In RNA - A binds to U, C binds to G.
Therefore the complementary mRNA strand of ATTCGACCTACG would be UAAGCUGGAUGC.
AUA - Ile, AGC - Ser, GCU - Ala, and AAA is Lysine.
The complimentary mRNA sequence would be: U-A-A-C-G-U
The mRNA bases are complementary to the DNA bases, and so form H-bonds when the DNA is single-stranded. DNA - mRNA A - U T - A C - G G - C
First of all, the only RNA, that attaches to DNA is mRNA (messenger RNA), and it matches, Adenine from DNA and Uracil from RNA; Thymine from DNA with Adenine from RNA; Cytosine from DNA and Guanine from RNA; Guanine from DNA Cytosine and from RNA. * Also, mRNA complements the left half of DNA, for example if DNA's left half was (A = adenine, T = thymine**, G = guanine, C= cytosine, U = Uracil**) **Uracil is found only RNA **Thymine is found only in DNA A T G G C A T Then mRNA would be: U A C C G U A so overall DNA : mRNA A : U T : A G : C G : C C : G A : U T : A
When pairing DNA to DNA - A binds to T and C binds to G. However, in RNA, the T is replaced with U. Therefore when DNA pairs with mRNA - A binds to U, C binds to G and T binds to A.
A becomes U, T becomes A, C becomes G, G becomes C. U-U-A-G-C-A
Before we look at the complimentary mRNA sequence of the given DNA sequence, let us remember that RNA contains uracil (U) in place of Thiamine (T) The querry sequence is: t-a-c-c-t-c-g-c-a-a-c-t So the mRNA sequence would be: A U G G A G C G U U G A
AUA - Ile, AGC - Ser, GCU - Ala, and AAA is Lysine.
The complimentary mRNA sequence would be: U-A-A-C-G-U
The anticodon of a tRNA molecule has only three nitrogen bases. The anticodon is complementary to a codon of mRNA at the ribosome. The tRNA molecule carries a specific amino acid from the cytoplasm to its complementary mRNA codon, where it will be incorporated into the new protein being made.
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
If a DNA strand read CCTAGCT, its mRNA would read GGAUCGA.
DNA:T-C-G-A-TmRNA:U-C-G-A-UmRNA rule: switch T with U_________________________________________Although the above answer is correct in that there are no thymines (T) in RNA, I must disagree with the rest of the answer. The mRNA strand given in the answer above would be the identical strand made from RNA, not the complementary strand as the question asked for.A complementary strand is produced by an RNA or DNA polymerase from a template DNA strand.Therefore, if the template DNA strand were T-C-G-A-T, then:The complementary DNA strand would be A-G-C-T-AThe complementary RNA strand would be A-G-C-U-A
If 5'- ATCAGACTCA -3' is the DNA template, 3'- UAGUCUGAGU -5' is the mRNA complement.Be careful: strands are always read 5' to 3'.
The mRNA bases are complementary to the DNA bases, and so form H-bonds when the DNA is single-stranded. DNA - mRNA A - U T - A C - G G - C
To find the complementary sequence for a given DNA sequence, you need to match each nucleotide with its complementary base according to the base-pairing rules. In DNA, adenine (A) pairs with thymine (T), and cytosine (C) pairs with guanine (G). Given the DNA sequence: C - T - A - A - G - T - C The complementary sequence would be: G - A - T - T - C - A - G
The correct complimentary DNA sequence would be AGTCCTGGC. The correct complimentary mRNA sequence would be AGUCCUGGC.