Quantitative trait locus analysis using recombinant inbred intercrosses: theoretical and empirical considerations. Academic Article uri icon

abstract

  • We describe a new approach, called recombinant inbred intercross (RIX) mapping, that extends the power of recombinant inbred (RI) lines to provide sensitive detection of quantitative trait loci (QTL) responsible for complex genetic and nongenetic interactions. RIXs are generated by producing F1 hybrids between all or a subset of parental RI lines. By dramatically extending the number of unique, reproducible genomes, RIXs share some of the best properties of both the parental RI and F2 mapping panels. These attributes make the RIX method ideally suited for experiments requiring analysis of multiple parameters, under different environmental conditions and/or temporal sampling. However, since any pair of RIX genomes shares either one or no parental RIs, this cross introduces an unusual population structure requiring special computational approaches for analysis. Herein, we propose an efficient statistical procedure for QTL mapping with RIXs and describe a novel empirical permutation procedure to assess genome-wide significance. This procedure will also be applicable to diallel crosses. Extensive simulations using strain distribution patterns from CXB, AXB/BXA, and BXD mouse RI lines show the theoretical power of the RIX approach and the analysis of CXB RIXs demonstrates the limitations of this procedure when using small RI panels.

published proceedings

  • Genetics

altmetric score

  • 4

author list (cited authors)

  • Zou, F., Gelfond, J., Airey, D. C., Lu, L. u., Manly, K. F., Williams, R. W., & Threadgill, D. W.

citation count

  • 71

complete list of authors

  • Zou, Fei||Gelfond, Jonathan AL||Airey, David C||Lu, Lu||Manly, Kenneth F||Williams, Robert W||Threadgill, David W

publication date

  • July 2005