Biology, asked by neetphodenge, 8 months ago


For every single amino acid incorporated in peptide
chain
ATP and
used,
(1) 1,4
(2) 1,6
13) 1, 2
(4) 1,3

please explain in a bit detail..dont just tell answer​

Answers

Answered by shreya2005354
1

Answer:

1) 1,4

Explanation:

In order to be incorporated in the peptide chain , amino acid has to attach to the respective tRNA ( transfer ribonucleic acid) so that it could brought to a translational machinery as and when required by the cotton of mRNA( messenger ribonucleic acid) . In this process of attachment to the tRNA also called the charging of tRNA , 1 ATP is used. In the initiation step of translation process 1 GTP is used to make the 30S complex of the ribosome. In the elongation step of the translation 2 GTPs are used, 1 GTP for positioning the GTP is used to make the 30S complex of the ribosome. In the elongation step of the translation 2 GTPs are used, 1 GTP for positioning the incoming tRNA and the other for the translocation of the ribosome to continue the elongation process. In the termination process of the translation, 1 GTP is used to release the newly formed polypeptide chain. So, for every single amino acid incorporated in peptide chain 1 ATP and 4 GTP molecules re used.

Hence, the correct answer is '1,4' tRNA and the other for the translocation of the ribosome to continue the elongation process. In the termination process of the translation, 1 GTP is used to release the newly formed polypeptide chain. So, for every single amino acid incorporated in peptide chain 1 ATP and 4 GTP molecules re used.

Hence, the correct answer is '1,4'

hope it would be helpful to you

Answered by dorri
0

(1) 1 ATP & 4 GTP

Explanation:

Formation of Peptide bonds take place in the Translation Process(formation of proteins)

Usage of 1 ATP

While the 1st Amino acid combines with tRNA, also referred to as charging of tRNA.

Usage of 1st GTP

During the formation of 30S Ribosome complex.

Usage of 2nd & 3rd GTP

In elongation step (of the Translation process)

One for Positioning & the other for translocation of 30S

Usage of 4th GTP

Releasing the final polypeptide chain

Hope it helps you! ^_^

Similar questions
Math, 1 year ago