Genetic Analysis of Hematological Parameters in Incipient Lines of the Collaborative Cross

Author:

Kelada Samir N P1,Aylor David L2,Peck Bailey C E1,Ryan Joseph F1,Tavarez Urraca1,Buus Ryan J2,Miller Darla R23,Chesler Elissa J34,Threadgill David W5,Churchill Gary A4,Pardo-Manuel de Villena Fernando4,Collins Francis S11

Affiliation:

1. Genome Technology Branch, National Human Genome Research Institute, National Institutes of Health, Bethesda, Maryland 20892

2. Department of Genetics, The University of North Carolina, Chapel Hill, North Carolina 27599

3. Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831

4. The Jackson Laboratory, Bar Harbor, Maine 04609

5. Department of Genetics, North Carolina State University, Raleigh, North Carolina 27695

Abstract

Abstract Hematological parameters, including red and white blood cell counts and hemoglobin concentration, are widely used clinical indicators of health and disease. These traits are tightly regulated in healthy individuals and are under genetic control. Mutations in key genes that affect hematological parameters have important phenotypic consequences, including multiple variants that affect susceptibility to malarial disease. However, most variation in hematological traits is continuous and is presumably influenced by multiple loci and variants with small phenotypic effects. We used a newly developed mouse resource population, the Collaborative Cross (CC), to identify genetic determinants of hematological parameters. We surveyed the eight founder strains of the CC and performed a mapping study using 131 incipient lines of the CC. Genome scans identified quantitative trait loci for several hematological parameters, including mean red cell volume (Chr 7 and Chr 14), white blood cell count (Chr 18), percent neutrophils/lymphocytes (Chr 11), and monocyte number (Chr 1). We used evolutionary principles and unique bioinformatics resources to reduce the size of candidate intervals and to view functional variation in the context of phylogeny. Many quantitative trait loci regions could be narrowed sufficiently to identify a small number of promising candidate genes. This approach not only expands our knowledge about hematological traits but also demonstrates the unique ability of the CC to elucidate the genetic architecture of complex traits.

Publisher

Oxford University Press (OUP)

Subject

Genetics(clinical),Genetics,Molecular Biology

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