adenine
adenine bonds to thymine cytosine bonds to guanine. (In RNA adenine bonds to uracil)
Thymine is the complementary base for adenine during DNA transcription. During RNA transcription, however, uracil is the complementary base for adenine.
Adenine, guanine, cytosine and uracil ( which stands in for thymine ).
In DNA adenine pairs with thymine. In RNA adenine pairs with uracil.
The nitrogenous base, Cytosine, pairs with the nitrogenous base, Guanine.In DNA:Cytosine - GuanineAdenine - ThymineIn RNA:Cytosine - GuanineAdenine - Uracil
Guanine pairs with cytosine
adenine bonds to thymine cytosine bonds to guanine. (In RNA adenine bonds to uracil)
Thymine is the complementary base for adenine during DNA transcription. During RNA transcription, however, uracil is the complementary base for adenine.
Adenine, guanine, cytosine and uracil ( which stands in for thymine ).
nitrogenous base in DNA are ADENINE,GUANINE,CYTOSINE AND THYMINE WHEREAS IN RNA it is ADENINE, GUANINE, CYTOSINE AND URACIL. In rna thymine is replaced by uracil.
In DNA, Adenine bonds with Thymine, Cytosine bonds with Guanine. In RNA, Thymine is replaced with Uracil (bases capitalized for easy emphasis/reference, not grammar.) Purines and Pyrimidines are two families of Nitrogenous bases. In DNA: Adenine and Guanine : Purines Cytosine and Thymine: Pyrimidines Adenine bonds with Thymine and Guanine bonds with Cytosine. A&T have 2 hydrogen bonds and G&C have 3 hydrogen bonds.
In DNA adenine pairs with thymine. In RNA adenine pairs with uracil.
Guanine is a nitrogenous base that pairs with Cytosine in DNA and RNA.
The nitrogenous base, Cytosine, pairs with the nitrogenous base, Guanine.In DNA:Cytosine - GuanineAdenine - ThymineIn RNA:Cytosine - GuanineAdenine - Uracil
Guanine and cytosine because they are held together by three hydrogen bonds while adenine and thymine are held together by 2.
cytosine
Guanine