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Thymine
DNA polymerase and RNA polymerase .
Uracil is not naturally present in DNA. Instead, it is found in RNA, where it replaces the thymine base found in DNA. Thymine is the corresponding base in DNA and is not found in RNA.
RNA uses uracil instead of thyminelike DNA does.
thymene
RNA has the base uracil which replaces the thymine base of DNA.
RNA has the base uracil which replaces the thymine base of DNA.
dna : A=T C=G rna A=U C=G
An uracil base is in RNA but not in DNA
Sugar- DNA has a deoxyribose sugar base while RNA has a ribose sugar base. This means that DNA's sugar base has one less oxygen than RNA's (de means one less and oxy is short for oxygen).# of Strands- DNA is double stranded (made of two strands) while RNA is single stranded (made of one strand).Nitrogen Bases- DNA and RNA both share the nitrogen bases of Adenine, Cytosine, and Guanine. However, DNA contains the nitrogen base of Thymine while RNA contains Uracil. The base pairing rules of DNA are A-T and G-C while the base pairing rules of RNA are A-U and G-C. So as you can see, uracil merely replaces thymine in RNA.
Thymine
uracil is in rna not in DNA
DNA polymerase and RNA polymerase .
In DNA thymine is one of the nitrogen bases, but in RNA uracil replaces thymine still leaving four nitrogen bases
Uracil is not naturally present in DNA. Instead, it is found in RNA, where it replaces the thymine base found in DNA. Thymine is the corresponding base in DNA and is not found in RNA.
A nitrogenous base that is found in RNA but not DNA is uracil.
Uracil is in RNA and Thyramine is in DNA, the other nitrogen bases are the same In RNA Adenine is complementary to Uracil and Guanine is complementary to cytocine In DNA Adenine is complementarty to Tyramine and Guanine is complentary to cytocine