CH339K Physical Methods: How to Purify and Sequence a Weapons-Grade Protein.
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CH339K
Physical Methods: How to Purify and Sequence a Weapons-Grade Protein
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First Question
How do I measure the amount of protein I have?
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UV Absorption Spectrophotometry
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Second Question
How can I spot my protein in the great mass of different proteins?
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Electrophoresis
d
- - -
-
+
-
-
+
ChargedMolecule
(Charge q)
dV
F = qV/d
Gel matrix
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f
q
E
v
qEfv
v
f
fvF
E
q
qEd
VqF
b
f
or
:mequilibriuAt
velocity
tcoefficien frictional
strength field
charge
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f
q
E
v
M
qv
The frictional coefficient The frictional coefficient f f depends on the size of the depends on the size of the molecule, which in turn depends upon the molecular mass, molecule, which in turn depends upon the molecular mass, so:so:
i.e. the velocity depends on the charge/mass ratio, which i.e. the velocity depends on the charge/mass ratio, which varies from protein to proteinvaries from protein to protein
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Polyacrylamide Gels
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Polyacrylamide gel electrophoresis of whole cell proteins of three strains of lactic acid bacteria.
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Agarose
Gelidium sp.Gelidium sp.
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SDS binds to proteins at a constant ratio of 1.4 g SDS/g proteinSDS binds to proteins at a constant ratio of 1.4 g SDS/g protein
Na+
OS
OCH2
CH
2
CH2
O
O
CH
2
CH2
CH
2
CH2
CH
2
CH2
CH
2
CH2
CH3
SDS PAGESodium Dodecyl (Lauryl) Sulfate
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Constant q/M ratioConstant q/M ratio
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Disulfide cleavage
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Isoelectric Point
Abrin A - Predicted Charge
-40
-30
-20
-10
0
10
20
30
0.0 2.0 4.0 6.0 8.0 10.0 12.0 14.0
pH
Ch
arg
e o
n P
rote
in
Predicted pI5.088
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Isoelectric FocusingIsoelectric Focusing
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pH
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Carrier Ampholytes
• Amphoteric Electrolytes
• Mixture of molecules containing multiple amino- and carboxyl- groups with closely spaced pIs
• Partition into a smooth, buffered pH gradient
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Separation by pISeparation by pI
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Isoelectric Focusing
BelowBelow the pI, a protein has a positive charge and migrates the pI, a protein has a positive charge and migrates toward the cathodetoward the cathodeAboveAbove the pI, a protein has a negative charge and migrates the pI, a protein has a negative charge and migrates toward the anodetoward the anode
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Isoelectric Focusing Foot Flesh Extracts from Pomacea flagellata and Pomacea patula
catemacensis
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Protein Purification Steps1 unit = amount of enzyme that catalyzes 1 unit = amount of enzyme that catalyzes conversion of 1 conversion of 1 mol of substrate to product in 1 mol of substrate to product in 1 minuteminute
1 unit = amount of enzyme that catalyzes 1 unit = amount of enzyme that catalyzes conversion of 1 conversion of 1 mol of substrate to product in 1 mol of substrate to product in 1 minuteminute
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Purification visualized
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Example:Purification of Ricin
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Georgi Markov1929-1978
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Ricinus communisRicinus communis – castor oil – castor oil plantplant
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Ricin
Ricin B chainRicin B chain(the attachment bit)(the attachment bit)
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Ricin Action
• Ricin and related enzymes remove an adenine base from the large ribosomal RNA
• Shut down protein synthesis
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The possibility that ricin might be used as an asymmetric warfare weapon has not escaped the attention of the armed services.
The last time I was qualified to know for sure, there were no effective antidotes.
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RawExtract
(NH4)2SO4
Cut
Affinity GelFiltration
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Salting In – Salting out
iz
ic
zcI
i
i
n
iii
ion on charge
ion ofion concentrat
2
1 :Strength Ionic
1
2
• salting in: Increasing ionic strength increases protein solubility
• salting out: Increasing further leads to a loss of solubility
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Salting in – salting out
The solubility of haemoglobin in different electrolytes as a function of ionic strength.Derived from original data by Green, A.A. J. Biol. Chem. 1932, 95, 47
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Solubility reaches minimum at pI
Salting in: Counterions help prevent formation of interchain salt links
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Salting out: there’s simply less water available to solubilize the protein.
