The Electron Transport System (ETS) The ETS must generate a hydrogen gradient (proton motive force) in order to power the enzyme ATP synthase to produce ATP. This is the process of chemiosmosis/oxidative phosphorylation. 1. Below is a representation of the inner and outer membrane of a mitochondrian. You will complete the drawing as instructed. A. Draw several protons (H+) where they would accumulate in the mitochondrian to form a gradient. B. Draw an arrow showing the direction the H+ would flow to power ATP synthase. C. Fill in the equation blanks in the text box. This describes the activity of ATP synthase.

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
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answer #1, A-C

The Electron Transport System (ETS)
The ETS must generate a hydrogen gradient (proton motive force) in order to power the enzyme
ATP synthase to produce ATP. This is the process of chemiosmosis/oxidative phosphorylation.
1. Below is a representation of the inner and outer membrane of a mitochondrian. You will complete
the drawing as instructed.
A. Draw several protons (H+) where they would accumulate in the mitochondrian to form a gradient.
B. Draw an arrow showing the direction the H+ would flow to power ATP synthase.
C. Fill in the equation blanks in the text box. This describes the activity of ATP synthase.
OOOO
CO
୦୦୦୦୦
000
0000
0000
›Moooooooo
00000
0000
00
pooooooo
ATP synthase activity
Transcribed Image Text:The Electron Transport System (ETS) The ETS must generate a hydrogen gradient (proton motive force) in order to power the enzyme ATP synthase to produce ATP. This is the process of chemiosmosis/oxidative phosphorylation. 1. Below is a representation of the inner and outer membrane of a mitochondrian. You will complete the drawing as instructed. A. Draw several protons (H+) where they would accumulate in the mitochondrian to form a gradient. B. Draw an arrow showing the direction the H+ would flow to power ATP synthase. C. Fill in the equation blanks in the text box. This describes the activity of ATP synthase. OOOO CO ୦୦୦୦୦ 000 0000 0000 ›Moooooooo 00000 0000 00 pooooooo ATP synthase activity
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