Difference between revisions of "Begun and Aquadro 1992"

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[[File:BegunAndAquadro1992Figures.png]]
 
[[File:BegunAndAquadro1992Figures.png]]
  
Under the neutral theory diversity within a species is expected to be 4''Nμ'' (''N'' is the population size) and divergence between species is expected to be 2''tμ'' (''t'' is the time of divergence in generations). Both of these are proportional to the mutation rate ''μ''. Under a simple model 4''N'' and 2''t''  are not expected to change among loci. However, the mutation rate, ''μ'', can easily change among different genes but the effect on both diversity and divergence is expected to be proportional. The authors found that diversity within a species increases with rates of recombination along a chromosome, but divergence between species does not. This is not consistent with the neutral theory and indicates some form of selection is shaping levels of genetic variation within species. The big question is what kind of selection. Both [[Hitchhiking]] from [[Selective Sweeps]] and [[Background Selection]] can contribute to this pattern and are not mutually exclusive.  
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Under the neutral theory diversity within a species is expected to be 4''Nμ'' (''N'' is the population size) and divergence between species is expected to be 2''tμ'' (''t'' is the time of divergence in generations). Both of these are proportional to the mutation rate ''μ''. Under a simple model 4''N'' and 2''t''  are not expected to change among loci. However, the mutation rate, ''μ'', can easily change among different genes but the effect on both diversity and divergence is expected to be proportional. The authors found that diversity within a species increases with rates of recombination along a chromosome, but divergence between species does not. This is not consistent with the neutral theory and indicates some form of selection is acting.
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The leading hypothesis is that diversity reducing selection is acting within species---and this affects a larger ragion around targets of selection in areas of lower recombination. The big question is what kind of selection. Both [[Hitchhiking]] from [[Selective Sweeps]] and [[Background Selection]] can contribute to this pattern and are not mutually exclusive. (This is related to the idea of [[Hill–Robertson Interference]].)
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There are alternative hypotheses but these are generally considered less likely or general. One is that evolution favors locating genes that are more adaptive with higher levels of diversity, such as balancing selection at genes such as MHC and the ABO blood group, in regions of higher recombination, to promote maintaining diversity in the face of widespread diversity reducing selection.  
  
 
[[Category:Publication]]
 
[[Category:Publication]]

Revision as of 08:51, 21 October 2018

Reference

Begun, D. J., & Aquadro, C. F. (1992). Levels of naturally occurring DNA polymorphism correlate with recombination rates in D. melanogaster. Nature, 356(6369), 519.

Links

Published Abstract

TWO genomic regions with unusally low recombination rates in Drosophila melanogaster have normal levels of divergence but greatly reduced nucleotide diversity1,2, apparently resulting from the fixation of advantageous mutations and the associated hitchhiking effect3,4. Here we show that for 20 gene regions from across the genome, the amount of nucleotide diversity in natural populations of D. melanogaster is positively correlated with the regional rate of recombination. This cannot be explained by variation in mutation rates and/or functional constraint, because we observe no correlation between recombination rates and DNA sequence divergence between D. melanogaster and its sibling species, D. simulans. We suggest that the correlation may result from genetic hitch-hiking associated with the fixation of advantageous mutants. Hitch-hiking thus seems to occur over a large fraction of the Drosophila genome and may constitute a major constraint on levels of genetic variation in nature.

Notes

The essential result is summarized in these two figures.

BegunAndAquadro1992Figures.png

Under the neutral theory diversity within a species is expected to be 4 (N is the population size) and divergence between species is expected to be 2 (t is the time of divergence in generations). Both of these are proportional to the mutation rate μ. Under a simple model 4N and 2t are not expected to change among loci. However, the mutation rate, μ, can easily change among different genes but the effect on both diversity and divergence is expected to be proportional. The authors found that diversity within a species increases with rates of recombination along a chromosome, but divergence between species does not. This is not consistent with the neutral theory and indicates some form of selection is acting.

The leading hypothesis is that diversity reducing selection is acting within species---and this affects a larger ragion around targets of selection in areas of lower recombination. The big question is what kind of selection. Both Hitchhiking from Selective Sweeps and Background Selection can contribute to this pattern and are not mutually exclusive. (This is related to the idea of Hill–Robertson Interference.)

There are alternative hypotheses but these are generally considered less likely or general. One is that evolution favors locating genes that are more adaptive with higher levels of diversity, such as balancing selection at genes such as MHC and the ABO blood group, in regions of higher recombination, to promote maintaining diversity in the face of widespread diversity reducing selection.