Earthworm genomes, genes and proteins: the (re)discovery of Darwin's worms

Small incremental biological change, winnowed by natural selection over geological time scales to produce large consequences, was Darwin's singular insight that revolutionized the life sciences. His publications after 1859, including the 'earthworm book', were all written to amplify a...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2009-03, Vol.276 (1658), p.789-797
Hauptverfasser:	Stürzenbaum, S.R, Andre, J, Kille, P, Morgan, A.J
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biogeography Darwin Earthworms Ecological genetics Ecotoxicology Evolution Evolutionary genetics Gene Expression Regulation - physiology Genome Genomes Genomics Genotypes Oligochaeta - genetics Proteins - genetics Proteins - metabolism Review Review Articles Soil ecology Species Transcriptomics Worms
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creator	Stürzenbaum, S.R Andre, J Kille, P Morgan, A.J
description	Small incremental biological change, winnowed by natural selection over geological time scales to produce large consequences, was Darwin's singular insight that revolutionized the life sciences. His publications after 1859, including the 'earthworm book', were all written to amplify and support the evolutionary theory presented in the Origin. Darwin was unable to provide a physical basis for the inheritance of favoured traits because of the absence of genetic knowledge that much later led to the 'modern synthesis'. Mistaken though he was in advocating systemic 'gemmules' as agents of inheritance, Darwin was perceptive in seeking to underpin his core vision with concrete factors that both determine the nature of a trait in one generation and convey it to subsequent generations. This brief review evaluates the molecular genetic literature on earthworms published during the last decade, and casts light on the specific aspects of earthworm evolutionary biology that more or less engaged Darwin: (i) biogeography, (ii) species diversity, (iii) local adaptations and (iv) sensitivity. We predict that the current understanding will deepen with the announcement of a draft earthworm genome in Darwin's bicentenary year, 2009. Subsequently, the earthworm may be elevated from the status of a soil sentinel to that elusive entity, an ecologically relevant genetic model organism.
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B, Biological sciences</title><addtitle>PROC R SOC B</addtitle><description>Small incremental biological change, winnowed by natural selection over geological time scales to produce large consequences, was Darwin's singular insight that revolutionized the life sciences. His publications after 1859, including the 'earthworm book', were all written to amplify and support the evolutionary theory presented in the Origin. Darwin was unable to provide a physical basis for the inheritance of favoured traits because of the absence of genetic knowledge that much later led to the 'modern synthesis'. Mistaken though he was in advocating systemic 'gemmules' as agents of inheritance, Darwin was perceptive in seeking to underpin his core vision with concrete factors that both determine the nature of a trait in one generation and convey it to subsequent generations. 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subjects	Animals Biogeography Darwin Earthworms Ecological genetics Ecotoxicology Evolution Evolutionary genetics Gene Expression Regulation - physiology Genome Genomes Genomics Genotypes Oligochaeta - genetics Proteins - genetics Proteins - metabolism Review Review Articles Soil ecology Species Transcriptomics Worms
title	Earthworm genomes, genes and proteins: the (re)discovery of Darwin's worms
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