Identification of Trait-Improving Quantitative Trait Loci Alleles From a Wild Rice Relative, Oryza rufipogon

Identification of Trait-Improving Quantitative Trait Loci Alleles From a Wild Rice Relative, Oryza rufipogon

Jinhua Xiao^a, Jiming Li^a,b, Silvana Grandillo^a, Sang Nag Ahn^a, Longping Yuan^b, Steven D. Tanksley^a, and Susan R. McCouch^a
^a Department of Plant Breeding, Cornell University, Ithaca, New York 14853
^b China National Hybrid Rice Research and Development Center, Changsha, Hunan 410125, People's Republic of China

Corresponding author: Susan R. McCouch, Department of Plant Breeding, 252 Emerson Hall, Cornell University, Ithaca, NY 14853-1902., srm4{at}cornell.edu (E-mail).

Communicating editor: J. A. BIRCHLER

Wild species are valued as a unique source of genetic variation,but they have rarely been used for the genetic improvement ofquantitative traits. To identify trait-improving quantitativetrait loci (QTL) alleles from exotic species, an accession ofOryza rufipogon, a relative of cultivated rice, was chosen onthe basis of a genetic diversity study. An interspecific BC₂testcross population (V20A/O. rufipogon//V20B///V20B////Ce64)consisting of 300 families was evaluated for 12 agronomicallyimportant quantitative traits. The O. rufipogon accession wasphenotypically inferior for all 12 traits. However, transgressivesegregants that outperformed the original elite hybrid variety,V20A/Ce64, were observed for all traits examined. A set of 122RFLP and microsatellite markers was used to identify QTL. Atotal of 68 significant QTL were identified, and of these, 35(51%) had beneficial alleles derived from the phenotypicallyinferior O. rufipogon parent. Nineteen (54%) of these beneficialQTL alleles were free of deleterious effects on other characters.O. rufipogon alleles at two QTL on chromosomes 1 and 2 wereassociated with an 18 and 17% increase in grain yield per plant,respectively, without delaying maturity or increasing plantheight. This discovery suggests that the innovative use of molecularmaps and markers can alter the way geneticists utilize wildand exotic germplasm.

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