In the RNA, the nitrogen bases are:
(A) Adenine
(U) Uracil
(G) Guanine
(C) Cytosine
In the DNA, the nitrogen bases are:
(A) Adenine
(G) Guanine
(C) Cytosine
(T) Thymine
The letters are T, A, C, and G, which represent thymine, adenine, cytosine and guanine.
In the RNA, the nitrogen bases are:
ribonucleic acid
adenine uracil guanine cytosine
adenine, guanine, thymine, and cytosine
they are the nitrogenous bases in RNA
RNA have ribonucleotides. Ribonucleotides have ribose sugar, phosphate, and nitrogen bases. The nitrogen bases of RNA are adenine, guanine, cytocine and uracil.
RNA has uracil; DNA has thymine (5-methyl uracil). The other difference (and the reason for the difference in the names) is that the sugar in RNA is ribose, but in DNA it is 2-deoxyribose.
The four nitrogen bases in RNA are Uracil, Adenine, Cytosine and Guanine.
The four nitrogenous bases in RNA are adenosine, guanine, uracil and cytosine.
adenine uracil guanine cytosine
The three letter code of bases on the transfer RNA that matched up with the codon on the messenger RNA.
they are the nitrogenous bases in RNA
Uracil is one of the bases found in RNA.
It is a triplet of bases on the RNA molecule.
RNA contains the bases adenine, uracil, cytosine, and guanine.
The four bases in RNA are Cytosine, Guanine, Adenine and Uracil
RNA has the bases A, C, G, and U. It does NOT have the base T.
Uracil is one of the bases found in RNA.
RNA have ribonucleotides. Ribonucleotides have ribose sugar, phosphate, and nitrogen bases. The nitrogen bases of RNA are adenine, guanine, cytocine and uracil.
RNA has uracil; DNA has thymine (5-methyl uracil). The other difference (and the reason for the difference in the names) is that the sugar in RNA is ribose, but in DNA it is 2-deoxyribose.
The bases RNA contains are; Uracil ( instead of thymine ) Cytosine Adenine Guanine