Title
Fast genetic mapping of complex traits in C. elegans using millions of individuals in bulk
Date Issued
01 December 2019
Access level
open access
Resource Type
journal article
Author(s)
University of California
Publisher(s)
Nature Publishing Group
Abstract
Genetic studies of complex traits in animals have been hindered by the need to generate, maintain, and phenotype large panels of recombinant lines. We developed a new method, C. elegans eXtreme Quantitative Trait Locus (ceX-QTL) mapping, that overcomes this obstacle via bulk selection on millions of unique recombinant individuals. We use ceX-QTL to map a drug resistance locus with high resolution. We also map differences in gene expression in live worms and discovered that mutations in the co-chaperone sti-1 upregulate the transcription of HSP-90. Lastly, we use ceX-QTL to map loci that influence fitness genome-wide confirming previously reported causal variants and uncovering new fitness loci. ceX-QTL is fast, powerful and cost-effective, and will accelerate the study of complex traits in animals.
Volume
10
Issue
1
Number
2680
Language
English
OCDE Knowledge area
Genética, Herencia
Biotecnología ambiental
Bioquímica, Biología molecular
Scopus EID
2-s2.0-85067579893
PubMed ID
Source
Nature Communications
ISSN of the container
20411723
Sponsor(s)
National Human Genome Research Institute - K99HG010369 - NHGRI
We thank members of the Kruglyak laboratory for their comments. We thank Lijiang Long and Patrick T. McGrath for kindly sharing the CB4856 fog-2(kah89) strain. Funding was provided by the Howard Hughes Medical Institute and NIH grant R01 HG004321 (to L.K.). A.B. was supported by the Jane Coffin Childs Memorial Fund for Medical Research. E.Y.B. was supported by a Gruss-Lipper postdoctoral fellowship from the EGL foundation and NIH Grant K99-HG010369-01.
Sources of information:
Directorio de Producción Científica
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