James M. Cheverud scite author profile

A network of interactions is called modular if it is subdivided into relatively autonomous, internally highly connected components. Modularity has emerged as a rallying point for research in developmental and evolutionary biology (and specifically evo-devo), as well as in molecular systems biology. Here we review the evidence for modularity and models about its origin. Although there is an emerging agreement that organisms have a modular organization, the main open problem is the question of whether modules arise through the action of natural selection or because of biased mutational mechanisms.

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Evolutionary consequences of indirect genetic effects

Wolf

Brodie

Cheverud

et al. 1998

Trends in Ecology & Evolution

750

803

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Developmental Integration and the Evolution of Pleiotropy

Cheverud

1996

Am Zool

674

652

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Perspective: Evolution and Detection of Genetic Robustness

et al. 2003

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Abstract. Robustness is the invariance of phenotypes in the face of perturbation. The robustness of phenotypes appears at various levels of biological organization, including gene expression, protein folding, metabolic flux, physiological homeostasis, development, and even organismal fitness. The mechanisms underlying robustness are diverse, ranging from thermodynamic stability at the RNA and protein level to behavior at the organismal level. Phenotypes can be robust either against heritable perturbations (e.g., mutations) or nonheritable perturbations (e.g., the weather). Here we primarily focus on the first kind of robustness-genetic robustness-and survey three growing avenues of research: (1) measuring genetic robustness in nature and in the laboratory; (2) understanding the evolution of genetic robustness; and (3) exploring the implications of genetic robustness for future evolution.

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Quantitative genetics and developmental constraints on evolution by selection

Cheverud

1984

Journal of Theoretical Biology

696

564

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James M. Cheverud

The road to modularity

Evolutionary consequences of indirect genetic effects

Developmental Integration and the Evolution of Pleiotropy

Perspective: Evolution and Detection of Genetic Robustness

Quantitative genetics and developmental constraints on evolution by selection

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