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Title |
3-base periodicity in coding DNA is affected by intercodon dinucleotides |
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Authors |
Joaquín Sánchez |
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Affiliation |
Facultad de Medicina, Universidad Autónoma del Estado de Morelos, Cuernavaca, 62020 México
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joaquin.sanchez@microbio.gu.se; *Corresponding author
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Phone |
52-777-3184797
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Article Type |
Hypothesis
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Date |
Received July 07, 2011; Accepted July 12, 2011; Published July 19, 2011
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Abstract |
All coding DNAs exhibit 3-base periodicity (TBP), which may be defined as the tendency of nucleotides and higher order n-tuples, e.g. trinucleotides (triplets), to be preferentially spaced by 3, 6, 9 etc, bases, and we have proposed an association between TBP and clustering of same-phase triplets. We here investigated if TBP was affected by intercodon dinucleotide tendencies and whether clustering of same-phase triplets was involved. Under constant protein sequence intercodon dinucleotide frequencies depend on the distribution of synonymous codons. So, possible effects were revealed by randomly exchanging synonymous codons without altering protein sequences to subsequently document changes in TBP via frequency distribution of distances (FDD) of DNA triplets. A tripartite positive correlation was found between intercodon dinucleotide frequencies, clustering of same-phase triplets and TBP. So, intercodon C|A (where “|” indicates the boundary between codons) was more frequent in native human DNA than in the codon-shuffled sequences; higher C|A frequency occurred along with more frequent clustering of C|AN triplets (where N jointly represents A, C, G and T) and with intense CAN TBP. The opposite was found for C|G, which was less frequent in native than in shuffled sequences; lower C|G frequency occurred together with reduced clustering of C|GN triplets and with less intense CGN TBP. We hence propose that intercodon dinucleotides affect TBP via same-phase triplet clustering. A possible biological relevance of our findings is briefly discussed.
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Keywords |
Period-3 DNA structure; neighboring codon choice; dinucleotide frequency; human coding DNA; codon junctions; same-phase triplet clustering; frequency distribution of distances.
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Citation |
Sánchez.
Bioinformation 6(9): 327-329 (2011) |
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Edited by |
P Kangueane
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ISSN |
0973-2063
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Publisher |
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License |
This is an Open Access article which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. This is distributed under the terms of the Creative Commons Attribution License. |