Measures of linkage disequilibrium among neighbouring SNPs indicate asymmetries across the house mouse hybrid zone

Theory predicts that naturally occurring hybrid zones between genetically distinct taxa can move over space and time as a result of selection and/or demographic processes, with certain types of hybrid zones being more or less likely to move. Determining whether a hybrid zone is stationary or moving...

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Published in:Molecular ecology Vol. 20; no. 14; pp. 2985 - 3000
Main Authors: WANG, LIUYANG, LUZYNSKI, KEN, POOL, JOHN E., JANOUŠEK, VÁCLAV, DUFKOVÁ, PETRA, VYSKOČILOVÁ, MARTINA M., TEETER, KATHERINE C., NACHMAN, MICHAEL W., MUNCLINGER, PAVEL, MACHOLÁN, MILOŠ, PIÁLEK, JAROSLAV, TUCKER, PRISCILLA K.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-07-2011
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Summary:Theory predicts that naturally occurring hybrid zones between genetically distinct taxa can move over space and time as a result of selection and/or demographic processes, with certain types of hybrid zones being more or less likely to move. Determining whether a hybrid zone is stationary or moving has important implications for understanding evolutionary processes affecting interactions in hybrid populations. However, direct observations of hybrid zone movement are difficult to make unless the zone is moving rapidly. Here, evidence for movement in the house mouse Mus musculus domesticus × Mus musculus musculus hybrid zone is provided using measures of LD and haplotype structure among neighbouring SNP markers from across the genome. Local populations of mice across two transects in Germany and the Czech Republic were sampled, and a total of 1301 mice were genotyped at 1401 markers from the nuclear genome. Empirical measures of LD provide evidence for extinction and (re)colonization in single populations and, together with simulations, suggest hybrid zone movement because of either geography‐dependent asymmetrical dispersal or selection favouring one subspecies over the other.
Bibliography:ArticleID:MEC5148
istex:6E2E96C9F16E741D342F1C6AF71D025C8D5D9DB4
ark:/67375/WNG-LK0ZC1KT-8
Present address: Department of Biology, Northern Michigan University, Marquette, MI, 49855 USA.
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ISSN:0962-1083
1365-294X
DOI:10.1111/j.1365-294X.2011.05148.x