The image below shows part of a key catabolic pathway. If an individual had a deficiency for theenzyme required at point "X", would they still be able to produce a high rate of ATP during verystrenuous exercise?ATP inGlucosePrep.phasePayoffphaseļ-MacRocPyruvate →→→ Anaerobic fate of pyruvateATP out▬ODOF 1-HP01 --Select one:O a. No, because NAD* will not be regenerated by lactate dehydrogenase. The reduction of NAD+ to NADH is a required stepduring the payoff phase of glycolysis.O b.No, because lactate dehydrogenase is required for the continued recycling of NAD+ to NADH, thus allowing glycolysis tocontinue.Oc. Yes, because pyruvate dehydrogenase is necessary to produce acetyl-CoA, which under these conditions will feed into thecitric acid cycle.Od.Yes, because this enzyme is responsible for the substrate-level phosphorylation necessary to maintain the ATP input for thepreparatory phase of glycolysis.DEReport question issue Notes +14:12 (CE

During normal condition, when ATP demand and oxygen intake is normal, glucose is broken down into…

Answered: The image below shows part of a key…

Biochemistry

9th Edition

ISBN:9781319114671

Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Chapter1: Biochemistry: An Evolving Science

Section: Chapter Questions

Problem 1P

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Plants have alternate ways of getting respiratory substrates to the point of triose-phosphate of glycolysis. After that, plants have alternative steps during the carbon oxidation phase of glycolysis that affect whether or not ATP is synthesized during glycolysis. What are these various alternatives before and after triose-phosphate? Why are they used? How do they affect the ATP use and yield from glycolysis?
Calculate the amount of ATP molecules generated from the complete metabolism of 1 molecule of maltose, assuming all electrons of cytosolic NADH are transferred through the dihydroxyacetone phosphate/glycerol 3-phosphate shuttle
Calculate the total amount of ATP’s that can be produced by the Krebs Cycle and the resultant oxidative phosphorylation, if 3 glucose molecules are metabolised. Do not include glycolysis and acetyl CoA conversion.
multiple choice
Tell how many ATPs result from from oxidative phosphorylation of one NADH; tell how many ATPs result from oxidation phosphorylation of one FADH2.
Match group A with group B: Group A Group B ATP synthase that makes ATP, is a Pyruvate part of Transfers the electrons from cyt c to O2 NADH Both glycogen synthesis and glycogen +NAD breakdown share the metabolite Glucose converted into two of these ТСА суcle molecules a-ketoglutarate dehydrogenase ETC inhibited by The central catabolic pathway is Ubiquinone Cytochrome c oxidase Glucose-1- phosphate
Draw the mechanism for the complete oxidation of a C-7 saturated fatty acid. Indicate the yield of ATP equivalents assuming there are 8 c-subunits in the ATP synthase, and NADPH = NADH.
Consider the following types of cell and their respective conditions: i. a liver cell with non-functional malate-aspartate shuttle* ii. a skeletal muscle cell lacking oxygen iii. a cell with ATP synthase deficiency* iv. a yeast cell undergoing fermentation but with defective alcohol dehydrogenase (hint: In yeast, alcohol dehydrogenase is responsible for shuttling reducing equivalents of cytosolic NADH to the mitochondria.)* V. a brain cell with non-functional Complex II of the electron transport chain* * Assume that the deficiency is isolated and will not influence the function of other respiration components
Which of the following conditions must be met within the cell In order for the enzyme pyruvate carboxylase to be activated? Select all that apply. NADP+ levels must be high Phosphofructokinase must be in the activated R-state Beta-oxidation of fatty acids happening in the mitochondrial matrix AMP levels must be high ATP levels must be high
In glycolysis, pyruvate kinase produces what high energy product and what low energy product?
What type of regulation would be expected when anaerobic metabolism is occurring in the muscle? Select all that apply. O Activation of pyruvate dehydrogenase kinase O Increased levels of calcium to activate pyruvate dehydrogenase phosphatase O Phosphorylation of pyruvate dehydrogenase O Inhibition of pyruvate dehydrogenase complex O Increased levels of NADH to activate citrate synthase O Increased levels of NADH to inhibit alpha-ketogluterate dehydrogenase complex O Increased levels of acetyl CoA to activate pyruvate carboxylase for gluconeogenesis
When glucose is used as the starting material for glycolysis there is a net gain of +2 ATP per glucose. When glycogen is used as the starting material for glycolysis there is a net gain of +3 ATP per glucose. Please explain the difference in the net gain of ATP between glucose versus glycogen as the starting material. Enter your answer here

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