Evolution of Outcrossing in Experimental Populations of Caenorhabditis elegans

Teotonio, Henrique; Carvalho, Sara; Manoel, Diogo; Roque, Miguel; Chelo, Ivo M.

http://hdl.handle.net/10400.7/636

Utilize este identificador para referenciar este registo.

Nome:	Descrição:	Tamanho:	Formato:
Chelo_PlosOne(2012).PDF	main article	494.76 KB	Adobe PDF	Ver/Abrir
Chelo_PlosOne(2012)_SM_Figure_S1.tif	supplementary materials 1	108.54 KB	TIFF	Ver/Abrir
Chelo_PlosOne(2012)_SM_Figure_S2.tif	supplementary materials 2	2.81 MB	TIFF	Ver/Abrir
Chelo_PlosOne(2012)_SM_Table_S1.pdf	supplementary materials 3	76.38 KB	Adobe PDF	Ver/Abrir
Chelo_PlosOne(2012)_SM_Table_S2.pdf	supplementary materials 4	196.63 KB	Adobe PDF	Ver/Abrir

Contacte-nos

Autores

Resumo(s)

Caenorhabditis elegans can reproduce exclusively by self-fertilization. Yet, males can be maintained in laboratory populations, a phenomenon that continues to puzzle biologists. In this study we evaluated the role of males in facilitating adaptation to novel environments. For this, we contrasted the evolution of a fitness component exclusive to outcrossing in experimental populations of different mating systems. We introgressed a modifier of outcrossing into a hybrid population derived from several wild isolates to transform the wild-type androdioecious mating system into a dioecious mating system. By genotyping 375 single-nucleotide polymorphisms we show that the two populations had similar standing genetic diversity available for adaptation, despite the occurrence of selection during their derivation. We then performed replicated experimental evolution under the two mating systems from starting conditions of either high or low levels of diversity, under defined environmental conditions of discrete non-overlapping generations, constant density at high population sizes (N = 10(4)), no obvious spatial structure and abundant food resources. During 100 generations measurements of sex ratios and male competitive performance showed: 1) adaptation to the novel environment; 2) directional selection on male frequency under androdioecy; 3) optimal outcrossing rates of 0.5 under androdioecy; 4) the existence of initial inbreeding depression; and finally 5) that the strength of directional selection on male competitive performance does not depend on male frequencies. Taken together, these results suggest that androdioecious males are maintained at intermediate frequencies because outcrossing is adaptive.

Palavras-chave

Animals Caenorhabditis elegans Caenorhabditis elegans Proteins Gene Frequency Genetic Variation Genotype Haplotypes Inbreeding Linkage Disequilibrium Male Polymorphism, Single Nucleotide Sex Ratio Biological Evolution

URI

http://hdl.handle.net/10400.7/636

Citação

Teotonio H, Carvalho S, Manoel D, Roque M, Chelo IM (2012) Evolution of Outcrossing in Experimental Populations of Caenorhabditis elegans . PLoS ONE 7(4): e35811. doi:10.1371/journal.pone.0035811

Projetos de investigação

A study on the interaction among natural selection, mutation and recombination, with Caenorhabditis elegans experimental evolution

Projeto de investigaçãoVer mais

Editora

PLOS

DOI

10.1371/journal.pone.0035811

Coleções

EG - Artigos
EEG- Artigos

Licença CC

cclicense-by

Métricas Alternativas

Ver registo completo