Pleiotropy-when a single mutation affects multiple traits-is a controversial topic with far-reaching implications. Pleiotropy plays a central role in debates about how complex traits evolve and whether biological systems are modular or are organized such that every gene has the potential to affect many traits. Pleiotropy is also critical to initiatives in evolutionary medicine that seek to trap infectious microbes or tumors by selecting for mutations that encourage growth in some conditions at the expense of others. Research in these fields, and others, would benefit from understanding the extent to which pleiotropy reflects inherent relationships among phenotypes that correlate no matter the perturbation (vertical pleiotropy). Alternativel...
Identifying which genetic variants contribute to complex phenotypes and disease is a major goal of m...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Systems-level genetic studies in humans and model systems increasingly involve both high-res...
Genetic pleiotropy, the ability of a mutation ina single gene to give rise to multiple phenotypic ou...
[[abstract]]Pleiotropy refers to the phenomenon of a single mutation or gene affecting multiple dist...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoke...
Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoke...
Our ability to understand the genotype-to-phenotype relationship is hindered by the lack of detailed...
As perceived by Darwin, evolutionary adaptation by the processes of mutation and selection is diffic...
The concept of robustness in biology has gained much attention recently, but a mechanistic understan...
Different organisms have independently and recurrently evolved similar phenotypic traits at differen...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Evolutionary adaptation to a constant environment is driven by the accumulation of mutations which c...
Identifying which genetic variants contribute to complex phenotypes and disease is a major goal of m...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Systems-level genetic studies in humans and model systems increasingly involve both high-res...
Genetic pleiotropy, the ability of a mutation ina single gene to give rise to multiple phenotypic ou...
[[abstract]]Pleiotropy refers to the phenomenon of a single mutation or gene affecting multiple dist...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoke...
Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoke...
Our ability to understand the genotype-to-phenotype relationship is hindered by the lack of detailed...
As perceived by Darwin, evolutionary adaptation by the processes of mutation and selection is diffic...
The concept of robustness in biology has gained much attention recently, but a mechanistic understan...
Different organisms have independently and recurrently evolved similar phenotypic traits at differen...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Evolutionary adaptation to a constant environment is driven by the accumulation of mutations which c...
Identifying which genetic variants contribute to complex phenotypes and disease is a major goal of m...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Systems-level genetic studies in humans and model systems increasingly involve both high-res...