The Chemical Nature of Enzyme Reaction C6 Chemical ...
Transcript of The Chemical Nature of Enzyme Reaction C6 Chemical ...
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The Chemical Nature of Enzyme Reaction
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sp3 hybridCC6
+
+Covalent bond
H
Chemical reactionsEnzyme catalytic mechanismIdentification of catalytic sites
Chemical reactionsEnzyme catalytic mechanismIdentification of catalytic sites
+ sp2 + p
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The basic mechanism of chemical reaction
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R3C X
R3CC- X-R3CC+X+
XR3C
CarbanionCarbanion CarboniumCarbonium
CH2 CH CH2+
CH2 CH CH2+
Free radicalFree radical
stabilized by resonance
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Four main types of reactions
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SubstitutionSubstitutionAdditionEliminationRearrangement
H + +NO2 H++NO2
nucleophilicelectrophilic
electrophilicsubstitution
Oxidation/reductionAddition/eliminationHydrolysisDecarboxylation
Oxidation/reductionAddition/eliminationHydrolysisDecarboxylation
Palmer T (1991) Understanding Enzymes, Chap. 10, 11 (Ellis Horwood, England)Petsko GA, Ringe D (2004) Protein Structure and Functions (New Science Press, London)
ItItIt’’’s a matter of electrons! s a matter of electrons! s a matter of electrons!
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Nucleophilic substitution reactions
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UnimolecularUnimolecular nucleophilic substitution (Snucleophilic substitution (SNN1)1)
Bimolecular nucleophilic substitution (SBimolecular nucleophilic substitution (SNN2)2)
C YR1
R2
R3
C XR1
R2
R3- Y- +X- CX
R1
R2
R3
C YR1
R2
R3X- C
R3
R1 R2-
+
YX
C
R3
R1 R2
CXR1
R2
R3
+ Y-
optic isomers
configuration inversion
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R3N OR’CO-
R”
+
Mechanisms of catalytic reactions
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(1) Acid(1) Acid--base base catalysiscatalysis R3C O R’ R3C
XX- H+
+
(2) Electrostatic (2) Electrostatic catalysiscatalysis
H
O R’
OCH3H2C CH2N O
H-O-H:
OCH3H2C CH2N O-
H-O H+
Cu2+
(3) Covalent (3) Covalent catalysiscatalysis
R3N: OR’CO
R”
-OR’+R3N CO
R”
+ H2O
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Chymotrypsin
Pet
sko
GA
, Rin
geD
(200
4) P
rote
in S
truc
ture
and
Fun
ctio
ns F
4-35
Branden & Tooze (1999) Introduction to Protein Structure (2e) p.212, 210
H57
S195
D102
Catalytic triadCatalytic triad
ZymogenZymogen activationactivation
pH dependentpH dependent
TwoTwo--step mechanismstep mechanism
Covalent catalysisCovalent catalysis
Substrate specificity Substrate specificity
Active site might be created between two domains
The geometry of the catalytic triad of the serine protease as used to locate similar sites in other proteins
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Substrate binding site
+
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Lysozyme
E35
C
O
O-H
D52
C
O
O-O
:O
O
D
E
E35
C
O
O-
D52
C
O
O-
H-O
OE
DO
H-O-H:
E35
C
O
OH
D52
C
O
O-
O D
OH
Electrostatic catalysis
Non-polarenvironment Polar
environment
First product
N-acetylglucosamine(NAG)
N-acetylmuramic acid(NAM)
NAG-NAM-NAG-NAM-NAG-NAM-
A B C D E F
Stryer (2002) Biochemistry (5e) p.199, Fig 8-7
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Ribonuclease
:N+ NH
H12
HN N+-H
H119
O
OPO2
-
OR3’
R5’ Base
OH
OR3’
PO2-
HN N+-H
H119N+ NH
H12
H
O
O
R5’ Base
O
HN N:
H119N+ NH
H12
HPO2
-
O
O
R5’ Base
O
H-O-H
:N+ NH
H12
HN N+-H
H119
O
OPO2
-
OH
R5’ Base
OH
First productHistidine proton shuffle
HOR3’
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CO
O-
Triose phosphate isomerase
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H-C-OHHC O
