2006-10-22 15:17:07 · 4 answers · asked by Anonymous in Science & Mathematics ➔ Biology
It depends, during replication, it directs the sequence of the bases on the newly synthesized complementary daughter strand of DNA. During transcription, it directs the sequence of the complementary strand of RNA, which after processing becomes messenger RNA, which eventually directs the sequence of amino acids in a protein as it is being synthesized.
2006-10-22 16:08:05 · answer #1 · answered by molgen2000 2 · 0⤊ 0⤋
the respond is D, so A-C are spectacular. If DNA polymerase acts in this DNA strand, you get an anti-parallel complementary daughter DNA strand. If RNA polymerase acts in this strand, then you definitely get an anti-parallel complementary daughter RNA strand. If the made of RNA polymerization is translated by way of a ribosome, then the sequence of the DNA turns into the template for the protein's universal shape. E is incorrect via fact RNA isn't produced from amino acids. by way of utilising the codons interior the genetic code, you are able to convert lower back and forth between nucleic acid sequences and protein sequences for a given gene.
2016-11-24 23:28:16 · answer #2 · answered by ? 4 · 0⤊ 0⤋
The sequence of nitrogen bases on the complementary strand, obviously!
2006-10-22 15:31:02 · answer #3 · answered by the bridge 1 · 1⤊ 0⤋
Your question is vague.
Possibly; a complimentary strand of DNA ,or sequence of N-bases on a strand of messenger RNA.
2006-10-22 16:07:55 · answer #4 · answered by ursaitaliano70 7 · 0⤊ 0⤋