Genetic equidistance at nucleotide level

The genetic equidistance phenomenon shows complex taxa to be all approximately equidistant to a less complex species in amino acid percentage identity. The overlooked mystery was re-interpreted by the maximum genetic diversity hypothesis (MGD). Here, we studied 14 proteomes and their coding DNA sequ...

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Published in	Genomics (San Diego, Calif.) Vol. 109; no. 3-4; pp. 192 - 195
Main Authors	Yuan, Dejian, Huang, Shi
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.07.2017
Subjects	Amino Acid Sequence Animals Base Sequence Evolution, Molecular Fast-evolving sequences Genetic equidistance phenomenon Genetic Variation Humans Maximum genetic diversity hypothesis Molecular clock Neutral theory Overlap sites Proteome - chemistry Proteome - genetics Sequence Alignment Sequence Analysis, DNA Sequence Analysis, Protein Slow-evolving sequences Vertebrates - genetics Genetic equidistance phenomenon Slow-evolving sequences Neutral theory Maximum genetic diversity hypothesis Molecular clock Fast-evolving sequences Overlap sites
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Abstract	The genetic equidistance phenomenon shows complex taxa to be all approximately equidistant to a less complex species in amino acid percentage identity. The overlooked mystery was re-interpreted by the maximum genetic diversity hypothesis (MGD). Here, we studied 14 proteomes and their coding DNA sequences (CDS) to see if the equidistance phenomenon also holds at the CDS level. We found that the outgroup taxon was equidistant to the two more complex taxa species. When two sister taxa were compared to human as the outgroup, the more complex taxon was closer to human, confirming species complexity to be the primary determinant of MGD. Finally, we found the fraction of overlap sites to be inversely correlated with CDS conservation, indicating saturation to be more common in less conserved DNAs. These results establish the genetic equidistance phenomenon to be universal at the DNA level and provide additional evidence for the MGD theory. •Establish the genetic equidistance phenomenon at the DNA level.•Inverse correlation between the overlap ratio and DNA conservation.•Provide additional evidence for the MGD theory.
AbstractList	The genetic equidistance phenomenon shows complex taxa to be all approximately equidistant to a less complex species in amino acid percentage identity. The overlooked mystery was re-interpreted by the maximum genetic diversity hypothesis (MGD). Here, we studied 14 proteomes and their coding DNA sequences (CDS) to see if the equidistance phenomenon also holds at the CDS level. We found that the outgroup taxon was equidistant to the two more complex taxa species. When two sister taxa were compared to human as the outgroup, the more complex taxon was closer to human, confirming species complexity to be the primary determinant of MGD. Finally, we found the fraction of overlap sites to be inversely correlated with CDS conservation, indicating saturation to be more common in less conserved DNAs. These results establish the genetic equidistance phenomenon to be universal at the DNA level and provide additional evidence for the MGD theory. •Establish the genetic equidistance phenomenon at the DNA level.•Inverse correlation between the overlap ratio and DNA conservation.•Provide additional evidence for the MGD theory. The genetic equidistance phenomenon shows complex taxa to be all approximately equidistant to a less complex species in amino acid percentage identity. The overlooked mystery was re-interpreted by the maximum genetic diversity hypothesis (MGD). Here, we studied 14 proteomes and their coding DNA sequences (CDS) to see if the equidistance phenomenon also holds at the CDS level. We found that the outgroup taxon was equidistant to the two more complex taxa species. When two sister taxa were compared to human as the outgroup, the more complex taxon was closer to human, confirming species complexity to be the primary determinant of MGD. Finally, we found the fraction of overlap sites to be inversely correlated with CDS conservation, indicating saturation to be more common in less conserved DNAs. These results establish the genetic equidistance phenomenon to be universal at the DNA level and provide additional evidence for the MGD theory.
Author	Huang, Shi Yuan, Dejian
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Cites_doi	10.1016/j.ygeno.2016.01.008 10.1371/journal.pone.0133421 10.1016/j.ygeno.2015.04.002 10.1038/246096a0 10.1126/science.168.3934.1009 10.1002/(SICI)1521-1878(199901)21:1<71::AID-BIES9>3.0.CO;2-B 10.1016/j.ygeno.2016.04.004 10.1006/tpbi.1996.0007 10.1038/2251025a0 10.1016/j.tree.2006.11.013 10.1038/ncomms13107 10.1007/s11427-013-4452-x 10.1007/BF01659390 10.1073/pnas.50.4.672 10.1126/science.164.3881.788 10.1016/j.ygeno.2016.03.002 10.1371/journal.pbio.1001388 10.1162/BIOT_a_00021 10.1038/229467a0 10.1038/nature13685 10.1007/BF01796554 10.1016/S0959-440X(99)80055-4 10.1007/s11427-012-4350-7 10.1038/217624a0 10.1093/bioinformatics/btm585
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Keywords	Genetic equidistance phenomenon Slow-evolving sequences Neutral theory Maximum genetic diversity hypothesis Molecular clock Fast-evolving sequences Overlap sites
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Snippet	The genetic equidistance phenomenon shows complex taxa to be all approximately equidistant to a less complex species in amino acid percentage identity. The...
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SubjectTerms	Amino Acid Sequence Animals Base Sequence Evolution, Molecular Fast-evolving sequences Genetic equidistance phenomenon Genetic Variation Humans Maximum genetic diversity hypothesis Molecular clock Neutral theory Overlap sites Proteome - chemistry Proteome - genetics Sequence Alignment Sequence Analysis, DNA Sequence Analysis, Protein Slow-evolving sequences Vertebrates - genetics
Title	Genetic equidistance at nucleotide level
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