DNA are replicator molecules. DNA molecules are able to male copies of themselves in a process called DNA replication. RNA molecules however, are synthesized using a DNA template through a process called transcription
Uracil (U) is not found in DNA and is replaced by thymine (T) in DNA molecules. Uracil is found in RNA instead of thymine.
Uracil is a nucleotide found in RNA but not in DNA. In RNA, uracil replaces thymine, which is found in DNA.
Adenine is the component of ATP that is also found in DNA and RNA. It is one of the four nitrogenous bases that make up the nucleotides in these molecules.
Thymine
Thymine is found in DNA but not in RNA. Uracil replaces thymine in RNA. In other words: DNA has thymine. RNA has uracil.
DNA contains thymine, but RNA has uracil in its place.
DNA are replicator molecules. DNA molecules are able to male copies of themselves in a process called DNA replication. RNA molecules however, are synthesized using a DNA template through a process called transcription
Thymine is a nucleotide that occurs in DNA molecules but not in RNA molecules. In RNA, thymine is replaced by uracil.
DNA And RNA
DNA and RNA molecules have a sugar phosphate backbone. In DNA, the sugar is deoxyribose, while in RNA it is ribose. The phosphate groups link the sugar molecules together forming a linear chain.
Both DNA and RNA contain a sugar phosphate group as the backbone to their structure. In DNA the sugar is deoxyribose, where as in RNA it is just ribose.
Uracil (U) is not found in DNA and is replaced by thymine (T) in DNA molecules. Uracil is found in RNA instead of thymine.
Uracil is a nucleotide found in RNA but not in DNA. In RNA, uracil replaces thymine, which is found in DNA.
The nitrogen containing base that is found only in RNA is uracil. It takes the place of thymine in DNA
Uracil is found in RNA but not in DNA.
Ribose is found in RNA, not DNA.