9. Dehydration Of 2-PGA to Form PEPA - Deepstash
9. Dehydration Of 2-PGA to Form PEPA

9. Dehydration Of 2-PGA to Form PEPA

The 2-phosphoglyceric acid hence obtained is now dehydrated to form phosphoenolpyruvate acid. This activity is under the control of enzyme enolase and result in the removal of a water molecule from the substrate.

10

50 reads

CURATED FROM

IDEAS CURATED BY

Important for studies.

Similar ideas to 9. Dehydration Of 2-PGA to Form PEPA

8. Conversion Of 3-PGA TO 2-PGA

8. Conversion Of 3-PGA TO 2-PGA

The 3-phosphoglyceric acid hence obtained is now mutated to form 2-phosphoglyceric acid by the activity of enzyme mutase.

The position of phosphate is changed from 3rd carbon to 2nd carbon for the formation of Phosphoenolpyruvate.

10. Formation of PYRUVATE

10. Formation of PYRUVATE

The phosphoenolpyruvate obtained is now under the activity of enzyme pyruvatekinase and is converted into pyruvic acid along with the formation of an ATP as a premium-product.

  • The highly energetic phosphate bond of PEPA is transferred to the ADP molecule and results in ATP formation.

7. Substrate Level Phosphorylation In 1, 3BPG

7. Substrate Level Phosphorylation In 1, 3BPG

The 1,3-BPG hence obtained from the partial oxidation of G3P undergoes substrate-level phosphorylation. An inorganic phosphate is released by the substrate named 1,3-BPG which is taken by an ADP molecule and hence results in the formation of an ATP molecule.

This 1,3-BPG gets now converted...

Read & Learn

20x Faster

without
deepstash

with
deepstash

with

deepstash

Personalized microlearning

100+ Learning Journeys

Access to 200,000+ ideas

Access to the mobile app

Unlimited idea saving

Unlimited history

Unlimited listening to ideas

Downloading & offline access

Supercharge your mind with one idea per day

Enter your email and spend 1 minute every day to learn something new.

Email

I agree to receive email updates