Biochemistry
Biochemistry
6th Edition
ISBN: 9781337359573
Author: Reginald H. Garrett; Charles M. Grisham
Publisher: Cengage Learning US
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Chapter 15, Problem 8P
Interpretation Introduction

(a)

Interpretation :

The relative glycogen phosphorylase activity when neither AMP nor ATP is present should be estimated from figure 15.15.

Introduction:

Glycogen phosphorylase is an enzyme which catalyzes the rate limiting step in glucogenolysis. It converts glycogen in animals into glucose-1-phosphate. ATP and glucose-6-phosphate act as allosteric inhibitors for glycogen phosphorylase because they reduce the affinity of glycogen phosphorylase for its substrate, inorganic phosphate. ATP is the end product of the glycogen phosphorylase enzyme. And glucose-1-phosphate released is readily converted into glucose-6-phosphate and participate in ATP production pathways. AMP acts as an allosteric activator for glycogen phosphorylase.

Interpretation Introduction

(b)

Interpretation:

The relative glycogen phosphorylase activity when AMP is present should be estimated from the figure 15.15.

Introduction:

Glycogen phosphorylase is an enzyme which catalyzes the rate limiting step in glucogenolysis. It converts glycogen in animals into glucose-1-phosphate. ATP and glucose-6-phosphate act as allosteric inhibitors for glycogen phosphorylase because they reduce the affinity of glycogen phosphorylase for its substrate, inorganic phosphate. ATP is the end product of the glycogen phosphorylase enzyme. And glucose-1-phosphate released is readily converted into glucose-6-phosphate and participate in ATP production pathways. AMP acts as an allosteric activator for glycogen phosphorylase.

Interpretation Introduction

(c)

Interpretation :

The relative glycogen phosphorylase activity when ATP is present should be estimated from the figure 15.15.

Introduction:

Glycogen phosphorylase is an enzyme which catalyzes the rate limiting step in glucogenolysis. It converts glycogen in animals into glucose-1-phosphate. ATP and glucose-6-phosphate act as allosteric inhibitors for glycogen phosphorylase because they reduce the affinity of glycogen phosphorylase for its substrate, inorganic phosphate. ATP is the end product of the glycogen phosphorylase enzyme. And glucose-1-phosphate released is readily converted into glucose-6-phosphate and participate in ATP production pathways. AMP acts as an allosteric activator for glycogen phosphorylase.

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