t i o n s i n O 2 e v o l u t i o n o r up t ake .
The appearence of a f o u r - s t e p p a t t e r n o f n e t O 2 exchange i n - - - - --
-PorE>hvra under low G b i e f i 0 2 c o n c e n t r a t i o n s u g g e s t s t h a t
d i f f e r e n t mechanisms ( o r l a c k ) o f 0 up take may be o c c u r r i n g 2
under normal c o n d i t i o n s . Degermination o f t h e l i g h t i n t e n s i t y
which is s u f f i c i e n t t o s a t u r a t e oxygen-evolving c e n t e r s should
a l s o prov ide in fo rma t ion on 0 exchange i n P o r ~ h v r a ' a n d 2
e n a b l e d e t e r m i n a t i o n o f whether pho to inh ib i t+on is o c c u r r i n g
under l i g h t i n t e n s i t i e s which p rov ide normal r e s p o n s e s - i n
g r e e n and brown a l g a e .
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APPENDIX
ADP
CFO, CF1
CHL, ~ h l '
CY t
DCMU
Fd-Th-red
kD _C
LHC
NADP
NADPH
LIST OF ABBREVIATIONS
adenine dinucleotide phosphate
adenine tr inucleotide phosphate - - - coup1 ing factor components - - - - - - - - -
chlorophyll molecule C
cytochrome
3-( 3,4-dichloropheny1)-1,l-dimethylurea
ferredoxin-thioredoxin reductase
ferredoxin 8.
bound fyredoxin usually subscripted, e . g . FDX,
soluble ferredoxin -', --- - --
iron-sulfur protein
ferredoxin-NADP reductase
ferredoxin-NADP oxidoreductase
kilodalton, 1 kD = 1000 g/mole
light-harvesting 'complex
active site of the oxygen-evolving complex - nicotinamide adeenine dinucleotide phosphate -- reduced nicotinamide adenine dinucleotide
phosphate
oxygen-evolving complex
primary electron acceptor for photosystem I1
4 secondary electron acceptor for photosys em 11
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p l a s t o c y a n i n
PHEO, Pheo pheophyt in -
phosphate group (POg )
pho tosystem I
photosystem I1
PSU p h o t o s y n t h e t i c u n i t
'680 photosystem I1 r e a c t i o n c e n t e r pigment
'700 photosystem I r e a c t i o n c e n t e r pigment -
PQ p la s toqu inone
RC r e a c t i o n cen te r . complex
RuBP r i b u l o s e b i s p h o s p h a t s
n e t oxygen y i e l d f o r f l a s h number i
Z primary e l e c t r o n d g n o ~ t o photosystem I1 A - - - -
e l e c t ~ 6 c h e m i c a l ~ o t e n t i a l d i f f e r e n c e /
b
1 i p i d molecule
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L I S T -
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>
Akerlund, H.-E., C. Jansson, B. Andersson (1982) Reconstitu- tion of photosynthetic water spl ittine in inside-out thylakoid vesci=les and identixication of a participating - - -
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Bader, K.P. (1984) S-states and oxygen evbiution in a P
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