The ability of a genotype to show diverse phenotypes in different environments is called phenotypic plasticity. Phenotypic plasticity helps populations to evade extinctions in novel environments, facilitates adaptation and fuels evolution. However, most studies focus on understanding the genetic basis of phenotypic regulation in specific environments. As a result, while it's evolutionary relevance is well established, genetic mechanisms regulating phenotypic plasticity and their overlap with the environment specific regulators is not well understood. Saccharomyces cerevisiae is highly sensitive to the environment, which acts as not just external stimulus but also as signalling cue for this unicellular, sessile organism. We used a previously...
Evolution proceeds through genetic changes to individuals, which are either propagated or disappear ...
Phenotype may vary between genetically identical cells or organisms, despite exposure to an identica...
Phenotypic robustness, or canalization, has been extensively investigated both experimentally and th...
Variable individual responses to environmental changes, such as phenotype plasticity, are heritable,...
For a unicellular, non-motile organism like Saccharomyces cerevisiae, carbon sources act both as nut...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Abstract Background The ability of a genotype to produce different phenotypes according to its surro...
Years of trait mapping studies have uncovered the genetic determinants underlying phenotypic evoluti...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Identifying which genetic variants contribute to complex phenotypes and disease is a major goal of m...
Regulatory and developmental systems produce phenotypes that are robust to environmental and genetic...
Evolution can favor organisms that are more adaptable, provided that genetic variation in adaptabili...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Regulatory and developmental systems produce phenotypes that are robust to environmental and genetic...
Evolution proceeds through genetic changes to individuals, which are either propagated or disappear ...
Phenotype may vary between genetically identical cells or organisms, despite exposure to an identica...
Phenotypic robustness, or canalization, has been extensively investigated both experimentally and th...
Variable individual responses to environmental changes, such as phenotype plasticity, are heritable,...
For a unicellular, non-motile organism like Saccharomyces cerevisiae, carbon sources act both as nut...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Abstract Background The ability of a genotype to produce different phenotypes according to its surro...
Years of trait mapping studies have uncovered the genetic determinants underlying phenotypic evoluti...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Identifying which genetic variants contribute to complex phenotypes and disease is a major goal of m...
Regulatory and developmental systems produce phenotypes that are robust to environmental and genetic...
Evolution can favor organisms that are more adaptable, provided that genetic variation in adaptabili...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Regulatory and developmental systems produce phenotypes that are robust to environmental and genetic...
Evolution proceeds through genetic changes to individuals, which are either propagated or disappear ...
Phenotype may vary between genetically identical cells or organisms, despite exposure to an identica...
Phenotypic robustness, or canalization, has been extensively investigated both experimentally and th...