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Ancient balancing selection maintains incompatible versions of a conserved metabolic pathway in yeast
View ORCID ProfileJames Boocock, View ORCID ProfileMeru J Sadhu, View ORCID ProfileJoshua S Bloom, View ORCID ProfileLeonid Kruglyak
doi: https://doi.org/10.1101/829325
James Boocock
1Department of Human Genetics; University of California, Los Angeles; Los Angeles, CA
2Department of Biological Chemistry; University of California, Los Angeles; Los Angeles, CA
3Howard Hughes Medical Institute; University of California, Los Angeles; Los Angeles, CA
4Institute for Quantitative and Computational Biology; University of California, Los Angeles, Los Angeles, CA
Meru J Sadhu
1Department of Human Genetics; University of California, Los Angeles; Los Angeles, CA
2Department of Biological Chemistry; University of California, Los Angeles; Los Angeles, CA
3Howard Hughes Medical Institute; University of California, Los Angeles; Los Angeles, CA
4Institute for Quantitative and Computational Biology; University of California, Los Angeles, Los Angeles, CA
Joshua S Bloom
1Department of Human Genetics; University of California, Los Angeles; Los Angeles, CA
2Department of Biological Chemistry; University of California, Los Angeles; Los Angeles, CA
3Howard Hughes Medical Institute; University of California, Los Angeles; Los Angeles, CA
4Institute for Quantitative and Computational Biology; University of California, Los Angeles, Los Angeles, CA
Leonid Kruglyak
1Department of Human Genetics; University of California, Los Angeles; Los Angeles, CA
2Department of Biological Chemistry; University of California, Los Angeles; Los Angeles, CA
3Howard Hughes Medical Institute; University of California, Los Angeles; Los Angeles, CA
4Institute for Quantitative and Computational Biology; University of California, Los Angeles, Los Angeles, CA
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Posted November 04, 2019.
Ancient balancing selection maintains incompatible versions of a conserved metabolic pathway in yeast
James Boocock, Meru J Sadhu, Joshua S Bloom, Leonid Kruglyak
bioRxiv 829325; doi: https://doi.org/10.1101/829325
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