ENZYMES, TYPE OF ENZYME, ENZYME SPECIFICITY INTRODUTION
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Jan 29, 2023
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About This Presentation
DEFINE ENZYMES; WHAT IS ENZYMES ; ENZYME RELATED TERM AND SIT ACTION ; APOENZYME, HOLOENZTME,PROSTHETIC GROUP, ENZYME SPECIFICITY, COFACTOR AND ITS TYPE OF ENZYME, INTRODUCTION OF ACTIVATION ENERGY, DESCRIBE STRUCTURE OF ENZYMES,
ENZYME SPECIFICITY, ENZYME ACTIVITY OF HUMAN BODY ACITION IN HUMAN B...
Slide Content
Subject Name : Pharmaceutical Chemistry-V
(Biochemistry)
Unit Name: Enzymes
Topic Name:Enzyme definition, Important terms
to understand enzymes
PREPRED BY :
DRx RAJVEER PRAJAPATI
ASST ; PROFERSSOR OR HOD
LUCKY HEALTHCARE MEDICAL AND GENREAL
STORE GHATKOPAR
(Biochemistry)
Unit Name: Enzymes
Topic Name:Enzyme definition, Important terms
to understand enzymes
PREPRED BY :
DRx RAJVEER PRAJAPATI
ASST ; PROFERSSOR OR HOD
LUCKY HEALTHCARE MEDICAL AND GENREAL
STORE GHATKOPAR
Learning Objectives:
•Define enzymes and related terms ( active
site, apoenzyme, holoenzyme, prosthetic
group, enzyme specificity).
•Co-factor and its type.
•Introduction to activation energy.
•Describe the structure of enzymes.
•Enzyme Specificity.
•Define enzymes and related terms ( active
site, apoenzyme, holoenzyme, prosthetic
group, enzyme specificity).
•Co-factor and its type.
•Introduction to activation energy.
•Describe the structure of enzymes.
•Enzyme Specificity.
Importance
•Enzymes play an important role in Metabolism, Diagnosis,
and Therapeutics.
•All biochemical reactions are enzyme catalyzed in the living
organism.
•Level of enzyme in blood are of diagnostic importance e.g. it
is a good indicator in disease such as myocardial infarction.
•Enzyme can be used therapeutically such as digestive
enzymes.
•Enzymes play an important role in Metabolism, Diagnosis,
and Therapeutics.
•All biochemical reactions are enzyme catalyzed in the living
organism.
•Level of enzyme in blood are of diagnostic importance e.g. it
is a good indicator in disease such as myocardial infarction.
•Enzyme can be used therapeutically such as digestive
enzymes.
Define enzymes (Enzymes as
Biological Catalysts)
•Enzymesare proteins that increase the rate of reaction
by lowering the energy of activation
•They catalyze nearly all the chemical reactions taking
place in the cells of the body.
•Not altered or consumed during reaction.
•Reusable
Biological Catalysts)
•Enzymesare proteins that increase the rate of reaction
by lowering the energy of activation
•They catalyze nearly all the chemical reactions taking
place in the cells of the body.
•Not altered or consumed during reaction.
•Reusable
ACTIVE SITES
•Enzyme molecules contain a special pocket or cleft called
the active sites.
•Enzyme molecules contain a special pocket or cleft called
the active sites.
Lock-and-Key Model
•In the lock-and-key model of enzyme action:
-the active site has a rigid shape
-only substrates with the matching shape can fit
-the substrate is a key that fits the lock of the
active site
This explains enzyme
specificity
This explains the loss
of activity when
enzymes denature
•In the lock-and-key model of enzyme action:
-the active site has a rigid shape
-only substrates with the matching shape can fit
-the substrate is a key that fits the lock of the
active site
This explains enzyme
specificity
This explains the loss
of activity when
enzymes denature
APOENZYME and HOLOENZYME
•The enzyme without its non protein moiety is
termed as apoenzyme and it is inactive.
•Holoenzyme is an active enzyme with its non
protein component.
•The enzyme without its non protein moiety is
termed as apoenzyme and it is inactive.
•Holoenzyme is an active enzyme with its non
protein component.
Cofactor:
•A cofactor is a non-protein chemical
compound that is bound (either tightly or
loosely) to an enzyme and is required for
catalysis.
•Types of Cofactors:
•Coenzymes.
•Prosthetic groups.
•A cofactor is a non-protein chemical
compound that is bound (either tightly or
loosely) to an enzyme and is required for
catalysis.
•Types of Cofactors:
•Coenzymes.
•Prosthetic groups.
Types of Cofactors
•Coenzyme:
The non-protein component, loosely bound to apoenzyme
by non-covalent bond.
•Examples : vitamins or compound derived from vitamins.
•Prosthetic group
The non-protein component, tightly bound to the
apoenzyme by covalent bonds is called a Prosthetic group.
•Coenzyme:
The non-protein component, loosely bound to apoenzyme
by non-covalent bond.
•Examples : vitamins or compound derived from vitamins.
•Prosthetic group
The non-protein component, tightly bound to the
apoenzyme by covalent bonds is called a Prosthetic group.
Enzyme Specificity
•Enzymes have varying degrees of specificityfor substrates
•Enzymes may recognize and catalyze:
-a single substrate
-a group of similar substrates
-a particular type of bond
•Enzymes have varying degrees of specificityfor substrates
•Enzymes may recognize and catalyze:
-a single substrate
-a group of similar substrates
-a particular type of bond
Important Terms to Understand Biochemical Nature
And Activity of Enzymes
Activation energy or Energy of Activation:
•All chemical reactions require some amount of energy to get them
started.
OR
•It is First push to start reaction.
This energy is called activation energy.
And Activity of Enzymes
Activation energy or Energy of Activation:
•All chemical reactions require some amount of energy to get them
started.
OR
•It is First push to start reaction.
This energy is called activation energy.
Reference
1.Harpersreviewofbiochemistry–Martin
2.Textbookofbiochemistry–D.Satyanarayana
3.Principlesofbiochemistry--Lehninger
4.Textbookofbiochemistry--Ramarao
5.biology.tutorvista.com/biomolecules/enzymes.html
6.www.scienceclarified.com/Vol3/Enzymes
1.Harpersreviewofbiochemistry–Martin
2.Textbookofbiochemistry–D.Satyanarayana
3.Principlesofbiochemistry--Lehninger
4.Textbookofbiochemistry--Ramarao
5.biology.tutorvista.com/biomolecules/enzymes.html
6.www.scienceclarified.com/Vol3/Enzymes
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