Glycogen Metabolism (Glycogenesis)

Slides:



Advertisements
Similar presentations
Glycogen metabolism. Glycogen is homopolysaccharide formed of branched α-D- GLUCOSE units (α1,4and α1,6) each branch is made of 6-12 glucose units, at.
Advertisements

TRANSPORT OF MONOSACCARIEDS DR SAMEER FATANI. TRANSPORT OF MONOSACCHARIDES Digestion of di- and polysaccharides results in the following MONOSACCHARIDES:
Glycogen Metabolism Copyright © by Joyce J. Diwan. All rights reserved. Molecular Biochemistry I.
Lecture # 6 Glycogen Mobilization: Glycogenolysis
Glycogen metabolism. The metabolism of glycogen in animals Glycogenesis: formation of glycogen (de novo or enlarge) Glycogenolysis: mobolizing glycogen.
CARBOHYDRATE METABOLISM BY DR. GAMAL GABR Dr. Gamal Gabr, College of Pharmacy.
Glycogen metabolism.
DENTAL BIOCHEMISTRY 2015 Lecture 11 PENTOSE PHOSPHATE PATHWAY AND GLYCOGEN METABOLISM Michael Lea.
SEHS Topic 3.2Carbohydrate and Fat Metabolism
Dr. Samah Kotb Nasr Eldeen. GLYCOGEN CATABOLISM CHAPTER 4.
Review: can you… Explain how Carbs are digested & absorbed Draw the steps involved in Glycolysis Compare and contrast aerobic respiration to two different.
Glycogen Metabolism Reducing end.
Glycogen Metabolism Dr. Tarek A Salem Biochemistry Qassim University College of Medicine.
Biochemistry department
Professor of Biochemistry Glycogen metabolism
Glycogen Metabolism.
2 Fuel for Exercising Muscle: Metabolism and Hormonal Control chapter.
BIOC/DENT/PHCY 230 LECTURE 7. Fed state characterised by: o increased plasma concentration of fuel molecules o increased rate of uptake of fuel molecules.
Respiratory chain and oxidative phosphorylation +
· It is the storage from of glucose in animals
Glycogen metabolism. Glycogen is homopolysaccharide formed of branched α-D- GLUCOSE units (α1,4and α1,6) each branch is made of 6-12 glucose units, at.
Type 0 Type I Glycogen Storage Diseases Type IV Type VII Type III.
Glycogen Metabolism. Glycogen is a polymer of glucose residues linked by   (1  4) glycosidic bonds, mainly   (1  6) glycosidic bonds, at branch.
Structure of glycogen * Glycogen: branched-chain homopolysaccharide made of α-D- glucose linked by α-1,4 linkage. After every 8-10 glucose residues there.
Glycogen Metabolism By Dr. Reem M. Sallam, MD, MSc, PhD Clinical Chemistry Unit Department of Pathology College of Medicine, King Saud University.
Glycogen Metabolism.
LEHNINGER PRINCIPLES OF BIOCHEMISTRY
Glycogen Metabolism. What is the importance of glycogen? needed to maintain blood glucose levels Where is glycogen stored? liver muscle.
UNDERSTANDING METABOLISM Dr. Ayisha Qureshi Assistant Professor, MBBS, Mphil.
GLYCOGEN METABOLISM Dr Vivek Joshi, MD.
Biosynthesis of carbohydrate polymers Starch in plants, glycogen in vertebrates These polymerization reactions utilize sugar nucleotides as activated substrates.
GLYCOGEN METABOLISM 1. Glycogen Structure Most of the glucose residues in glycogen are linked by  -1,4-glycosidic bonds. Branches at about every tenth.
INTER 111: Graduate Biochemistry. Gluconeogenesis is also major component of normal metabolism - in sleep, 35-70% blood glucose supplied by gluconeogenesis.
Homeostasis of blood sugar, breathing and blood pressure
Metabolism of Carbohydrates
Glycogen Metabolism Dr. Reem M. Sallam, MD, MSc, PhD By
10-2 Glycogen (starch) metabolism Figures: Stryer-5ed; chapter: 21 Lehninger-4ed; chapters: 7, 15, 23.
Regulating blood glucose levels
Glycogen metabolism ط Glycogen synthesis (Glycogenesis) ط Steps involved, Key enzyme ط Glycogen degradation (Glycogenolysis) ط Steps involved, Key enzyme.
Dr. S.Chakravarty MD. Points to be covered-  Introduction  Biomedical importance  Glycogen Synthesis- Glycogenesis  Regulation of glycogenesis  Glycogen.
GLYCOGEN METABOLISM Learning objectives: Describe composition and glycosidic bonds in glycogen Describe the biochemical pathway of glycogen synthesis Describe.
Respiratory chain and oxidative phosphorylation 1.
METABOLISM OF CARBOHYDRATES: SYNTHESIS AND DEGRADATION OF GLYCOGEN
CHAPTER 2 METABOILISM OF CARBOHYDRATE. 1. Coversion into Glycogen and degradation i) Glycogenesis in which the excess glucose is converted into glycogen.
Glycolysis & the Oxidation of Pyruvate Glycolysis, the major pathway for glucose metabolism, occurs in the cytosol of all cells. It is unique in that it.
Regulation of Glycogen Metabolism
Glycogen Mobilization: Glycogenolysis
Studing of biosynthesis and catabolism of glycogen. Regulation of glycogen metabolism.
GLYCOGEN METABOLISM DR. A. TARAB DEPT. OF BIOCHEMISTRY HKMU.
Glycogen Metabolism Dr. Samah Kotb 2015 Cellular Biochemistry and Metabolism2 (CLS 333)
Endocrine Block Glucose Homeostasis Dr. Usman Ghani.
22.6 Glycogen Synthesis and Degradation
BCH 447- Metabolism: Mid term date: Wed 9/2/ /11/2017
Glucose Homeostasis By Dr. Sumbul Fatma.
Chapter 7: Metabolism The Basics Glycolysis TCA Fat Metabolism
Glycogen Metabolism Glycogenolysis: catabolism of glycogen.
Glycogen Metabolism By Dr. Amr S. Moustafa, MD, PhD.
Glycogen metabolism.
22.7 Gluconeogenesis: Glucose Synthesis
Carbohydrate Metabolism Glycogen Metabolism
GLYCOGEN METABOLISM.
By Dr. Dipendra Raj Pandeya, PhD Assistant Professor Department of Clinical Laboratory Science College of Applied Medical Sciences Al Jouf University.
Glycogen metabolism.
How Cells Obtain Energy from Food
Glycogen Metabolism Clinical Chemistry Unit Department of Pathology
Chapter 5: Cell Respiration & Metabolism.
Glycogen Metabolism Reducing end.
GLYCOGEN METABOLISM.
Glycogen Metabolism Clinical Chemistry Unit Department of Pathology
Glycogen Metabolism Nilansu Das Dept. of Molecular Biology Surendranath College.
Presentation transcript:

