1. If glucose was no longer available, lactic acid fermentation activity would: a. decrease b. increase c. remain the same 2. If glucose was no longer available, pyruvate processing activity would: a. decrease b. increase c. remain the same 3. If glucose was no longer available, citric acid cycle activity would: a. decrease b. increase c. remain the same 4. If glucose was no longer available, electron transport activity chain would: a. decrease b. increase c. remain the same 5. Select the correct answer to fill in the blank. If glucose was no longer available, Glycolysis would not produce (__________) to fuel pyruvate processing a. pyruvate b. acetyl-CoA 6. Select the correct answer to fill in the blank. If glucose was no longer available, pyruvate processing would not produce (__________) to fuel the citric acid cycle, a. acetyl-CoA b. CO2 7. Select the correct answer to fill in the blank. If glucose was no longer available, the citric acid cycle would not enable (__________) a. fatty acid metabolism b. CO2 8. Select the correct answer to fill in the blank. If glucose was no longer available, the electron transport chain would be (__________) and would not regenerate NAD+ and FAD+ nor supply electrons for the synthesis of ATP. a. inactive b. active
1. If glucose was no longer available, lactic acid fermentation activity would: a. decrease b. increase c. remain the same 2. If glucose was no longer available, pyruvate processing activity would: a. decrease b. increase c. remain the same 3. If glucose was no longer available, citric acid cycle activity would: a. decrease b. increase c. remain the same 4. If glucose was no longer available, electron transport activity chain would: a. decrease b. increase c. remain the same 5. Select the correct answer to fill in the blank. If glucose was no longer available, Glycolysis would not produce (__________) to fuel pyruvate processing a. pyruvate b. acetyl-CoA 6. Select the correct answer to fill in the blank. If glucose was no longer available, pyruvate processing would not produce (__________) to fuel the citric acid cycle, a. acetyl-CoA b. CO2 7. Select the correct answer to fill in the blank. If glucose was no longer available, the citric acid cycle would not enable (__________) a. fatty acid metabolism b. CO2 8. Select the correct answer to fill in the blank. If glucose was no longer available, the electron transport chain would be (__________) and would not regenerate NAD+ and FAD+ nor supply electrons for the synthesis of ATP. a. inactive b. active
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,...
Related questions
Question
1. If glucose was no longer available, lactic acid fermentation activity would:
a. decrease
b. increase
c. remain the same
2. If glucose was no longer available, pyruvate processing activity would:
a. decrease
b. increase
c. remain the same
3. If glucose was no longer available, citric acid cycle activity would:
a. decrease
b. increase
c. remain the same
4. If glucose was no longer available, electron transport activity chain would:
a. decrease
b. increase
c. remain the same
5. Select the correct answer to fill in the blank. If glucose was no longer available, Glycolysis would not produce (__________) to fuel pyruvate processing
a. pyruvate
b. acetyl-CoA
6. Select the correct answer to fill in the blank. If glucose was no longer available, pyruvate processing would not produce (__________) to fuel the citric acid cycle,
a. acetyl-CoA
b. CO2
7. Select the correct answer to fill in the blank. If glucose was no longer available, the citric acid cycle would not enable (__________)
a. fatty acid metabolism
b. CO2
8. Select the correct answer to fill in the blank. If glucose was no longer available, the electron transport chain would be (__________) and would not regenerate NAD+ and FAD+ nor supply electrons for the synthesis of ATP.
a. inactive
b. active
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