Speciation and inversions: Chimps and humans
- 18 August 2003
- Vol. 25 (9) , 825-828
- https://doi.org/10.1002/bies.10336
Abstract
A new set of models has resurrected a role for chromosomal inversions in the formation of new species.1–3 Traditional models, which are generally considered to be unlikely in most cases, had imagined that inversions might aid speciation by directly causing low hybrid fitness. In contrast, the newer models focus on the effect that inversions have on local recombination rates. A test of these models found a strikingly high rate of amino‐acid substitution within regions where humans and chimpanzees differ by inversions, suggesting perhaps that our ancestral species underwent a divergence process in which gene flow and inversions played a key role.4 However, it remains uncertain whether this interesting finding is actually consistent with the proposed model. BioEssays 25:825–828, 2003.Keywords
This publication has 16 references indexed in Scilit:
- Hybridization and the colonization of novel habitats by annual sunflowersGenetica, 2006
- Chromosomal Speciation in PrimatesScience, 2003
- Chromosomal Speciation and Molecular Divergence--Accelerated Evolution in Rearranged ChromosomesScience, 2003
- ACCUMULATING POSTZYGOTIC ISOLATION GENES IN PARAPATRY: A NEW TWIST ON CHROMOSOMAL SPECIATIONEvolution, 2003
- Slow Molecular Clocks in Old World Monkeys, Apes, and HumansMolecular Biology and Evolution, 2002
- Genomewide Comparison of DNA Sequences between Humans and ChimpanzeesAmerican Journal of Human Genetics, 2002
- Chromosomal inversions and the reproductive isolation of speciesProceedings of the National Academy of Sciences, 2001
- THE EVOLUTION OF POSTZYGOTIC ISOLATION: ACCUMULATING DOBZHANSKY-MULLER INCOMPATIBILITIESEvolution, 2001
- Genomic Divergences between Humans and Other Hominoids and the Effective Population Size of the Common Ancestor of Humans and ChimpanzeesAmerican Journal of Human Genetics, 2001
- The barrier to genetic exchange between hybridising populationsHeredity, 1986