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Recombinational Landscape and Population Genomics of Caenorhabditis elegans

2009· article· en· 458 citations· W2038489248 on OpenAlex· 10.1371/journal.pgen.1000419

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A frame that forgets how it found something cannot be audited. These are the routes that admitted this work.

Canadian funderA Canadian agency funded it. The work may carry no Canadian affiliation at all.

No Canadian affiliation. An affiliation-only frame — the usual design — would never have seen this work. It is one of the works that make the case for inverting the frame.

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Opus teacher head0.008
GPT teacher head0.209
Teacher spread
0.202 · how far apart the two teachers sit on this one work
Validation status
score_only:v0-immature-baseline · verbatim from the scoring run: score_only means the number may rank works, and no category label ships from it

Abstract

Recombination rate and linkage disequilibrium, the latter a function of population genomic processes, are the critical parameters for mapping by linkage and association, and their patterns in Caenorhabditis elegans are poorly understood. We performed high-density SNP genotyping on a large panel of recombinant inbred advanced intercross lines (RIAILs) of C. elegans to characterize the landscape of recombination and, on a panel of wild strains, to characterize population genomic patterns. We confirmed that C. elegans autosomes exhibit discrete domains of nearly constant recombination rate, and we show, for the first time, that the pattern holds for the X chromosome as well. The terminal domains of each chromosome, spanning about 7% of the genome, exhibit effectively no recombination. The RIAILs exhibit a 5.3-fold expansion of the genetic map. With median marker spacing of 61 kb, they are a powerful resource for mapping quantitative trait loci in C. elegans. Among 125 wild isolates, we identified only 41 distinct haplotypes. The patterns of genotypic similarity suggest that some presumed wild strains are laboratory contaminants. The Hawaiian strain, CB4856, exhibits genetic isolation from the remainder of the global population, whose members exhibit ample evidence of intercrossing and recombining. The population effective recombination rate, estimated from the pattern of linkage disequilibrium, is correlated with the estimated meiotic recombination rate, but its magnitude implies that the effective rate of outcrossing is extremely low, corroborating reports of selection against recombinant genotypes. Despite the low population, effective recombination rate and extensive linkage disequilibrium among chromosomes, which are techniques that account for background levels of genomic similarity, permit association mapping in wild C. elegans strains.

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The record

Venue
PLoS Genetics
Topic
Genetics, Aging, and Longevity in Model Organisms
Field
Biochemistry, Genetics and Molecular Biology
Canadian institutions
Funders
Kavli Institute for Theoretical Physics, University of California, Santa BarbaraNational Center for Research ResourcesNational Human Genome Research InstituteYork UniversityNational Science FoundationNational Institutes of HealthJames S. McDonnell FoundationHoward Hughes Medical Institute
Keywords
BiologyLinkage disequilibriumGeneticsPopulationRecombinationPopulation genomicsEffective population sizeGenomeHaplotypeEvolutionary biologyGenomicsGenetic variationGenotypeGene
Has abstract in OpenAlex
yes