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Chemiosmotic Hypothesis MCQ - Practice Questions with Answers

Edited By admin | Updated on Sep 18, 2023 18:34 AM | #NEET

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  • Chemiosmotic Hypothesis: Proton Gradient is considered one of the most asked concept.

  • 9 Questions around this concept.

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In a chloroplast the highest number of protons are found in:

The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that Adenosine Triphosphate (ATP) is formed because

 

Concepts Covered - 2

Chemiosmotic Hypothesis: Proton Gradient
  • The chemiosmotic hypothesis has been put forward to explain the mechanism of ATP synthesis.
  • ATP synthesis is linked to the development of a proton gradient across a membrane.
  • During photosynthesis, these membranes are thylakoid membranes.
  • The proton accumulation is towards the inside of the membrane, i.e., in the lumen of granum.

What causes proton gradient across the membrane?

  • Since the splitting of the water molecule takes place on the inner side of the membrane, the protons or hydrogen ions that are produced by the splitting of water accumulate within the lumen of the thylakoids.
  • As electrons move through the photosystems, protons are transported across the membrane. 
  • This happens because the primary acceptor of the electron which is located towards the outer side of the membrane transfers its electron not to an electron carrier but to an H carrier. 
  • Hence, this molecule removes a proton from the stroma while transporting an electron.
  • When this molecule passes on its electrons to the electron carrier on the inner side of the membrane, the proton is released into the inner side or the lumen side of the membrane.
  • The NADP reductase enzyme is located on the stromal side of the membrane. Along with electrons that come from the acceptor of electrons of PS I, protons are necessary for the reduction of NADP+ to NADPH.H+. These protons are also removed from the stroma.
  • Hence, within the chloroplast, protons in the stroma decrease in number, while in the lumen, there is an accumulation of protons. This creates a proton gradient across the thylakoid membrane as well as a measurable decrease in pH in the lumen.
Chemiosmotic Hypothesis: Use of Proton Gradient
  • This gradient is important because it is the breakdown of this gradient that leads to the synthesis of ATP. 
  • The gradient is broken down due to the movement of protons across the membrane to the stroma through the transmembrane channel of the CF0 of the ATP synthase.
  • The ATP synthase enzyme consists of two parts: one called the CF0  is embedded in the thylakoid membrane and forms a transmembrane channel that carries out facilitated diffusion of protons across the membrane. 
  • The other portion is called CF1 and protrudes on the outer surface of the thylakoid membrane on the side that faces the stroma. 
  • The breakdown of the gradient provides enough energy to cause a conformational change in the CF1 particle of the ATP synthase, which makes the enzyme synthesize several molecules of energy-packed ATP.
  • Chemiosmosis requires a membrane, a proton pump, a proton gradient, and ATP synthase. 
  • Energy is used to pump protons across a membrane, to create a gradient or a high concentration of protons within the thylakoid lumen. 
  • ATP synthase has a channel that allows the diffusion of protons back across the membrane; this releases enough energy to activate the ATP synthase enzyme that catalyzes the formation of ATP.
  • Along with the NADPH produced by the movement of electrons, the ATP will be used immediately in the biosynthetic reaction taking place in the stroma, responsible for fixing CO2 and synthesis of sugars.
     

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Chemiosmotic Hypothesis: Proton Gradient
Chemiosmotic Hypothesis: Use of Proton Gradient

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Reference Books

Chemiosmotic Hypothesis: Proton Gradient

Elementary Biology Vol 1

Page No. : U4-99

Line : 15

Chemiosmotic Hypothesis: Use of Proton Gradient

Elementary Biology Vol 1

Page No. : U4-100

Line : 9

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