Enzyme Phosphorylation

Slides:

Advertisements

Similar presentations

Enzyme Phosphorylation

Advertisements

Aulani "Biokimia Enzim Lanjut" Presentasi 6 Aulanni’am Biochemistry Laboratory Chemistry Department Brawijaya University ENZYME SPECIFICTY.

Aulani " Biokimia Enzim Lanjut" Presentasi 5 Basic enzyme kinetics Aulanni’am Biochemistry Laboratory Brawijaya University.

Chapter 15 Enzyme Specificity and Regulation Specificity Is the Result of Molecular Recognition Enzyme Specificity Structural specificity.

The rate of enzyme reactions can be altered during cell metabolism by a number of important methods:- 1.Proteolytic cleavage – enzymes may be kept in an.

ENZYMES: KINETICS, INHIBITION, REGULATION

Regulation and Control of Metabolism in Bacteria

Lehninger Principles of Biochemistry

Lecture 14: Regulation of Proteins 1: Allosteric Control of ATCase

Enzymes Large molecules made of various amino acids Act as catalysts to speed up reactions w/out being destroyed –Highly specific –Lowers energy of activation.

Insights into Regulation Which way does the carbon go? Ultimately, biochemistry seeks to learn how a cell behaves; how pathways of synthesis and degradation.

Lecture 8-Kumar Regulation of Enzyme Activity Regulation by modification –Proteolytic cleavage –Covalent modification –Protein-protein interaction Allosteric.

Chap 10 allosteric 10.1.

Molecular Physiology: Enzymes and Cell Signaling.

REGULATION OF ENZYME ACTIVITY

Enzymes. Definition of an enzyme Enzymeprotein Enzyme is protein catalystincrease the rate of reactions catalyst (i.e. increase the rate of reactions)

Metabolic Reactions Enzymology Catabolism Litho/Phototrophy Anabolism Microbial Metabolism.

Enzyme activity is measured by the amount of product produced or the amount of substrate consumed. The rate of the enzymatic reaction is measured by the.

Review Enzyme “constants” Reversible inhibition

Molecular Machinery Molecular basis of cell function –Structure vs. Function –Molecular mechanisms ENZYME ACTION Na + K + pump Cell Signalling.

ADVANCED HIGHER CELLS AND PROTEINS DNA, PROTEINS AND BINDING TO LIGANDS.

Chapt. 9 Regulation of Enzymes Regulation of Enzymes Student Learning Outcomes : Explain that enzyme activities must be regulated for proper body function.

Energy and Enzymes How do the right chemical reactions happen in the right place at the right time? A.P. Biology.

Enzymes: The Catalysts of Life

Slide 1 of 50 Enzymes  Enzymes are biological catalysts  Proteins  Catalyst  Lower activation energy  Increases the rate of the reaction  Affects.

Chapter 8 Metabolism. Slide 2 of 23 Overview  Cell is a CHM factory  Macromolecules are made and broken down  Cellular Respiration powers the factory.

ENZYMES - Spesificity Aulanni’am Biochemistry Laboratory Brawijaya University.

LEHNINGER PRINCIPLES OF BIOCHEMISTRY

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.

Enzymes O -CO -C Hi, Everybody! Summarize the various methods of enzyme regulation. Intended learning outcomes(ILO)

Effect of environment on enzyme activity

CHAPTER 6 AN INTRODUCTION TO METABOLISM Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section C: The Control of Metabolism.

AP Biology Chapter 8 Introduction to Metabolism. Metabolism The chemistry of life is organized into metabolic pathways. The chemistry of life is organized.

Where Effectors Bind Effector where does it bind? At the Active Site substrate product competitive inhibitor irreversible inhibitor At another site "designed.

Picture of an enzymatic reaction. Velocity =  P/  t or -  S/  t Product Time.

Regulation of enzyme activity Lecture 6 Dr. Mona A. R.

