Jump to content

Acylcarnitine transferase II: where does the energy come from?

Interprete
in Biochemistry and Molecular Biology

Featured Replies

Hello,

In ß-oxydation, when an activated fatty acid is shuttled from the cytosol into the mitochondria, it sheds a CoA-SH moiety and then regains another one once inside the mitochondria, through the acylcartinine transferase II. My question is: where does the energy to re-attach a new mitochondrial CoA to the fatty acid come from?

When it was activated in the cytosol by the acylCoA synthetase, it consumed one ATP. How comes it does not need an ATP again, for the same reaction once inside? Is it because acylcarnitine contains a high-energy bond that can provide the energy necessary to recreate the thioester bond to form acylCoA again?

 

Thanks...

Although I think that the concept of a high energy bond can mislead the unwary, I think that you are on the right track.  The free energies of hydrolysis of esters vary quite a bit from one to another.  I don't have a table that provides this value for an acylcarnitine ester; however, my recollection is that it is relatively high in energy.

Edited by BabcockHall

Archived

This topic is now archived and is closed to further replies.

Go to topic listing

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.

Configure browser push notifications
Chrome (Android)
  1. Tap the lock icon next to the address bar.
  2. Tap Permissions → Notifications.
  3. Adjust your preference.
Chrome (Desktop)
  1. Click the padlock icon in the address bar.
  2. Select Site settings.
  3. Find Notifications and adjust your preference.