The "inverse relationship between evolutionary rate and age of mammalian genes" is an artifact of increased genetic distance with rate of evolution and time of divergence

Eran Elhaik; Niv Sabath; Dan Graur

doi:10.1093/molbev/msj006

The "inverse relationship between evolutionary rate and age of mammalian genes" is an artifact of increased genetic distance with rate of evolution and time of divergence

Eran Elhaik^*, Niv Sabath, Dan Graur

^*Corresponding author for this work

University of Houston

Research output: Contribution to journal › Article › peer-review

62 Scopus citations

Abstract

It has recently been claimed that older genes tend to evolve more slowly than newer ones (Alba and Castresana 2005). By simulation of genes of equal age, we show that the inverse correlation between age and rate is an artifact caused by our inability to detect homology when evolutionary distances are large. Since evolutionary distance increases with time of divergence and rate of evolution, homologs of fast-evolving genes are frequently undetected in distantly related taxa and are, hence, misclassified as "new." This misclassification causes the mean genetic distance of 'new' genes to be over-estimated and the mean genetic distance of "old" genes to be underestimated.

Original language	English
Pages (from-to)	1-3
Number of pages	3
Journal	Molecular Biology and Evolution
Volume	23
Issue number	1
DOIs	https://doi.org/10.1093/molbev/msj006
State	Published - Jan 2006
Externally published	Yes

Keywords

Divergence times
Nonsynonymous substitutions
Novel genes

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10.1093/molbev/msj006

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abstract = "It has recently been claimed that older genes tend to evolve more slowly than newer ones (Alba and Castresana 2005). By simulation of genes of equal age, we show that the inverse correlation between age and rate is an artifact caused by our inability to detect homology when evolutionary distances are large. Since evolutionary distance increases with time of divergence and rate of evolution, homologs of fast-evolving genes are frequently undetected in distantly related taxa and are, hence, misclassified as {"}new.{"} This misclassification causes the mean genetic distance of 'new' genes to be over-estimated and the mean genetic distance of {"}old{"} genes to be underestimated.",

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AU - Elhaik, Eran

AU - Sabath, Niv

AU - Graur, Dan

PY - 2006/1

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N2 - It has recently been claimed that older genes tend to evolve more slowly than newer ones (Alba and Castresana 2005). By simulation of genes of equal age, we show that the inverse correlation between age and rate is an artifact caused by our inability to detect homology when evolutionary distances are large. Since evolutionary distance increases with time of divergence and rate of evolution, homologs of fast-evolving genes are frequently undetected in distantly related taxa and are, hence, misclassified as "new." This misclassification causes the mean genetic distance of 'new' genes to be over-estimated and the mean genetic distance of "old" genes to be underestimated.

AB - It has recently been claimed that older genes tend to evolve more slowly than newer ones (Alba and Castresana 2005). By simulation of genes of equal age, we show that the inverse correlation between age and rate is an artifact caused by our inability to detect homology when evolutionary distances are large. Since evolutionary distance increases with time of divergence and rate of evolution, homologs of fast-evolving genes are frequently undetected in distantly related taxa and are, hence, misclassified as "new." This misclassification causes the mean genetic distance of 'new' genes to be over-estimated and the mean genetic distance of "old" genes to be underestimated.

KW - Divergence times

KW - Nonsynonymous substitutions

KW - Novel genes

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The "inverse relationship between evolutionary rate and age of mammalian genes" is an artifact of increased genetic distance with rate of evolution and time of divergence

Abstract

Keywords

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