Enzyme kinetics & Michaelis-Menten Equation Abdul Rehman Abbasi MSc Chemistry Semester – I Preston University Isb.

Slides:



Advertisements
Similar presentations
Enzyme kinetics -- Michaelis Menten kinetics
Advertisements

Enzyme Kinetics C483 Spring 2013.
Biochemistry 2/e - Garrett & Grisham Copyright © 1999 by Harcourt Brace & Company Chapter 14 Enzyme Kinetics to accompany Biochemistry, 2/e by Reginald.
Biochemistry 2/e - Garrett & Grisham Copyright © 1999 by Harcourt Brace & Company Enzyme Kinetics.
Polymerization kinetics
Kinetics: Reaction Order Reaction Order: the number of reactant molecules that need to come together to generate a product. A unimolecular S  P reaction.
Enzymes and Coenzymes I Dr. Sumbul Fatma Clinical Chemistry Unit Department of Pathology.
Enzyme Kinetics, Inhibition, and Control
Enzyme Kinetic Zhi Hui.
Catalysis Catalysis provides an additional mechanism by which reactants can be converted to products. The alternative mechanism has a lower activation.
Chapter 7 Chem 341 Suroviec Fall I. Introduction The structure and mechanism can reveal quite a bit about an enzyme’s function.
ENZYMES A protein with catalytic properties due to its power of specific activation.
Chapter 8: Enzymes: Basic Concepts and Kinetics Copyright © 2007 by W. H. Freeman and Company Berg Tymoczko Stryer Biochemistry Sixth Edition.
General Features of Enzymes Most biological reactions are catalyzed by enzymes Most enzymes are proteins Highly specific (in reaction & reactants) Involvement.
Enzymes Have properties shared by all catalysts Enhance the rates of both forward and reverse reactions so equilibrium is achieved more rapidly Position.
Medical Biochemistry, Lecture 24
Enzyme Kinetics Chapter 8. Kinetics Study of rxn rates, changes with changes in experimental conditions Simplest rxn: S P –Rate meas’d by V = velocity.
Enzyme Kinetics and Catalysis II 3/24/2003. Kinetics of Enzymes Enzymes follow zero order kinetics when substrate concentrations are high. Zero order.
Enzyme Kinetics: Study the rate of enzyme catalyzed reactions. - Models for enzyme kinetics - Michaelis-Menten kinetics - Inhibition kinetics - Effect.
Enzyme Catalysis (26.4) Enzymes are catalysts, so their kinetics can be explained in the same fashion Enzymes – Rate law for enzyme catalysis is referred.
Chapter 12 Enzyme Kinetics, Inhibition, and Control Chapter 12 Enzyme Kinetics, Inhibition, and Control Revised 4/08/2014 Biochemistry I Dr. Loren Williams.
Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they.
ENZYME KINETIC M. Saifur R, PhD. Course content  Enzymatic reaction  Rate of Enzyme-Catalyzed Reactions  Quatification of Substrate Concentration and.
Overview of Kinetics Rate of reaction M/sec Rate constant sec -1, M -1 sec -1 Conc. of reactant(s ) Velocity of reaction 1 st order reaction-rate depends.
Enzyme kinetics Why study the rate of enzyme catalyzed reactions? Study of reaction rates is an important tool to investigate the chemical mechanism of.
CH13. Enzymes cXXkcZ2jWM&feature=related.
Chapter 6.3: Enzyme Kinetics CHEM 7784 Biochemistry Professor Bensley.
Chapter 5 (part 2) Enzyme Kinetics.
Diffusional Limitation in Immobilized Enzyme System Immobilized enzyme system normally includes - insoluble immobilized enzyme - soluble substrate, or.
May Alrashed. PhD.  Enzymes are protein catalyst that increase the velocity of a chemical reaction.  Enzymes are not consumed during the reaction they.
LECTURE 2: ENZYME KINETICS. 1.A catalyst lowers energy of activation by providing a different mechanism for the reaction. Both the rates of forward and.
Lecture 6: Kumar Measuring enzyme activity 1. Effect of pH on enzyme activity 2.
Quiz #3 Define Enzyme Classes Systematic naming –Given a reaction (including names) –Use subclass designation if appropriate Catalytic mechanisms –Define.
Rules for deriving rate laws for simple systems 1.Write reactions involved in forming P from S 2. Write the conservation equation expressing the distribution.
Chapter 5 (part 2) Enzyme Kinetics. Rate constant (k) measures how rapidly a rxn occurs AB + C k1k1 k -1 Rate (v, velocity) = (rate constant) (concentration.
Picture of an enzymatic reaction. Velocity =  P/  t or -  S/  t Product Time.
Today we will deal with two important Problems: 1.Law of Mass Action 2. Michaelis Menten problem. Creating Biomodel in Vcell we will solve these two problems.
Lecture – 5 The Kinetics of Enzyme-Catalyzed Reactions Dr. AKM Shafiqul Islam School of Bioprocess Engineering University Malaysia Perlis
Paul D. Adams University of Arkansas Mary K. Campbell Shawn O. Farrell Chapter Six The Behavior of Proteins:
ENZYME KINETICS. catalyzed uncatalyzed Formation of product is faster in the catalyzed reaction than in the uncatalyzed reaction and initially is linear.
Enzyme Catalysis SBS017 Basic Biochemistry Dr John Puddefoot
The Michaelis-Menton Model For non-allosteric enzymes, the most widely used kinetic model is based upon work done by Leonor Michaelis and Maud Menton For.
QUIZ 1.What is enzyme? 2.What is the function of enzyme? 3.What are the special characteristics of enzyme? 4.What kind of binding energy involve for the.
Lecture – 3 The Kinetics Of Enzyme-Catalyzed Reactions Dr. AKM Shafiqul Islam
Lab: principles of protein purification
Enzyme Kinetics.
ENZYMES A protein with catalytic properties due to its power of specific activation.
Process Kinetics Lecture 1 Mahesh Bule 4/27/2017
Enzymes- biological catalysts Enzymes are proteins, eg. amylase, lipase, protease Activity depends on tertiary and quaternary structure and the specificity.
Preequilibrium Approximation (26.2) Some reaction mechanisms involve intermediate reactions that are reversible – Inverse temperature dependence of the.
Enzyme Kinetics I 10/15/2009. Enzyme Kinetics Rates of Enzyme Reactions Thermodynamics says I know the difference between state 1 and state 2 and  G.
Rmax and Km (26.4) Constants from Michaelis-Menten equation give insight into qualitative and quantitative aspects of enzyme kinetics Indicate if enzyme.
R max and K m (26.4) Constants from Michaelis-Menten equation give insight into qualitative and quantitative aspects of enzyme kinetics Constants – Indicate.
Enzyme Kinetics and Inhibition Stryer Short Course Chapter 7.
Enzyme Kinetics Sadia Sayed. What is Enzyme Kinetics?  Kinetics is the study of the rates at which chemical reactions occur  Then what is Enzyme Kinetics?
Lecture 5:Enzymes Ahmad Razali Ishak
Key topics about enzyme function:
Interpretation of Michaelis Menten Equation. Michaelis-Menten  Graphically representation:
Enzyme Kinetics Enzyme Kinetics:
Enzymes Enzymes are proteins that catalyze (i.e., increase or decrease the rates of) chemical reactions. In enzymatic reactions, the molecules at the.
Enzyme Kinetics Bwahahahaha!
Enzymes.
Today we will deal with two important Problems:
Enzymes II Dr. Kevin Ahern.
Enzymes II:kinetics Dr. Nabil Bashir.
Chapter 6 CHM 341 Fall 2016 Suroviec.
The Vmax and Km values of a certain enzyme can be measured by the double reciprocal plot (i.e., the Lineweaver-Burk plot).
13 part 2 Enzyme kinetics 酵素動力學 溫鳳君0993b303 姜喆云0993b039.
(BIOC 231) Enzyme Kinetics
Presentation transcript:

