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There are some differences between DNA and RNA 1) RNA is usually single stranded whereas DNA is double stranded 2) DNA ( Deoxyribosenucleic acid) has one less oxygen atom than RNA (Ribosenucleic acid) 3) The nucleotides in DNA differ from an RNA strand as DNA contains a Thymine nucleotide and RNA contains an Uracil nucleotide.
thymine
DNA and RNA:AdenineCytosineGuanineDNA only:ThymineRNA only:Uracil
DNA transcription is a process of converting genetic information from DNA to RNA. The RNA may be used to produce proteins if that is what the DNA coded for. In this case, the RNA is called mRNA and the RNA molecule is called a transcription unit. So that would be one answer to this question. ( The process by which the RNA becomes a protein is called translation) Sometimes the DNA does not code for a protein. In these cases the RNA may end up being ribosomal RNA or transfer RNA. These are also possible answers. A general answer might be an RNA molecule corresponding to the DNA molecule that is being transcribed. So the answer is an equivalent RNA sequence for that particular DNA sequence.
Adenine occurs in both RNA and DNA molecules. It is uracil that replaces thymine in the RNA molecule.
Generally the DNA molecule is double stranded to RNA's single strand. The RNA molecule uses uracil as a base while the DNA molecule uses thymine. RNA has catabolic properties that allow it to act in things such a ribosomes and tRNA. DNA is just a carrier of the genetic information.
Nucleic acids, and Nucleotides.
A. rRNA Type of RNA molecule transcribed from a DNA template B. codon Sequence of three nucleotides on a messenger RNA molecule C. tRNA RNA component of ribosomes D. anticodon Connects mRNA codon to an amino acid E.mRNA Sequence of three nucleotides on a transfer RNA molecule
A DNA molecule is made up of deoxyribose sugar while RNA is made up of ribose sugar. A DNA molecule is double stranded whilst a RNA molecule is single stranded. A DNA molecule only contains the bases; Adenine, Thymine, Cytosine and Guanine. However a RNA molecule contains the bases; Uracil, Thymine, Cytosine and Guanine. DNA is only found in the nucleus of a cell, while RNA is found in the cytoplasm.
There are some differences between DNA and RNA 1) RNA is usually single stranded whereas DNA is double stranded 2) DNA ( Deoxyribosenucleic acid) has one less oxygen atom than RNA (Ribosenucleic acid) 3) The nucleotides in DNA differ from an RNA strand as DNA contains a Thymine nucleotide and RNA contains an Uracil nucleotide.
Generally the DNA molecule is double stranded to RNA's single strand. The RNA molecule uses uracil as a base while the DNA molecule uses thymine. RNA has catabolic properties that allow it to act in things such a ribosomes and tRNA. DNA is just a carrier of the genetic information.
Generally the DNA molecule is double stranded to RNA's single strand. The RNA molecule uses uracil as a base while the DNA molecule uses thymine. RNA has catabolic properties that allow it to act in things such a ribosomes and tRNA. DNA is just a carrier of the genetic information.
Generally the DNA molecule is double stranded to RNA's single strand. The RNA molecule uses uracil as a base while the DNA molecule uses thymine. RNA has catabolic properties that allow it to act in things such a ribosomes and tRNA. DNA is just a carrier of the genetic information.
thymine
thymine and uracil thymine is in DNA, and uracil is in RNA
DNA and RNA:AdenineCytosineGuanineDNA only:ThymineRNA only:Uracil
DNA transcription is a process of converting genetic information from DNA to RNA. The RNA may be used to produce proteins if that is what the DNA coded for. In this case, the RNA is called mRNA and the RNA molecule is called a transcription unit. So that would be one answer to this question. ( The process by which the RNA becomes a protein is called translation) Sometimes the DNA does not code for a protein. In these cases the RNA may end up being ribosomal RNA or transfer RNA. These are also possible answers. A general answer might be an RNA molecule corresponding to the DNA molecule that is being transcribed. So the answer is an equivalent RNA sequence for that particular DNA sequence.