Biochemistry LS2101 Slides class 9 PPD.pdf

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BIOCHEMISTRY: LS2101

Dr. Partha P. Datta

IISER Kolkata

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 Enzyme, vitamins and coenzymes

Most Enzymes Are Proteins

weak bonding between enzyme and substrate

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 How Enzymes Work

Enzymes Affect Reaction Rates, Not Equilibria

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Acid-Base Catalysis

Covalent Catalysis

Metal Ion Catalysis

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Enzyme Inhibitors

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Types of Enzymes

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 Many Enzymes require cofactors for activity

Apoenzyme + Cofactor = Holoenzyme

Cofactors can be subdivided into two groups:

(1) metals and

(2) (2) small organic molecules called coenzymes

A coenzyme or metal ion that is very tightly or even covalently bound to the enzyme protein is called a prosthetic group

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Which Vitamins Are Coenzymes?

All of the water-soluble vitamins and two of the fat-soluble
vitamins, A and K, function as cofactors or coenzymes.

Coenzymes participate in numerous biochemical reactions
involving energy release or catabolism, as well as the
accompanying anabolic reactions.

In addition, vitamin cofactors are critical for processes involved in
proper vision, blood coagulation, hormone production, and the
integrity of collagen, a protein found in bones.

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Water - Soluble Vitamins
1.Vitamin B1 - thiamine
Converted to thiamine pyrophosphate coenzyme
Acts by nucleophilic attack on C = O
Permits C - C bond cleavage and formation
2.Vitamin B2 - riboflavin
Incorperated in FMN (Flavin MonoNucleotide) and
FAD (Flavin Adenine Dinucleotide) coenzymes
Acts in Redox Reactions
Can accept and donate 2 e- and 2 H+
3.Vitamin B6 - pyridoxal (-ol, -amine)
Converted to pyridoxal phosphate coenzyme
Acts by forming Schiff base with -NH2 of substrate
Permits cleavage of C - C, C - O, C - S, C - H, and C -
N bonds in area of attachment
Very versatile, but amino group needed in substrate
4.Vitamin B12 - cyanocobalamin
Coordination complex of Co+ in a corrin ring
Converted to 5'-deoxyadenosylcobalamin coenzyme
Acts to exchange -H and another group on adjacent C's
Transfers Methyl group from Me-THF to homocycteine
to synthesize Met
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Water - Soluble Vitamins
1.Nicotinamide (NIacin, nicotinic ACid vimintIN)
Converted to NAD and NADP coenzymes
Functions in Redox Reactions by accepting and
donating 2e- and 1 H+
2.Pantothenic Acid
Converted to Phospho-form coenzyme
Activates Acyl moieties for condensation and
enolization
3.Biotin (vitamin H)
Coenzyme
Incorperates CO2 in B carboxylation reactions
"Binds the egg white glycoprotein avidin with Kd = 10-
15 M

Vitamins #5-7 are part of the B complex
4.Vitamin C - ascorbic acid ("antiscorbutic") ("anti-scurvy")
involved in hydroxylation of proline in collagen,
therefore important for wound healing
Prevent common cold? How?
5.Folic Acid - pteroylglutamic acid
Converted to tetrahydrofolic acid (THF)
Carries C-1 groups at all oxidation levels
More properly considered a substrate than a coenzyme
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Lipid-Soluble Vitamins
1.Vitamin A - trans-retinol
Converted to visual pigment cis-retinal
(Also contributes to animal growth and development -
How? Retinoic acid?)
2.Vitamin D - 7-dehydrocholesterol
Converted to hormone 1,25-Dihydroxy vitamin D3
(Stimulates gene expression to regulate calcium
metabolism)
3.Vitamin E - a-tocopherol
Antioxidant
Prevents sterility - in rats, How?
4.Vitamin K - phylloquinone in plants; menaquinone in aminals
and bacteria
Cofactor for formation of gamma-carboxyglutamic acid
in serine proteases of blood clotting cascade, and some
other Ca++ binding proteins.

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Non-Vitamin Coenzyme
1.Lipoic Acid
(Isolated in 1951 by Lester Reed at UT-Austin - he
obtained 30mg from 10 tons of liver residue.)
Relays electrons and acetyl groups between catalytic
subunits of pyruvate dehydrogenase complex.

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Figure. Selected examples of vitamins as
coenzymes: (a) thiamin pyrophosphate; (b)
flavin mononucleotide; (c) pyridoxal
phosphate; (d) coenzyme A; and (e)
methylcobalamin or coenzyme B12.
Reproduced from Coenzymes, Encyclopaedia
of Food Science, Food Technology and
Nutrition, Macrae R, Robinson RK, and
Sadler MJ (eds), 1993, Academic Press.

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