Add to ORKGConvergent phenotypic evolution provides some of the strongest evidence for adaptation. However, the extent to which recurrent phenotypic adaptation has arisen via parallelism at the molecular level remains unresolved, as does the evolutionary origin of alleles underlying such adaptation. Here, we investigate genetic mechanisms of convergent highland adaptation in maize landrace populations and evaluate the genetic sources of recurrently selected alleles. Population branch excess statistics reveal substantial evidence of parallel adaptation at the level of individual single-nucleotide polymorphism (SNPs), genes, and pathways in four independent highland maize populations. The majority of convergently selected SNPs originated via migration f...
Local adaptation is the process by which local populations evolve traits that increase their fitness...
Maize is a globally valuable commodity and one of the most extensively studied genetic model organis...
ABSTRACT Understanding the evolutionary capacity of populations to adapt to novel environments is on...
Convergent phenotypic evolution provides some of the strongest evidence for adaptation. However, the...
Maize is a staple food of smallholder farmers living in highland regions up to 4,000 m above sea lev...
The migration of maize from tropical to temperate climates was accompanied by a dramatic evolution i...
The migration of maize from tropical to temperate climates was accompanied by a dramatic evolution i...
International audienceThe migration of maize from tropical to temperate climates was accompanied by ...
Populations of widely distributed species encounter and must adapt to local environmental conditions...
<div><p>The migration of maize from tropical to temperate climates was accompanied by a dramatic evo...
Populations of widely distributed species encounter and must adapt to local environmental conditions...
Spatially varying selection triggers differential adaptation of local populations. Here, we mined th...
<div><p>Through the local selection of landraces, humans have guided the adaptation of crops to a va...
Local adaptation is the process by which local populations evolve traits that increase their fitness...
Maize is a globally valuable commodity and one of the most extensively studied genetic model organis...
ABSTRACT Understanding the evolutionary capacity of populations to adapt to novel environments is on...
Convergent phenotypic evolution provides some of the strongest evidence for adaptation. However, the...
Maize is a staple food of smallholder farmers living in highland regions up to 4,000 m above sea lev...
The migration of maize from tropical to temperate climates was accompanied by a dramatic evolution i...
The migration of maize from tropical to temperate climates was accompanied by a dramatic evolution i...
International audienceThe migration of maize from tropical to temperate climates was accompanied by ...
Populations of widely distributed species encounter and must adapt to local environmental conditions...
<div><p>The migration of maize from tropical to temperate climates was accompanied by a dramatic evo...
Populations of widely distributed species encounter and must adapt to local environmental conditions...
Spatially varying selection triggers differential adaptation of local populations. Here, we mined th...
<div><p>Through the local selection of landraces, humans have guided the adaptation of crops to a va...
Local adaptation is the process by which local populations evolve traits that increase their fitness...
Maize is a globally valuable commodity and one of the most extensively studied genetic model organis...
ABSTRACT Understanding the evolutionary capacity of populations to adapt to novel environments is on...