Chapter 9 Enzyme Regulation.

Section 3 Lesson 2– The Catalytic Cycle. What do enzymes do? Enzymes lower the activation energy E a required for a reaction to occur.

How are enzymes regulated?

Enzyme Catalysis 10/08/2009. Regulation of Enzymatic Activity There are two general ways to control enzymatic activity. 1. Control the amount or availability.

Glycolysis Regualtion

Unit 1 Cell and Molecular Biology Section 6 Catalysis.

Ch. 8 An Introduction to Metabolism. A organism’s metabolism is subject to thermodynamic laws The totality of an organism’s chemical reactions is called.

CHMI E.R. Gauthier, Ph.D. 1 CHMI 2227E Biochemistry I Enzymes: - Regulation.

Fundamentals of Biochemistry

Regulation of metabolism on the cellular level Vladimíra Kvasnicová.

 Spontaneous chemical reactions occur without a need for outside energy but may be very slow  Free energy: Δ G  Catalyst : a chemical agent that speeds.

Investigation of the enzymatic processes depending on the type of reaction.

CHAPTER 6 AN INTRODUCTION TO METABOLISM The Control of Metabolism 1.Metabolic control often depends on allosteric regulation 2.The localization of enzymes.

Inhibition is a process by which the enzyme activity is regulated or controlled or stopped To inhibit means to stop enzyme activity Enzyme inhibition.

Welcome to BTE 417 Presentation On Regulatory Enzymes.

Chapter 3 Enzymes. Chemical Reactions Chemical reactions: – Involve breaking of chemical bonds in reactants Requires activation energy – Making new chemical.

Enzymes and coenzymes II Dr. Sumbul Fatma Clinical Chemistry Unit Department of Pathology.

Enzyme Kinetics and Inhibition Stryer Short Course Chapter 7.

Apple Experiment Come down and get an apple and a slice of lemon. When you get back to your seat: 1. Take a big bite of your delicious apple. 2. Immediately.

20.4 Regulation of Enzyme Activity

ENZYMES: KINETICS, INHIBITION, REGULATION

Enzymes protein catalysts catalyst substrates products

Enzyme Regulation.

Enzyme Regulation I.

Molecular interactions in cells

Chemistry 501 Handout 6 Enzymes Chapter 6

Non-Michaelis-Menton Kinetics

Enzyme Regulation I Dr. Kevin Ahern.

Enzyme Regulation.

CHMI 2227E Biochemistry I Enzymes: Regulation

Section C: The Control of Metabolism

Section C: The Control of Metabolism

Section C: The Control of Metabolism

Presentation transcript:

Enzyme Phosphorylation Aulanni’am Biochemistry Laboratory Chemistry Department Brawijaya University Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 Enzyme regulation: How to control the activity of a pathway in response to the needs of the cell or body Aulani " Biokimia Enzim" Presentasi 11

Multiple ways of controlling enzyme activity Control of enzyme availability Amount of enzyme in the cell Control of enzyme synthesis Control of enzyme degradation I could add examples as I go along for these situations. E.g, start out now saying there is tissue-specific expression of the gene for phosphorylase, etc. (instead of waiting until the last slide). Location of enzyme in the cell On/off membrane Inside/outside organelle Aulani " Biokimia Enzim" Presentasi 11

Multiple ways of controlling enzyme activity Control of enzyme activity Allosteric activation or inactivation: interaction of small molecule with enzyme, but not at active site Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 “Feedback” control of metabolic pathways is often accomplished by allosteric mechanisms 1 2 3 4 5 6 A B C D E F G (Excess G) Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 Allosteric modulation of aspartate transcarbamylase, the first unique step in the biosynthesis of pyrimidines (C, T, U) Carbamoyl phosphate + aspartate ATCase N-carbamoyl aspartate CTP ATP Aulani " Biokimia Enzim" Presentasi 11

