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Journal of Animal Science Abstract - Animal Genetics

Whole-genome association analyses for lifetime reproductive traits in the pig


This article in JAS

  1. Vol. 89 No. 4, p. 988-995
    Received: July 09, 2010
    Accepted: Dec 14, 2010
    Published: December 4, 2014

    1 Corresponding author(s):

  1. S. K. Onteru*,
  2. B. Fan*†,
  3. M. T. Nikkilä*,
  4. D. J. Garrick*,
  5. K. J. Stalder* and
  6. M. F. Rothschild 1
  1. Department of Animal Science and Center for Integrated Animal Genomics, Iowa State University, Ames 50011; and
    Key Laboratory of Agricultural Genetics, Breeding and Reproduction, Ministry of Education and College of Animal Science and Technology, Huazhong Agricultural University, Wuhan, 430070, P. R. China.



Profits for commercial pork producers vary in part because of sow productivity or sow productive life (SPL) and replacement costs. During the last decade, culling rates of sows have increased to more than 50% in the United States. Both SPL and culling rates are influenced by genetic and nongenetic factors. A whole-genome association study was conducted for pig lifetime reproductive traits, including lifetime total number born (LTNB), lifetime number born alive (LNBA), removal parity, and the ratio between lifetime nonproductive days and herd life. The proportion of phenotypic variance explained by markers was 0.15 for LTNB and LNBA, 0.12 for removal parity, and 0.06 for the ratio between lifetime nonproductive days and herd life. Several informative QTL regions (e.g., 14 QTL regions for LTNB) and genes within the regions (e.g., SLC22A18 on SSC2 for LTNB) were associated with lifetime reproductive traits in this study. Genes associated with LTNB and LNBA were similar, reflecting the high genetic correlation (0.99 ± 0.003) between these traits. Functional annotation revealed that many genes at the associated regions are expressed in reproductive tissues. For instance, the SLC22A18 gene on SSC2 associated with LTNB has been shown to be expressed in the placenta of mice. Many of the QTL regions showing associations coincided with previously identified QTL for fat deposition. This reinforces the role of fat regulation for lifetime reproductive traits. Overall, this whole-genome association study provides a list of genomic locations and markers associated with pig lifetime reproductive traits that could be considered for SPL in future studies.

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