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ENZYMES

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Title: ENZYMES


1
ENZYMES
2
Definition
  • These are organic substance that accelerates the
    rate of chemical reactions.
  • Organic catalyst are enzyme
  • 1.Highly specific catalyze one or two reactions
    only.
  • 2.Protein in nature denatured by heat.
  • Inorganic catalyst are metals
  • 1.Non-specifincatalize many reactions
  • 2. Not affected by heat.

3
the molecules at the beginning of the process are
called substrates, and the enzyme converts them
into different molecules, the products.
4
Enzymes
  • Have a recommended name
  • Suffix ase attached to the substrate of the
    reaction e.g. glucosidase, ambreenase,
    vishaalase
  • OR to describe the action performed. e.g.
    lactate dehydrogenase

5
4-types of specificity
  • Optical specificity acts on one of 2 isomers.
    e.g maltase acts on a-glycosidase and not
    ß-glycosidase.
  • Group specificity the presence of certain
    group.e.g pepsin acts on peptide bonds.
  • Absolute specificity only on one substrate e.g
    urease acts only on urea.
  • Relative specificity acts on group of compound
    having same type of bonds.lipase acts on
    different triglycerides.

6
Enzyme activity
  • Enzymes simple or conjugated.
  • Simple native conformation of protein.
  • Conjugated protein holoenzyme.
  • Apoenzyme cofactor-gt holoenzyme.

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..truly amazing substances
  • Active sites special pocket where substrate
    binds (reaction occurs)
  • Catalyze reaction 10 3 TO 10 17 TIMES FASTER than
    uncatalyzed reactions
  • Are highly specific i.e. can catalyze only one
    type of reaction
  • Some enzymes require an additional chemical
    component-COFACTOR e.g. metal ions such as Zn 2,
    Fe 2, Mg 2

9
..still on properties
  • or.an organic molecule called a coenzyme e.g.
    NAD contains Niacin, FAD contains riboflavin
  • Holoenzyme - enzyme with its cofactor
  • Apoenzyme -protein portion of the holoenzyme.
  • Apoenzyme shows no biologic activity without
    appropriate cofactor

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Zymogens
  • Some enzyme are synthesized as inactive forms
    called zymogen or proenzyme e.g trypsinogen and
    pepsinogen.
  • 1. Zymogen are inactive because their catalytic
    sites are masked by a polypetide chain.
  • 2. To activate, cleavage of polypeptide chain.

12
IUBMB
  • Systematic name
  • Enzymes are divided into 6 major classes
  • Suffix ase is attached to describe the
    chemical reaction catalyzed

13
  1. Oxidoreductases
  2. Transferases
  3. Hydrolases
  4. Lyases
  5. Isomerases
  6. Ligases

14
Oxidoreductases
  • Enzymes catalyzes an oxidation-reduction reaction
    between two substrate.
  • S(oxidised)Y(reduced)? s(reduced) Y (oxidised).

15
Transferases
  • Enzyme catalyzes the transfer of a group other
    than hydrogen from one substrate to another .
  • SX Y ? S YX
  • Glucose ATP------glucokinase---------------------
    -? gucose-6-phosphate ADP.

16
Hydrolases
  • Catalyzes hydrolysis.
  • A B --HOH----? AH BOH
  • peptidase

17
Lysases
  • Catalyzes removal of group from substrate by
    mechanism other than hydrolysis.
  • Decarboxylase.
  • Pyruvate? acetladehyde CO2

18
Isomerases
  • Transfer of groups within molecules to yield
    isomeric forms

one substrate and one product are involved,
19
Ligases
  • Formation of C-C,
  • C-S,C-O and C-N bonds coupled to hydrolysis of
    high energy phosphates e.g. ATP

Often referred to as SYNTHETASE
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LOCK AND KEY HYPOTHESIS
22
Induced fit theory
23
Mechanism of enzyme action
  • Free energy of the reaction initial state to
    final state , consume energy.
  • Activation energy absorb energy (activated state
    or transition state).
  • The effect of enzyme is to decrease the energy of
    activation.

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More properties
  • Enzyme activity can be regulated i.e. activated
    or inhibited so rate of product formation suits
    demands of the cell
  • Are reusable because they aren't altered in a
    reaction

26
Factors affecting reaction velocity
  • Substrate concentration,enzymeconcentration.
  • Temperature
  • pH

27
Concentration of enzyme
  • The amount of enzyme is in a reaction is doubled
    ,the amount of substrate is converted to product
    is doubled.

28
Concentration of substrate
  • At low substrate concentration ,not all enzyme
    are saturated .So the rate of reaction will
    increase.(V max)
  • At higher substrate concentration ,all enzyme
    molecules get saturated with substrate and any
    more increase of substrate concentration will
    result in no increase.

29
Michaelis menten equation
  • It describes the dependence of reaction velocity
    on substrate concentration.
  • E S k1?ES
  • ES breaks down to give enzyme and product.
  • E S K-1 E S
  • K2 E P
  • So, K1 , K-1,and k2(rate constants)

30
Cont.
  • ViInitial velocity
  • Vmax all enzyme are involved in an ES complex.
  • s increased Substrate
  • ViVmax s
  • s (k1k2)
  • K-1

31
Cont.
  • The ratio constants k1 k2/k-1 as michaelis
    constant(km) .
  • So kmk1 k2
  • k-1 then vi Vmax
    s

  • s km
  • Michael equationkm
  • When substrate conc.s is equal to km
  • Vi vmaxs vmax s Vmax
  • s km 2S 2

32
Cont.
  • Thus km can be defined as substrate that produce
    half maximum velocity.

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Effect of temperature
  • The optimal temp. for enzyme activity in human
    body is that temp similar of that the cells(37)
  • At zero,enzyme inactive
  • The velocity is almost doubled every 10C
  • At 55-60C ,most enzyme are denatured and
    become permanenlty inactive.

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Effect of pH
  • The optimal pH activity is that pH at which the
    enzyme acts maximaly.
  • Above and below, the reaction decline.
  • Each enzyme has has its own optimal pH.e.g
    pancreatic lipase 7.5
  • Extream of pH leads to denaturation.

37
Enzyme activators
  • To activate the enzyme
  • Metal ions
  • Chloride ions which activates salivary amylase
    and calcium ions which activate blood clotting
    enzymes.
  • Zymogen needs other enzyme for activation

38
Inhibition of enzyme activity
  • Any substance that can diminish the velocity of
    an enzyme-catalyzed reaction-INHIBITOR
  • Is Reversible (through non-covalent bonds) or
    Non-reversible (through covalent bonds)
  • TYPES
  • Competitive reversible binding to the same site
    for the substrate and competes actively for the
    site.

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Methotrexate
A competitive inhibitor of dihydrofolate
reductase - role in purine pyrimidine
biosynthesis
Used to treat cancer
41
  • statin drugs competitively inhibit 1st committed
    step in cholesterol synthesis catalyzed by HMG
    CoA Reductase e.g. latorvastatin (Lipitor)-?
    plasma cholesterol levels.
  • Non-competitive inhibitor and substrate bind _at_
    diff sites. either free enzyme or ES complex and
    prevents reaction from running e.g. lead
    inhibiting ferrochelatase
  • Enzyme inhibitors can be used as drugs e.g.
    Penicillin, amoxicillin, ACE inhibitors

42
Allosteric regulation of enzyme activity
  • allosteric enzyme generally catalyze the
    irreversible steps in metabolic pathways.
  • Allosteric mean other site,they bind
    non-covalently at a sit other than active site.
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