DsDNA: Difference between revisions
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Double stranded [[DNA|DNA]] forms a helix structure and is found in this form in the [[ | Double stranded [[DNA|DNA]] forms a helix structure and is found in this form in the [[Nucleus|nucleus]] of a [[Eukaryotic cell|eukaryotic cell]]. It is comprised of a [[Sense DNA|sense]] and [[Antisense DNA|antisense]] strand that are complementary to each other and these bind to each other according to [[Watson-Crick base pairing|Watson-Crick base pairing]] rules. The [[Nucleotide|nucleotide]] bases that make up DNA are [[Guanine|guanine]], [[Cytosine|cytosine]], [[Adenine|adenine]] and [[Thymine|thymine]]. These bases are abbreviated to G,C,A and T respectively. Guanine always forms three [[Hydrogen bonds|hydrogen bonds]] with cytosine and adenine always forms two hydrogen bonds with thymine. Therefore the [G] =[C] and [A]= [T]. Double stranded DNA is split into single stranded DNA in the cell during processes such as DNA replication and transcription of DNA into [[MRNA|mRNA]]. For a cell to fit all of its DNA into the nucleus, it must compress it down into [[Chromosomes|chromosomes]]. | ||
Revision as of 22:50, 13 November 2012
Double stranded DNA forms a helix structure and is found in this form in the nucleus of a eukaryotic cell. It is comprised of a sense and antisense strand that are complementary to each other and these bind to each other according to Watson-Crick base pairing rules. The nucleotide bases that make up DNA are guanine, cytosine, adenine and thymine. These bases are abbreviated to G,C,A and T respectively. Guanine always forms three hydrogen bonds with cytosine and adenine always forms two hydrogen bonds with thymine. Therefore the [G] =[C] and [A]= [T]. Double stranded DNA is split into single stranded DNA in the cell during processes such as DNA replication and transcription of DNA into mRNA. For a cell to fit all of its DNA into the nucleus, it must compress it down into chromosomes.