Add to ORKGAbstract Background Understanding how organisms adapt to high-elevation environments at a genome scale provides novel insights into the process of adaptive evolution. Previous studies have mainly focused on endothermic organisms, while poikilothermic species may have evolved different mechanisms to cope with high-elevation environments. In this context, we sequenced transcriptomes of a pair of closely related anuran species, Rana chensinensis and R. kukunoris, which inhabit respective low- and high-elevation habitats. By comparing the two transcriptomes, we identified candidate genes that may be involved in high-elevation adaption in poikilothermic species. Results Over 66 million sequence reads from each transcriptome were generated. A tot...
This thesis investigates adaptive divergence between populations of a widespread amphibian across it...
International audienceBoth environmental and genetic influences can result in phenotypic variation. ...
Tesis con mención internacionalKnowing the genetic basis of adaptive traits is essential to predict ...
Background: High-altitude adaptation provides an excellent system for studying how organisms cope wi...
Background: Organisms living at high altitudes must overcome three major environmental challenges: h...
High elevation adaptation offers an excellent study system to understand the genetic basis of adapti...
Abstract Background Genome-wide investigation of molecular mechanisms for high-altitude adaptation h...
Tibetan frogs, Nanorana parkeri, are differentiated genetically but not morphologically along geogra...
Understanding how organisms adapt to the environment is a compelling question in modern evolutionary...
Background The high-altitude-adapted frog Rana kukunoris, occurring on the Tibetan plateau, is an ex...
The harsh environment of Qinghai-Tibet Plateau (QTP) imposes strong selective stresses (e.g., hypoxi...
Times Cited: 24International audienceToday, with the rapid development of population genomics, the g...
Recent studies of humans, dogs and rodents have started to discover the genetic underpinnings of hig...
A significant amount of convergent and parallel amino acid substitutions in the HSP90AA1 gene has be...
© 2017 The Author(s). The anuran Rhinella spinulosa is distributed along the Andes Range at altitude...
This thesis investigates adaptive divergence between populations of a widespread amphibian across it...
International audienceBoth environmental and genetic influences can result in phenotypic variation. ...
Tesis con mención internacionalKnowing the genetic basis of adaptive traits is essential to predict ...
Background: High-altitude adaptation provides an excellent system for studying how organisms cope wi...
Background: Organisms living at high altitudes must overcome three major environmental challenges: h...
High elevation adaptation offers an excellent study system to understand the genetic basis of adapti...
Abstract Background Genome-wide investigation of molecular mechanisms for high-altitude adaptation h...
Tibetan frogs, Nanorana parkeri, are differentiated genetically but not morphologically along geogra...
Understanding how organisms adapt to the environment is a compelling question in modern evolutionary...
Background The high-altitude-adapted frog Rana kukunoris, occurring on the Tibetan plateau, is an ex...
The harsh environment of Qinghai-Tibet Plateau (QTP) imposes strong selective stresses (e.g., hypoxi...
Times Cited: 24International audienceToday, with the rapid development of population genomics, the g...
Recent studies of humans, dogs and rodents have started to discover the genetic underpinnings of hig...
A significant amount of convergent and parallel amino acid substitutions in the HSP90AA1 gene has be...
© 2017 The Author(s). The anuran Rhinella spinulosa is distributed along the Andes Range at altitude...
This thesis investigates adaptive divergence between populations of a widespread amphibian across it...
International audienceBoth environmental and genetic influences can result in phenotypic variation. ...
Tesis con mención internacionalKnowing the genetic basis of adaptive traits is essential to predict ...