Genomes of the Mouse Collaborative Cross

The Collaborative Cross (CC) is a multiparent panel of recombinant inbred (RI) mouse strains derived from eight founder laboratory strains. RI panels are popular because of their long-term genetic stability, which enhances reproducibility and integration of data collected across time and conditions....

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Bibliographic Details
Published in:Genetics (Austin) 2017-06, Vol.206 (2), p.537-556
Main Authors: Srivastava, Anuj, Morgan, Andrew P, Najarian, Maya L, Sarsani, Vishal Kumar, Sigmon, J Sebastian, Shorter, John R, Kashfeen, Anwica, McMullan, Rachel C, Williams, Lucy H, Giusti-Rodríguez, Paola, Ferris, Martin T, Sullivan, Patrick, Hock, Pablo, Miller, Darla R, Bell, Timothy A, McMillan, Leonard, Churchill, Gary A, de Villena, Fernando Pardo-Manuel
Format: Article
Language:English
Subjects:
Animals
Biological activity
Biology
Chromosome Mapping
Collaboration
Consortia
Crosses, Genetic
Fine structure
Fixation
Gene expression
Gene sequencing
Genetic Drift
Genetics
Genome - genetics
Genomes
Genotype
Genotyping
Haplotypes
Heterozygosity
Inbreeding
Informatics
Integration
Laboratories
Male
Medicin och hälsovetenskap
Mice
Mice, Inbred Strains - genetics
Multiparental Populations
Mutation
Nucleotide sequence
Panels
Polymorphism, Single Nucleotide
Population
Quantitative Trait Loci - genetics
Reproducibility
Rodents
Single-nucleotide polymorphism
Ultrastructure
Zebrafish
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Summary:The Collaborative Cross (CC) is a multiparent panel of recombinant inbred (RI) mouse strains derived from eight founder laboratory strains. RI panels are popular because of their long-term genetic stability, which enhances reproducibility and integration of data collected across time and conditions. Characterization of their genomes can be a community effort, reducing the burden on individual users. Here we present the genomes of the CC strains using two complementary approaches as a resource to improve power and interpretation of genetic experiments. Our study also provides a cautionary tale regarding the limitations imposed by such basic biological processes as mutation and selection. A distinct advantage of inbred panels is that genotyping only needs to be performed on the panel, not on each individual mouse. The initial CC genome data were haplotype reconstructions based on dense genotyping of the most recent common ancestors (MRCAs) of each strain followed by imputation from the genome sequence of the corresponding founder inbred strain. The MRCA resource captured segregating regions in strains that were not fully inbred, but it had limited resolution in the transition regions between founder haplotypes, and there was uncertainty about founder assignment in regions of limited diversity. Here we report the whole genome sequence of 69 CC strains generated by paired-end short reads at 30× coverage of a single male per strain. Sequencing leads to a substantial improvement in the fine structure and completeness of the genomes of the CC. Both MRCAs and sequenced samples show a significant reduction in the genome-wide haplotype frequencies from two wild-derived strains, CAST/EiJ and PWK/PhJ. In addition, analysis of the evolution of the patterns of heterozygosity indicates that selection against three wild-derived founder strains played a significant role in shaping the genomes of the CC. The sequencing resource provides the first description of tens of thousands of new genetic variants introduced by mutation and drift in the CC genomes. We estimate that new SNP mutations are accumulating in each CC strain at a rate of 2.4 ± 0.4 per gigabase per generation. The fixation of new mutations by genetic drift has introduced thousands of new variants into the CC strains. The majority of these mutations are novel compared to currently sequenced laboratory stocks and wild mice, and some are predicted to alter gene function. Approximately one-third of the CC inbred st
ISSN:1943-2631
0016-6731
1943-2631
DOI:10.1534/genetics.116.198838