Uracil.
There are five bases in RNA/DNA. They are Adenine, Thymine, Guanine, Cytosine and Uracil.
In DNA: Adenine pairs with Thymine, and Guanine pairs with Cytosine
In RNA: Adenine pairs with Uracil and Guanine pairs with Cytosine
Uracil is the base in RNA that pairs with adenine.
Thymine base pairs with adenine in DNA, forming a T-A base pair. Uracil base pairs with adenine in RNA, forming a U-A base pair.
The phosphate base that pairs with Adenine in RNA is Uracil. In a DNA strand Adenine would pair with Thymine.
In DNA: Thymine pairs with Adenine. In RNA: Uracil pairs with Adenine.
In RNA, the nucleotide base that binds to guanine is cytosine. Guanine and cytosine form complementary base pairs through hydrogen bonding, similar to their pairing in DNA. In RNA, adenine pairs with uracil instead of thymine, which is found in DNA.
Uracil is the base in RNA that pairs with adenine.
Uracil is the nitrogen base found in RNA that pairs with adenine in DNA.
Thymine base pairs with adenine in DNA, forming a T-A base pair. Uracil base pairs with adenine in RNA, forming a U-A base pair.
In both DNA and RNA, cytosine pairs with guanine.
The phosphate base that pairs with Adenine in RNA is Uracil. In a DNA strand Adenine would pair with Thymine.
In DNA: Adenine base pairs with Thyamine A=T In RNA: Adenine base pairs with Uracil A=U
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.
Guanine base pairs with cytosine in RNA through three hydrogen bonds.
CGT base triplet on DNA is copied into mRNA as GCA. This is because DNA and RNA follow complementary base pairing rules, where C in DNA pairs with G in RNA, G in DNA pairs with C in RNA, and T in DNA pairs with A in RNA.
In RNA, adenine binds to Uracil. In DNA it binds to thymine.
The nitrogen base uracil takes the place of thymine in RNA. So in RNA, uracil pairs with adenine.
Thymine