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A systems biology view of evolutionary genetics

Bioessays 32 (7):559-563 (2010)

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Regulation, necessity, and the misinterpretation of knockouts.Jamie Davies - 2009 - Bioessays 31 (8):826-830.details Much contemporary biology consists of identifying the molecular components that associate to perform biological functions, then discovering how these functions are controlled. The concept of control is key to biological understanding, at least of the physiological kind; identifying regulators of processes underpins ideas of causality and allows complicated, multicomponent systems to be summarized in relatively simple diagrams and models. Unfortunately, as this article demonstrates by drawing on published articles, there is a growing tendency for authors to claim that a molecule (...) Download Export citation Bookmark 2 citations
Waddington’s Legacy to Developmental and Theoretical Biology.Jonathan B. L. Bard - 2008 - Biological Theory 3 (3):188-197.details Conrad Hal Waddington was a British developmental biologist who mainly worked in Cambridge and Edinburgh, but spent the late 1930s with Morgan in California learning about Drosophila. He was the first person to realize that development depended on the then unknown activities of genes, and he needed an appropriate model organism. His major experimental contributions were to show how mutation analysis could be used to investigate developmental mechanisms in Drosophila, and to explore how developmental mutation could drive evolution, his other (...) Download Export citation Bookmark 6 citations
Waddington’s Unfinished Critique of Neo-Darwinian Genetics: Then and Now.Adam S. Wilkins - 2008 - Biological Theory 3 (3):224-232.details C.H. Waddington is today remembered chiefly as a Drosophila developmental geneticist who developed the concepts of “canalization” and “the epigenetic landscape.” In his lifetime, however, he was widely perceived primarily as a critic of Neo-Darwinian evolutionary theory. His criticisms of Neo-Darwinian evolutionary theory were focused on what he saw as unrealistic, “atomistic” models of both gene selection and trait evolution. In particular, he felt that the Neo-Darwinians badly neglected the phenomenon of extensive gene interactions and that the “randomness” of mutational (...) Download Export citation Bookmark 10 citations
Making the right connections: biological networks in the light of evolution.Christopher G. Knight & John W. Pinney - 2009 - Bioessays 31 (10):1080-1090.details Our understanding of how evolution acts on biological networks remains patchy, as is our knowledge of how that action is best identified, modelled and understood. Starting with network structure and the evolution of protein–protein interaction networks, we briefly survey the ways in which network evolution is being addressed in the fields of systems biology, development and ecology. The approaches highlighted demonstrate a movement away from a focus on network topology towards a more integrated view, placing biological properties centre‐stage. We argue (...) Download Export citation Bookmark 6 citations

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