Mapping of quantitative trait loci using a doubled-haploid population from the cross of indica and japonica cultivars of rice
Date Issued
Date Online
Language
Type
Review Status
Usage Rights
Metadata
Full item pageCitation
Lapitan, Victoria C.; Redoña, Edilberto D.; Abe, Toshinori and Brar, Darshan S. 2009. Mapping of quantitative trait loci using a doubled-haploid population from the cross of indica and japonica cultivars of rice. Crop Science, Volume 49 no. 5 p. 1620-1628
Permanent link to cite or share this item
External link to download this item
Abstract/Description
Improving the cooking and eating quality of grain has always been an important consideration in most rice (Oryza sativaL.) breeding programs. In this study, an established rice doubled‐haploid (DH) population consisting of 219 lines from anther culture of the F1 ofindicavariety PSB Rc10 andjaponicavariety Nipponbare was used to identify the quantitative trait loci (QTL) for amylose content (AC), gel consistency (GC), and gelatinization temperature (GT). Two hundred five simple sequence repeat (SSR) markers were used to construct a genetic linkage map covering the 12 chromosomes. A total of 13 QTLs were identified—three for AC and five each for GC and GT. Eight QTLs had major effects from which seven coincided with the most important loci identified in previous reports. All QTLs for AC were shown to have major effects on GC and GT. The QTL with the largest effect, which accounted for 74% of the AC variation corresponded to the waxy (Wx) locus while the other two QTLs were located above and below this region. The significant phenotypic correlations of these traits may underlie the colocalization of their QTLs. A major QTL specifying GT was detected within the alkali degeneration (Alk) locus. Other minor QTLs were identified for GC in chromosomes 2 and 8 and for GT in chromosome 2. Utilization of a homozygous DH population with relatively large sample size might have increased the accuracy of mapping these QTLs. The results thus obtained are valuable in breeding rice varieties with better grain quality.