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Different proteins have different solubilities in (NH4)2SO4
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Lyotropic ChaotropicSeries
Cations: N(CH3)3H+> NH4+> K+> Na+> Li+> Mg2+>Ca2+> Al3+>
guanidinium / urea
Anions: SO42−> HPO4
2−> CH3COO−> citrate > tartrate > F−> Cl−> Br−> I−> NO3
−> ClO4−> SCN−
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1) Bring to 37% Saturation – ricin still soluble, many other proteins ppt
2) Collect supernatant3) Bring to 67% Saturation – ricin ppt, many remaining
proteins still soluble4) Collect pellet5) Redissolve in buffer
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Dialysis and Ultrafiltration(How do you get the %@$&#! salt out?)
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RawExtract
(NH4)2SO4
Cut
Affinity GelFiltration
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Separation by chromatographySeparation by chromatographyBasic Idea:Basic Idea:You have a You have a stationary phasestationary phaseYou have a You have a mobile phasemobile phaseYour material partitions out between Your material partitions out between the phases.the phases.
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Affinity Chromatography
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Structure of AgaroseAgarose is a polymer of agarobiose, which in turn consists of one unit each of galactose and 3,6-anhydro-a-L-galactose.
Ricin sticks to galactose, so store-bought agarose acts as an affinity column right out of the bottle, with ricin binding the beads while other proteins wash through.
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Begin adding 0.2 M Begin adding 0.2 M LactoseLactose
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RawExtract
(NH4)2SO4
Cut
Affinity GelFiltration
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B
AB
BAASS SS
SS
Ricinus communis Agglutinin (RCA)MW = 120,000
RicinMW = 60,000
Castor Beans contain two proteins that bind galactose
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Gel Filtration
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Gel Filtration
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Gel Filtration (aka Size Exclusion)
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Fig. 3. Fig. 3. Measurement of molecular weight of native NAGase enzyme of green crab by gel Measurement of molecular weight of native NAGase enzyme of green crab by gel filtration on Sephadex G-200: standard proteins (empty circles); green crab NAGase filtration on Sephadex G-200: standard proteins (empty circles); green crab NAGase (filled circle). (filled circle).
From Zhang, J.P., Chen, Q.X., Wang, Q., and Xie, J.J. (2006) From Zhang, J.P., Chen, Q.X., Wang, Q., and Xie, J.J. (2006) Biochemistry (Moscow)Biochemistry (Moscow) 7171(Supp. 1) (Supp. 1) 855-859.855-859.
Note:Note: smaller = slowersmaller = slower, , whereas in SDS-PAGE, whereas in SDS-PAGE, smaller = fastersmaller = faster..
NoteNote
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RCARCA
RicinRicin
Gel Filtration Separation of RicinGel Filtration Separation of Ricin
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RawExtract
(NH4)2SO4
Cut
Affinity GelFiltration
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Okay, Now Let’s Sequence the A-Chain
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Bovine InsulinBovine Insulin21 residue A chain21 residue A chain31 residue B chain31 residue B chainConnected by disulfidesConnected by disulfides
In order to sequence the protein, the In order to sequence the protein, the chains have to be separatedchains have to be separated
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Chain Separation
• Interchain disulfide broken by high concentrations of ME
• Chains are about the same size – but can take advantage of different pIs– B-Chain pI ~ 5.3– A-Chain pI ~ 7.2
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Ion Exchangers
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•Apply ME – treated ricin to DEAE-cellulose at pH 7•At pH 7:
•A chain (pKa 7.2) is essentially uncharged, •B chain (pKa 4.8) is highly negative
•A chain washes through the column•B chain sticks, eluted with gradient of NaCl
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2-D Electrophoresis (an aside)
• Can use two different properties of a protein to separate electrophoretically
• For analysis of cellular protein content, often use 2-dimensional electrophoresis:
• 1st dimension is isoelectric focusing
• 2nd dimension is SDS PAGE
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2-D Electrophoresis (cont.)
• Can use other protein properties to separate– Simple PAGE at 2 different pHs– PAGE and SDS PAGE
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Sequencing with Phenylisothiocyanate
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• Applied Biosystems 492 Procise Protein Sequencer
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Chain Cleavage: Cyanogen Bromide
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C-Terminal Sequencing
• Carboxypeptidases are enzymes that chew proteins from the carboxy terminus
• Can incubate a protein (preferably denatured – more later) with a carboxypeptidase
• Remove aliquot at intervals (time course)
• Run amino acid analysis of aliquots
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C-Terminal Sequencing of Rat Plasma Selenoprotein
From Himeno et al (1996) J. Biol. Chem. From Himeno et al (1996) J. Biol. Chem. 271271: 15769-15775.: 15769-15775.
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Tandem Mass Spectrometry can also be used to determine peptide sequences