Gatccatgagttac
ctaggtactcaatg
Atg cta
There is no letter C in DNA or RNA .
The complementary strand of this DNA sequence is... A T G C T A A C C
The complementary DNA strand is CGTTTGATGG. A pairs with T, and G pairs with 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
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
There is no letter C in DNA or RNA .
The complementary strand of this DNA sequence is... A T G C T A A C C
In DNA, the complementary strand would be: GGATCAGTAC.
A binds to T and C binds to G. Therefore the complementary strand to ATT-CGC is TAA-GCG.
Yes, strands of DNA are complementary. Complementary implies that a sequence of nucleotides (ex. ATATG) is ordered in a way that it directly corresponds to another sequence of nucleotides (ex. TATAC). Since DNA is double stranded in most circumstances, barring mutagenesis, one strand would be pair with its complementary strand, thus forming the double stand.
The complementary DNA strand is CGTTTGATGG. A pairs with T, and G pairs with C.
In DNA, C pairs with G, and A pairs with T.This means that GCATA is complementary to CGTAT.
If a DNA strand read CCTAGCT, its mRNA would read GGAUCGA.
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 DNA base pairing rules are A-T and C-G, so the complementary strand to TAGTCA is ATCAGT.
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
The amounts of cytosine and guanine will not necessarily be equal to each other in a molecule of RNA. The concentration of cytosine (C) is equal to that of guanine (G) in molecules of DNA because DNA is a double helix. All the nitrogenous bases in one strand of DNA are paired with their complementary base in the other strand. As C and G are complementary bases, every time you find a C in one strand, the other strand will contain a G at the same location. Likewise, every time you find a G in one strand, the other will have a C. Therefore, the concentration of cytosine in a molecule of DNA will be exactly equal to that of guanine, assuming that there are no mismatch errors. RNA, however, is a single-stranded molecule. The bases in RNA are not paired with each other, so even between a set of complementary bases, there is no requirement that the concentrations be identical.