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What nitrogenous base is found in RNA?
The four nitrogen bases found in RNA are adenine, guanine, cytosine, and uracil.
What base is found in RNA?
The four bases of DNA are Adenine, Thymine, Cytosine, and as well as Guanine The four bases of RNA are Adenine, Uracil, Cytosine and Guanine
What is the name of the base only found in RNA?
Uracil
What does RNA usually contain besides thymine?
RNA does not contain the nitrogen base thymine. There are four nitrogen bases in RNA; adenine, guanine, cytosine, and uracil.
What nitrogenous base is found in DNA but not in RNA is called what?
The nitrogenous base found in DNA but not RNA is called thymine. RNA contains the base uracil which during transcription(when genetic information is copied from DNA to RNA) pairs with the base adenine in DNA. So, DNA has four nitrogenous bases: (A) adenine, (C) cytosine, G (guanine), and T (thymine). And RNA has four nitrogenous bases: (A) adenine, (C) cytosine, G (guanine) and U (uracil)
What is the base found in RNA but not in DNA?
Uracil instead of Thymine.Uracil.
What nitrogen base does RNA contain?
RNA contains four nitrogenous bases; Adenine, Cytosine, Guanine and Uracil.
What nucleotide base in DNA is replaced by a base in RNA?
In DNA thymine is one of the nitrogen bases, but in RNA uracil replaces thymine still leaving four nitrogen bases
What is a pyrimidine base found in RNA but not in DNA?
Thymine
Adenine is an example of a?
Adenine is an example of a nitrogenous base found in DNA and RNA molecules. It is one of the four nucleobases that make up the genetic code, pairing with thymine in DNA and uracil in RNA.
What is the common name for ribonucleic acid?
The common name for ribonucleic acid is RNA. It plays a crucial role in protein synthesis and gene expression within cells.
What four chemical structures do DNA and RNA have in common?
DNA and RNA both have a sugar-phosphate backbone, composed of deoxyribose in DNA and ribose in RNA. They also share adenine, cytosine, and guanine as common nitrogenous bases. Additionally, both DNA and RNA can form double-stranded helical structures through complementary base pairing.
