BACKGROUND:Large-scale screens of the maize genome identified 48 genes that show the putative signature of artificial selection during maize domestication or improvement. These selection-candidate genes may act as quantitative trait loci (QTL) that control the phenotypic differences between maize and its progenitor, teosinte. The selection-candidate genes appear to be located closer in the genome to domestication QTL than expected by chance. METHODS AND FINDINGS:As a step toward defining the traits controlled by these genes, we performed phenotype-genotype association mapping in teosinte for 32 of the 48 plus three other selection-candidate genes. Our analyses assayed 32 phenotypic traits, many of which were altered during maize domesticati...
Plant architecture, phenology and yield components of cultivated plants have repeatedly been shaped ...
Genomic scans for genes that show the signature of past selection have been widely applied to a numb...
The commercial grain yield of maize in the U.S. Corn Belt has undergone significant genetic improvem...
Background: Large-scale screens of the maize genome identified 48 genes that show the putative signa...
Previous association analyses showed that variation at major regulatory genes contributes to standin...
In plants, many major regulatory genes that control plant growth and development have been identifie...
Phenotypic variation in natural populations results from a combination of genetic effects, environme...
Phenotypic variation in natural populations results from a combination of genetic effects, environme...
Phenotypic variation in natural populations results from a combination of genetic effects, environme...
<div><p>Phenotypic variation in natural populations results from a combination of genetic effects, e...
The domesticated crop maize and its wild progenitor, teosinte, have been used in numerous experiment...
Maize (Zea mays subsp mays) was domesticated from teosinte (Z. mays subsp parviglumis) through a sin...
The domesticated crop maize and its wild progenitor, teosinte, have been used in numerous experiment...
Research on domestication informs our understanding of the genetic architectures of important traits...
The domestication of maize (Zea mays sp. mays) from its wild progenitors represents an opportunity t...
Plant architecture, phenology and yield components of cultivated plants have repeatedly been shaped ...
Genomic scans for genes that show the signature of past selection have been widely applied to a numb...
The commercial grain yield of maize in the U.S. Corn Belt has undergone significant genetic improvem...
Background: Large-scale screens of the maize genome identified 48 genes that show the putative signa...
Previous association analyses showed that variation at major regulatory genes contributes to standin...
In plants, many major regulatory genes that control plant growth and development have been identifie...
Phenotypic variation in natural populations results from a combination of genetic effects, environme...
Phenotypic variation in natural populations results from a combination of genetic effects, environme...
Phenotypic variation in natural populations results from a combination of genetic effects, environme...
<div><p>Phenotypic variation in natural populations results from a combination of genetic effects, e...
The domesticated crop maize and its wild progenitor, teosinte, have been used in numerous experiment...
Maize (Zea mays subsp mays) was domesticated from teosinte (Z. mays subsp parviglumis) through a sin...
The domesticated crop maize and its wild progenitor, teosinte, have been used in numerous experiment...
Research on domestication informs our understanding of the genetic architectures of important traits...
The domestication of maize (Zea mays sp. mays) from its wild progenitors represents an opportunity t...
Plant architecture, phenology and yield components of cultivated plants have repeatedly been shaped ...
Genomic scans for genes that show the signature of past selection have been widely applied to a numb...
The commercial grain yield of maize in the U.S. Corn Belt has undergone significant genetic improvem...