The RNA nucleotide sequence transcribed from GCTAATCCG would be:
CGAUUAGGC
Following Chargaff's Rule, in RNA...
C -> G or G -> C
A -> U or U -> A
and vice versa.
In DNA...
C -> G or G -> C
A -> T or T -> A
and vice versa.
RNA substitutes Uracil (U) rather than Thymine (T) instead, while DNA uses Thymine (T).
If you also want to translate codons, or set of 3 RNA bases (C, G, A, U) into amino acids:
CGA -- Arginine (Arg)
UUA -- Leucine (Leu)
GGC -- Glycine (
Well first of all you have to understand base pairing. A always pairs with T and, C always pairs with G. The exception to that rule is that, in RNA, T is replaced by U. Now we've got that straightened out here is your corresponding sequence below.
GGG ACA TGA TTC (on DNA)
CCC UGU ACU AAG (on mRNA)
CAA-UGU-CGA-GAU
Remember that uracil replaces thymine in RNA.
Gcu/aac/cgu/cag/ua
C-G-A-T-T-A-G-G-C
TCU
The DNA sequence that would pair with the DNA segment TTACGC is AATGCG. The mRNA sequence that would pair with the DNA segment TTACGC is AAUGCG.
If the DNA sequence is ACT, the complimentary mRNA sequence would be UGA
UGCAA
The goal of transcription is the assembly of the mRNA transcript from the DNA template.
The complimentary mRNA sequence would be: U-A-A-C-G-U
The DNA sequence that would pair with the DNA segment TTACGC is AATGCG. The mRNA sequence that would pair with the DNA segment TTACGC is AAUGCG.
Intronsare intervening sequence of DNA; does NOT code for a protein.Exons are expressed squence of DNA; codes for a protein.
If the DNA sequence is ACT, the complimentary mRNA sequence would be UGA
transcript
BBC is the DNA in a MRNA sequence. This is part of the body.
4
the sequence of bases in DNA
DNA
The corresponding mRNA sequence of ATGCCCTAAGTG is UACGGGAUUCAC
if the DNA sequence is A C T G then its resulting mRNA sequence will be complementary so it will be T G A C
Yes; DNA makes RNA, & RNA makes polypeptides (proteins)
UGCAA