Data from: A gain-of-function polymorphism controlling complex traits and fitness in nature
Data files
Feb 07, 2013 version files 2.21 MB
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BCMA allele-specific expression.xls
55.81 KB
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BCMA fine mapping.xls
90.62 KB
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BCMA heterologous expression.xls
43.01 KB
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BCMA2 genotypes & linkage.xls
42.50 KB
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CO endogenous leaf damage.xls
50.18 KB
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CO manipulative.xls
273.92 KB
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GS transgenics.xls
56.83 KB
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Lab Boechera_East GS.xls
129.54 KB
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Lab Boechera_East Tni.xls
116.22 KB
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Lab Data for Tni TotGS BCratio histogram.xls
81.41 KB
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Microsatellite data 28 loci from 9 populations.xls
85.50 KB
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MT&CO Plant Means BC-ratio.xls
54.27 KB
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NILs 2008 BCMA GS Traits.xls
260.61 KB
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NILs MT&CO Herbivory.xls
272.90 KB
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Parker x Ruby GS data.xls
43.01 KB
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README_for_BCMA allele-specific expression.txt
11.09 KB
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README_for_BCMA fine mapping.txt
11.10 KB
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README_for_BCMA heterologous expression.txt
11.10 KB
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README_for_BCMA2 genotypes & linkage.txt
11.10 KB
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README_for_CO endogenous leaf damage.txt
11.10 KB
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README_for_CO manipulative.txt
11.10 KB
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README_for_GS transgenics.txt
11.10 KB
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README_for_Lab Boechera_East GS.txt
11.10 KB
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README_for_Lab Boechera_East Tni.txt
11.10 KB
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README_for_Lab Data for Tni TotGS BCratio histogram.txt
11.10 KB
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README_for_Microsatellite data 28 loci from 9 populations.txt
11.10 KB
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README_for_MT&CO Plant Means BC-ratio.txt
11.10 KB
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README_for_NILs 2008 BCMA GS Traits.txt
11.10 KB
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README_for_NILs MT&CO Herbivory.txt
11.10 KB
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README_for_Parker x Ruby GS data.txt
11.10 KB
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README_for_RILs MT&CO FamMeans BCMA nohets.txt
11.10 KB
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README_for_RILs MT&CO indiv plants BCMA nohets.txt
11.10 KB
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RILs MT&CO FamMeans BCMA nohets.xls
88.06 KB
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RILs MT&CO indiv plants BCMA nohets.xls
274.94 KB
Abstract
Identification of the causal genes that control complex trait variation remains challenging, limiting our appreciation of the evolutionary processes that influence polymorphisms in nature. We cloned a quantitative trait locus that controls plant defensive chemistry, damage by insect herbivores, survival, and reproduction in the natural environments where this polymorphism evolved. These ecological effects are driven by duplications in the BCMA (branched-chain methionine allocation) loci controlling this variation and by two selectively favored amino acid changes in the glucosinolate-biosynthetic cytochrome P450 proteins that they encode. These changes cause a gain of novel enzyme function, modulated by allelic differences in catalytic rate and gene copy number. Ecological interactions in diverse environments likely contribute to the widespread polymorphism of this biochemical function.