Q11) Consider the total breakdown of the glycogen structure below. Assuming each glycosidic linkage can be broken down completely and the resulting products are fed through glycolytic metabolism. a) If this molecule was in your muscles, how many molecules of ATP would it generate through fermentation? how many molecules of lactate? b) If the same molecule was in your liver, but was instead fueling glycolysis in your brain, how many molecules of ATP would it generate for the brain through glycolysis? c) The lactate produced in (a) is then transported back to the liver from your muscles. There, it can be re-incorporated into newly synthesized glycogen. List the steps needed for this transformation in the liver and the amount of ATP equivalents it will consume. Also, identify a signaling pathway that would trigger this re-incorporation. లంింస но но
Q11) Consider the total breakdown of the glycogen structure below. Assuming each glycosidic linkage can be broken down completely and the resulting products are fed through glycolytic metabolism. a) If this molecule was in your muscles, how many molecules of ATP would it generate through fermentation? how many molecules of lactate? b) If the same molecule was in your liver, but was instead fueling glycolysis in your brain, how many molecules of ATP would it generate for the brain through glycolysis? c) The lactate produced in (a) is then transported back to the liver from your muscles. There, it can be re-incorporated into newly synthesized glycogen. List the steps needed for this transformation in the liver and the amount of ATP equivalents it will consume. Also, identify a signaling pathway that would trigger this re-incorporation. లంింస но но
Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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Transcribed Image Text:Q11) Consider the total breakdown of the glycogen structure below. Assuming each
glycosidic linkage can be broken down completely and the resulting products are fed
through glycolytic metabolism.
a) If this molecule was in your muscles, how many molecules of ATP would it
generate through fermentation? how many molecules of lactate?
b) If the same molecule was in your liver, but was instead fueling glycolysis in your
brain, how many molecules of ATP would it generate for the brain through
glycolysis?
c) The lactate produced in (a) is then transported back to the liver from your
muscles. There, it can be re-incorporated into newly synthesized glycogen. List
the steps needed for this transformation in the liver and the amount of ATP
equivalents it will consume. Also, identify a signaling pathway that would trigger
this re-incorporation.
లంింస
но
но
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