It is Acidic because of the phosphate groups that are related to phosphoric acid
Thymine is a nitrogenous base that is part of DNA but not found in RNA. In RNA, thymine is replaced by uracil.
Uracil is the nitrogen base found in RNA but not in DNA. It replaces thymine, which is found in DNA and not in RNA. Uracil forms base pairs with adenine in RNA during transcription and translation processes.
The enzyme that transcribes the DNA into RNA is called RNA polymerase.
RNA has the base uracil that DNA does not have.
Comparing DNA and RNA, some key differences include: DNA is double-stranded, while RNA is single-stranded; DNA contains deoxyribose sugar, RNA contains ribose sugar; DNA has thymine base, RNA has uracil base; DNA is found in the nucleus, RNA is found in the cytoplasm; DNA is stable, RNA is less stable; DNA is the genetic material, RNA is involved in protein synthesis. These are just a few of the many distinctions between DNA and RNA.
uracil is in rna not in DNA
Thymine is a nitrogenous base that is part of DNA but not found in RNA. In RNA, thymine is replaced by uracil.
Transcription
The 3-part structure that makes up DNA and RNA is composed of a sugar molecule (deoxyribose in DNA and ribose in RNA), a phosphate group, and a nitrogenous base (adenine, cytosine, guanine, thymine in DNA and uracil in RNA). These components form the backbone of the nucleic acid molecules.
Uracil is the nitrogen base found in RNA but not in DNA. It replaces thymine, which is found in DNA and not in RNA. Uracil forms base pairs with adenine in RNA during transcription and translation processes.
BBC is part of the role in protein synthesis DNA nucleotides RNA. This is part of the body.
DNA and RNA are weakly acidic compounds which are present in living cells.
transcription
The enzyme that transcribes the DNA into RNA is called RNA polymerase.
Nucleotides do not have DNA or RNA. DNA and RNA are composed of nucleotides.
An uracil base is in RNA but not in DNA
RNA has the base uracil that DNA does not have.