Enzyme kinetics & Michaelis-Menten Equation Abdul Rehman Abbasi MSc Chemistry Semester – I Preston University Isb.

Michaelis-Menten kinetics EQUATION STEADY STATE GRAPH

 ENZYME KINETICS is the study of the chemical reactions that are catalyzed by enzymes.  In Enzyme Kinetics, The Reaction rate is measured and the effect of varying the condition of the reaction is investigated.  Studying an enzyme’s kinetics in this way we can reveal the catalytic mechanism of this enzyme. Enzyme Kinetics

 Michaelis-Menten Kinetics is one of the simplest and best know models of enzyme kinetics.  The model serves to explain how an enzyme can cause kinetic rate enhancement of a reaction and why the rate of reaction depends on the concentration of enzymes present. Michaelis-Menten Analysis

Enzyme Kinetics Equation

Here,  E = Enzymes  S = Substrate  ES = Enzyme-Substrate Complex  P = Product  K = Rate of reaction

Steady State Assumptions  To understand Michaelis- Menten kinetics, we’ll use the general enzyme reaction scheme including both backward and forward reaction i.e. E + S ↔ k−1 k1 ES → k-2 k2 E + P  The ES complex is formed by combining Enzyme E with Substrate S at rate constant k1. The ES can either dissociate to form E f (Free Enzyme) and P (Product) at rate constant k2 and k3.

Steady State Assumption  E + S ↔ k −1 k1 ES → k2 E + P  Steady State Assumption [ES] Constant  Formation of ES = Loss of ES  Rate 1 + Rate 2 = Rate -1 + Rate -2  Here Rate -2 is very Small so we will just neglect its value and we’ll get  E + S ↔ k −1 k1 ES → k2 E + P

K M & V max  K m Known as Michaelis-Menten Constant  Defined as the substrate concentration at 1/2 the maximum velocity.  V max represents the maximum velocity achieved by the system, at maximum (saturating) substrate concentrations.

Significance of K m and V max  K m is [S] at ½ V max  It is constant for a given enzyme at particular temp and pressure.  Small K m = Tight Bonding.  Large K m = Weak Bonding.  It is the measure of substrate concentration required for an effective catalysis.

Significance of K m and V max  V max is theoretical maximal velocity  Vmax is constant for a given enzyme.  To reach v max, All enzymes molecules have to be bounded by substrate.  K cat is a measure of catalytic activity  Catalytic Efficiency = K cat / K m  Allows comparison of effectiveness of an enzyme for different substrates.