Glycogen Metabolism (Glycogenesis)

Learning Objectives To learn about the storage form of Glucose To describe how glucose is converted into its storage form i.e. Glycogen To discuss the regulation of this process

Glycogen Also known as Animal Starch Storage form of glucose (liver & muscle) Readily available source of hexose units. Average glycogen molecule contains 10,000 – 60,000 glucose molecules.

Glycogen Glycogen is stored in the cytosol & endoplasmic reticulum as granules (-particles) (as in muscles). Each -particle is an individual glycogen molecule. -particles aggregate to form a larger particle (-particle) (as in liver) Storage granules contain enzymes both for glycogenesis and glycogenolysis

Glycogen Liver Glycogen: (Up to 6%  70-80g) is used to maintain the blood glucose level between meals. After 12-18 hours fasting, liver is depleted of glycogen.

Glycogen Muscle Glycogen: (Up to 1%  250g) is used as source of glucose for muscle itself, and cannot directly contribute to blood glucose level.

Metabolism of Glycogen Two processes Glycogenesis Synthesis of glycogen from glucose Glycogenolysis Breakdown / degradation of glycogen into glucose Both processes are separate metabolic pathways having only one enzyme in common namely, phosphoglucomutase Both these processes are reciprocally regulated Site – liver, muscle (cytosol)

Metabolism of Glycogen Glycogen Storage Diseases (Glycogenoses): Inherited disorders due to deficiency or absence of enzyme(s) involved in glycogenesis or glycogenolysis – leading to deficient metabolism or deposition of abnormal form of glycogen  muscular weakness  even death.

Glycogenesis Requirements Glucose molecules Glycogen primer and glycogenin Enzymes ATP, UTP & Mg++ Glycogen Primer Synthesized by glycosylation (by UDPGlc) of tyrosine residue on the backbone of protein primer, glycogenin.

Reactions of Glycogenesis

Also known as Amylo [1 4]  [1 6]-transglucosidase

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.