The reaction catalyzed by aspartate transcarbamoylase carbamoyl phosphate H2PO4- N-carbamoyl aspartate Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 Activity of aspartate transcarbamoylase (and many allosteric enzymes is cooperative with respect to aspartate [aspartate] v0 Sigmoid (S-shaped) curve Aulani " Biokimia Enzim" Presentasi 11

Cooperativity in enzymatic activity Multimeric enzymes Binding of S to one protomer causes change in adjacent protomer, increasing the affinity of both protomers for the substrate Aulani " Biokimia Enzim" Presentasi 11

Cooperativity of enzymatic activity: multiple states of the enzyme ELA EMA (T state) Less active Lower affinity for S (R state) More active Higher affinity for S Aulani " Biokimia Enzim" Presentasi 11

What good is cooperativity in enzymatic activity? (Same Vmax and v0 at 1/2 Vmax) Steeper slope ensures greater sensitivity to variations in substrate concentration Aulani " Biokimia Enzim" Presentasi 11

Effects of positive and negative modulators on cooperative enzymes ATP and CTP are positive and negative modulators of aspartate transcarbamoylase [substate] v0 positive negative Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 Allosteric activators and inhibitors stabilize different states of the enzyme (ATCase) ELA EMA (T state) Less active Lower affinity for S Stabilized by CTP (R state) More active Higher affinity for S Stabilized by ATP Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 Allostery is accomplished by conformational changes in ATCase and other enzymes Red: upper catalytic trimer Blue: lower catalytic trimer Green: regulatory dimers (bind ATP and CTP) Aulani " Biokimia Enzim" Presentasi 11

Other about allosterism Allosteric modulators can change Km or Vmax or both Not all allosteric enzymes are cooperative Allosteric modulation renders an enzyme sensitive to metabolites other than its own substrates and products (e.g., ATCase is sensitive to endproducts of purine and pyrimidine biosynthesis). Aulani " Biokimia Enzim" Presentasi 11

Multiple ways of controlling enzyme activity Control of enzyme activity Allosteric activation or inactivation: interaction of small molecule with enzyme, but not at active site Interaction with a large molecule, usually another protein Example: Thrombin and thrombomodulin I said it’ not clear if you call this allosteric or not. Aulani " Biokimia Enzim" Presentasi 11

Modification of thrombin activity by thrombomodulin Thrombomodulin (on cell surface of vascular endothelium) Decreases activity of thrombin toward fibrinogen Increases ability of thrombin to activate Protein C, an inhibitor of clotting Aulani " Biokimia Enzim" Presentasi 11

> Modification of thrombin activity by thrombomodulin clot Thrombin Protein C Thrombomodulin Protein C zymogen (contains Gla) Aulani " Biokimia Enzim" Presentasi 11

Multiple ways of controlling enzyme activity Control of enzyme activity Allosteric activation or inactivation Interaction with another protein Reversible covalent modification Example: phosphorylation Aulani " Biokimia Enzim" Presentasi 11

Modulation by phosphorylation kinase ATP ADP phosphatase H2O Pi PO32- Enzyme X (active) Enzyme X (inactive) Phosphorylation may also result in inactivation, depending on the enzyme Aulani " Biokimia Enzim" Presentasi 11

Multiple ways of controlling enzyme activity Control of enzyme activity Allosteric activation or inactivation Interaction with another protein Reversible covalent modification Irreversible modification Example: zymogen activation Any other cool examples of irreversible modification? Maybe a ubiquitin-dependent degradation? Aulani " Biokimia Enzim" Presentasi 11

Multiple ways of controlling a single enzyme: Glycogen phosphorylase Gene expression Multiple genes, tissue-specific expression Rates transcription vary Protein activity Allosteric control Reversible phosphorylation Aulani " Biokimia Enzim" Presentasi 11

Aulani " Biokimia Enzim" Presentasi 11 to be continued . Aulani " Biokimia Enzim" Presentasi 11