Disco7notes - 1 Disco#7 Notes Oxidation-Reduction Reactions(my method to calculate E E = E e acceptor E e donor E=.816.324 =.816.324 = 1.14

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1 Disco #7 Notes Oxidation-Reduction Reactions (my method to calculate Δ E’˚) Δ E’˚= -.197 -(-.320) = -.197 +.320 = +.123 Overall Reactions Glycolysis : Glucose + 2ATP + 2NAD + + 4ADP + 2Pi --> 2Pyruvate + 2ADP + 4ATP + 2NADH + 2H + + 2H 2 O Net Energy Production: 2ATP, 2NADH Function: Produce ATP, pyruvate for further reactions Gluconeogenesis : 2 Pyruvate + 4ATP + 2GTP + 2NADH + 2H + + 4H 2 O --> glucose + 4ADP + 2GDP + 6Pi + 2NAD + Net Energy Use: 4ATP, 2GTP, 2NADH Function: Produce glucose in the liver for use in other tissues (ex. brain) Pentose Phosphate : Glucose-6-Phosphate + 2NADP + + H 2 O --> Ribose-5-Phosphate + 2NADPH + 2H + + CO 2 Net Energy Production: 2NADPH Function: 1) Regenerate NADPH for anabolism (biosynthesis) 2)Produce a 5C sugar (Ribose-5-Phosphate) which can be utilized for the production of RNA, DNA, ATP, NADH, FADH 2 , Coenzyme A Metabolic Regulation
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This note was uploaded on 05/07/2009 for the course MCB 58168 taught by Professor Thorner during the Spring '09 term at University of California, Berkeley.

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Disco7notes - 1 Disco#7 Notes Oxidation-Reduction Reactions(my method to calculate E E = E e acceptor E e donor E=.816.324 =.816.324 = 1.14

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