CH2OPO3=
H-N+ NH
E165 H95
G3P
HC-OHC-O-H
CH2OPO3=
:N+ NH
E165 H95
CO
OH
H-N+ NHCO
O-
E165 H95
C OHC-OH
CH2OPO3=
H
Histidine in the enzyme(1) Imidazole has neutral pKa(2) Proton donor & acceptor(3) Nucleophile & electrophile(4) Stabilize charged groups (5) Could be phosphorylated
Petsko GA, Ringe D (2004) Protein Structure and Functions F4-37
G3P formula unchanged
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+
10
Glycogen phosphorylase
H
P
O
O
O- O-
PLP
P
O
O-H
O- O-
Glc-1-P
HHO
HOHO
HOH2CO
HHO
HOO
HOH2CO
O-R
HHOHO
HO
HOH2CO
HHO
HOH-O
HOH2CO
O-RFirst productP
O
O -
O- O-
H
P
O
O
O- O-
PLP
HHO
HOHO
HOH2CO
P
O
O
O- O-
Pyridoxalphosphate
Glycogen (n)Glycogen (n-1)
Coenzymes have reactive groups which could initiate catalytic reactions
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Catalytic toolkit for active sites
11Gutteridge A, Thornton JM (2005) Understanding nature’s catalytic toolkit. TIBS 30: 622
Combinations of different residues form ‘catalytic units’that are found repeatedly in different unrelated enzymes
HistidineHistidineHistidine
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Identification of enzyme catalytic sites(1) Trapping the enzyme-substrate complex
O C
CH2-OH
CH2OPO3=
E NH2 +
Glyceraldehyde-3-P
E N C
CH2-OH
CH2OPO3=
Fructose-1,6-bisP
Fructose bisphosphatealdolase
+ 2 HNaBH4
(borohydride)
E NH
CH
CH2-OH
CH2OPO3=
HCl hydrolysis
(Lys)
NH
CH
CH2-OH
CH2OPO3=
Lys
E + S ES E + P
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Identification of enzyme catalytic sites(2) The use of substrate analogues
Chymotrypsin
O-
C
Time (sec)N
itrop
heno
l
OCH3–C–O– –NO2
Nitrophenol acetate
OC
OCH3–C HO– –NO2
+ H2OO-HC
CH3COOH
Kinetic studies
Two-phase
Deacylation (slow step)
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Identification of enzyme catalytic sites
O
(CH3)2CH–O– P–O–CH(CH3)2=
O
CH2
Ser195
DIFP (Diisopropyl-fluorophosphate)
Reaction time
Act
ivity
inhi
bitio
n (%
)
100
50
0
+ DIFP
+ DIFP & substrate
S
Active site protected by substrate
Partial hydrolysis
Gly-Asp-Ser-Gly-Gly-ProDIFP
(3) Chemical modification protected by substrate
Km increasedVmax unchanged
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Identification of enzyme catalytic sites
I16L13 Y146
5 6 7 8 9 10 11pH
相對活性
New NH2-terminus
Ser 195
Asp 194
Gly 193
Ile 16
+NH3OC–O- +
Ser195
His 57
Asp 102
H–O–CH2
=
H–N N–H
C C-H
C
CH2
H Inactive
(4) The effect of changing pH
pKa changes depending on microenvironment
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Identification of enzyme catalytic sites(5) Enzyme modified by site-directed mutagenesis
No enzyme 1
Asn155 → Leu ● ● ● 10,000,000(Asn155 stabilizes transition state)
His & Asp → Ala ● ○ ○ 37,000Ser, His & Asp → Ala ○ ○ ○ 4,000Subtilisin ● ● ● 10,000,000,000
Amino acids in active siteMutations Triad: Ser His Asp Relative activity
Ser → Ala ○ ● ● 5,000Asp → Ala ● ● ○ 330,000
Adapted from Dressler & Potter (1991) Discovering Enzymes, p.245
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Identification of enzyme catalytic sites(6) Enzyme kinetics and inhibition kinetics
(7) Partial proteolysis protected by binding groups
(8) Prediction from protein sequences
Mat
hew
s et
al (
2000
) Bio
chem
istry
(3e)
p.2
08
Stryer (1995) Biochemistry (4e) p.252Petsko GA, Ringe D (2004) Protein Structure and Functions F4-12
Relationship of sequence similarity to similarity of function. Enzyme, blue curve; non-enzyme, green curve
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Identification of enzyme catalytic sites
(10) X-ray crystallography
(9) NMR
Petsko GA, Ringe D (2004) Protein Structure and Functions F5-3, 5-4
NMR structures of the protein cytochrome c
in solution
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