In RNA, the nitrogenous bases change and there is no longer Thymine, instead Uracil replaces Thymine but it bonds with the same base pair ( Adenine) as it would in DNA. In other words DNA base pairs are : Adenine- Thymine, Guanine-Cytosine. RNA base pairs are : Adenine- Uracil, Guanine-Cytosine.
thymine does not exist on mRNA or tRNA strands, it is replaced by a base called uracil. however, a thymine on a DNA strand being replicated in protein synthesis will bond with an adenine base.
guanine
Adenine is hydrogen bonded to Thymine. Guanine is hydrogen bonded to cytosine. In RNA Thymine is replaced by Uracil.
Thymine is not present in RNA, only in DNA. The base pairs for RNA are adenine & uracil, and guanine & cytosine. Uracil replaces Thymine in RNA.
In DNA thymine is one of the nitrogen bases, but in RNA uracil replaces thymine still leaving four nitrogen bases
Thymine nitrogen base is complementary to Adenine.
Thymine
Adenine is hydrogen bonded to Thymine. Guanine is hydrogen bonded to cytosine. In RNA Thymine is replaced by Uracil.
Thymine is not present in RNA, only in DNA. The base pairs for RNA are adenine & uracil, and guanine & cytosine. Uracil replaces Thymine in RNA.
RNA has the base uracil rather than thymine that is present in DNA, so the answer to you question is.. thymine.
Thymine
In DNA thymine is one of the nitrogen bases, but in RNA uracil replaces thymine still leaving four nitrogen bases
RNA has the base uracil which replaces the thymine base of DNA.
RNA has the base uracil which replaces the thymine base of DNA.
thymine
Thymine
Thymine nitrogen base is complementary to Adenine.