Reading frame: Difference between revisions
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In [[biology]], a '''reading frame''' is a way of breaking a sequence of [[nucleotides]] in [[DNA]] or [[RNA]] into three letter [[codons]] which can be translated in [[amino acids]]. There are 3 possible reading frames in an [[mRNA]] strand: each reading frame corresponding to starting at a different alignment. Double stranded [[DNA]] has six different reading frames molecule due to the two strands from which transcription is possible - three of them reading forward and three of them reading backwards. |
In [[biology]], a '''reading frame''' is a way of breaking a sequence of [[nucleotides]] in [[DNA]] or [[RNA]] into three letter [[codons]] which can be translated in [[amino acids]]. There are 3 possible reading frames in an [[mRNA]] strand: each reading frame corresponding to starting at a different alignment. Double stranded [[DNA]] has six different reading frames molecule due to the two strands from which transcription is possible - three of them reading forward and three of them reading backwards. |
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The existence of multiple reading frames leads to the possibility of overlapping [[gene]]s and there may be many of these in bacteria fungi |
The existence of multiple reading frames leads to the possibility of overlapping [[gene]]s and there may be many of these in bacteria fungi parenthesis.<ref name=Johnson_2004>{{cite journal | author = Johnson Z, Chisholm S | title = Properties of overlapping genes are conserved across microbial genomes | journal = Genome Res | volume = 14 | issue = 11 | pages = 2268–72 | year = 2004 | pmid = 15520290 | doi = 10.1101/gr.2433104 | pmc = 525685}}</ref> Some viruses e.g. [[Hepatitis B virus]] and [[BYDV]] use several overlapping genes in different reading frames. |
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In rare cases a translating [[ribosome]] may shift from one frame to another, a [[translational frameshift]]. It is distinct from a [[frameshift mutation]] as the nucleotide sequence (DNA or RNA) is not altered only the frame in which it is read. |
In rare cases a translating [[ribosome]] may shift from one frame to another, a [[translational frameshift]]. It is distinct from a [[frameshift mutation]] as the nucleotide sequence (DNA or RNA) is not altered only the frame in which it is read. |
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Revision as of 07:49, 2 February 2011
In biology, a reading frame is a way of breaking a sequence of nucleotides in DNA or RNA into three letter codons which can be translated in amino acids. There are 3 possible reading frames in an mRNA strand: each reading frame corresponding to starting at a different alignment. Double stranded DNA has six different reading frames molecule due to the two strands from which transcription is possible - three of them reading forward and three of them reading backwards.
The existence of multiple reading frames leads to the possibility of overlapping genes and there may be many of these in bacteria fungi parenthesis.[1] Some viruses e.g. Hepatitis B virus and BYDV use several overlapping genes in different reading frames.
In rare cases a translating ribosome may shift from one frame to another, a translational frameshift. It is distinct from a frameshift mutation as the nucleotide sequence (DNA or RNA) is not altered only the frame in which it is read.
An open reading frame (ORF) is a reading frame that contains a start codon, and a subsequent region which usually has a length which is a multiple of 3 nucleotides, but does not contain a stop codon in a given reading frame[2].
References
- ^ Johnson Z, Chisholm S (2004). "Properties of overlapping genes are conserved across microbial genomes". Genome Res. 14 (11): 2268–72. doi:10.1101/gr.2433104. PMC 525685. PMID 15520290.
- ^ Richard Deonier (2005). Computational Genome Analysis: an introduction. Springer-Verlag. ISBN 0387987851.
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