introduction to metabolism (2).ppt
TRANSCRIPT
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INTRODUCTION TO METABOLISM
Lourdes L. Balcueva,M.D.
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General Objective:
To explain thoroughly how cells carry out and regulate complex reaction sequences.
SPECIFIC OBJECTIVES: 1. To be able to differentiate between anabolic and catabolic pathways. 2. To be able to explain briefly how carbohydrates, lipids and proteins are metabolized 3. To be able to correlate relationships between each pathways.
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METABOLISM- entire network of chemical reactions carried out by living cells.
- living cells carry out thousands of reactions simultaneously;each reaction sequence is controlled so that unwanted accumulations or deficiencies of intermediate products do not occur
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Metabolism includes:1. interconversion of chemical compounds in the body2. pathways taken by molecules3. interrelationships between the pathways4. regulating mechanisms
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Metabolism can be divided into 2 categories:
.1.Catabolism- process related to
degradation of complex substances to
liberate smaller molecules and energy.
2. Anabolism- processes concerned
primarily with synthesis of complex
organic molecules needed for cell
maintenance, growth and reproduction.
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3. Amphibolic- act as links between anabolism and catabolism; they are at the crossroad between the 2 pathways.
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Intermediary Metabolism- applied to reactions involving the low molecular weight molecules that are metabolites in
of the degradation or biosynthesis of biopolymers.
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Energy metabolism:
Part of intermediary metabolism consisting of pathways that store or generate metabolic energy.
Most organisms derive both the raw materials and the energy for biosynthesis from organic fuel molecules such as glucose.
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Metabolic Pathways
Sequences of reactions that include the reactants, intermediates,products and the enzymes involved.
- 4 major groups of biomolecules whose metabolic pathways are considered separately:
1. carbohydrates 3. proteins
2. fats 4. nucleotides
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Fed State- glucose is the major fuel; respiratory quotient- ratio of CO2 produced to oxygen consumed
insulin-controls uptake of glucose in muscle cell and adipose tissue
GLUT 4- glucose transporter in muscles and adipose tissues; responds to insulin secretion by migration to plasma membrane Liver and pancreas- independent of insulin
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Glucokinase- liver enzyme W/ high Km but low affinity for glucoseGlucose 6-phosphatase- liver enzyme that hydrolyses G6PO4 release glucose into the blood
Erythrocytes- completely dependent on glucose for fuel (anaerobic glycolysis and pentose phosphate pathway Brain- uses mostly glucose for fuel; also some ketone bodies
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Glucose + 6 O2
E
E
E
E
E
6 CO2 + 6 H2O
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Reasons for multistep pathway:1. Limited reaction- specificity of enzymes; each active site catalyzes only a single step of the pathway2. To control energy input and output – energy flow is mediated by energy donors and acceptors
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3. Catabolism of metabolic fuels yield 3 types of compounds that mediate the release of energy: 1) acetyl CoA 2) nucleoside triphosphate (ATP) 3) reduced coenzymes (NADH,FADH) 4. Some compounds can be substrates or products of more than 1 enzyme so they can have 2 or more metabolic functions.
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5. To establish control points:
- balance of energy supply and
demand in living cells
- ability to respond to internal
signals or change in the
environment
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Metabolic Regulation
Most pathways are irreversible under physiologic conditions
When a metabolite enters the pathway each step occurs in sequence w/out backing up or wasting cellular material or
energy
Reactions are regulated so as to proceed in only 1 direction
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Patterns of Metabolic Regulation
1. Allosteric modification a.. Feedback inhibition-when the product
controls the rate of its own synthesis b.. Feedforward activation- when a metabolite produced early in the pathway activates an enzyme that catalyzes a reaction further down the pathway.
A B C D E P
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2. covalent modification- alters catalytic rate by attachment to some grp. By a covalent bond (usually a phosphate group) phosphorylation: - activates enzymes regulating catabolic pathways - inhibits enzymes regulating anabolic pathways - catalyzed by protein kinases dephosphorylation: - inhibits enzymes regulating catabolic pathways - activates enzymes regulating anabolic pathways - catalyzed by protein phosphatases
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3. Supply of substrate
ATP or ADP
4. Hormones
insulin
glucagon
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