A major QTL for resistance to soil-borne cerealmosaic virus derived from an old Italian durum wheat cultivar

The genetic basis of resistance to soil-borne cereal mosaic virus (SBCMV) in the Triticum turgidum L. var. durum cv. Neodur was analyzed in this study, using a linkage mapping approach. We performed phenotypic and molecular analyses of 146 recombinant inbred lines derived from the cross Cirillo (highly susceptible)×Neodur (highly resistant). A major quantitative trait locus (QTL) that explained up to 87% of the observed variability for symptom severity was identified on the short arm of chromosome 2B, within the 40-cM interval between the markers Xwmc764 and Xgwm1128, with wPt-2106 as the peak marker. Three minor QTLs were found on chromosomes 3B and 7B. Two markers coding for resistance proteins co-segregate with the major QTL on chromosome 2B and the minor QTL on chromosome 3B, representing potential candidate genes for the two resistance loci. Microsatellite markers flanking the major QTL were evaluated on a set of 25 durum wheat genotypes that were previously characterized for SBCMV resistance. The allelic composition of the genotypes at these loci, together with pedigree data, suggests that the old Italian cultivar Cappelli provided the SBCMV-resistance determinants to durum cultivars that have been independently bred in different countries over the last century

Analysis of sequences expressed following water stress in durum wheat in different developmental stages and tissues

Eight suppression subtractive libraries, enriched in transcripts differentially expressed in response to drought stress in durum wheat were produced and used as source of EST clones. The libraries were made from RNA isolated at different developmental stages (from seedling to maturity) and from different tissues. About 11,000 electropherograms were analysed, leading to 8,457 high quality EST submissions. Then, over-represented ESTs were identified in order to estimate the level of redundancy in each library as well as in the whole EST datasets, and a total of 4,748 non-redundant ESTs were obtained. These sequences significantly contribute to the publicly available EST collection of durum wheat, very limited compared to the corresponding collection of bread wheat, and represent a valuable tool for a better understanding of the mechanisms governing stress tolerance in durum wheat

A major QTL for resistance to soil-borne cereal mosaic virus derived from an old Italian durum wheat cultivar

The genetic basis of resistance to soil-borne cereal mosaic virus (SBCMV) in the Triticum turgidum L. var. durum cv. Neodur was analyzed in this study, using a linkage mapping approach. We performed phenotypic and molecular analyses of 146 recombinant inbred lines derived from the cross Cirillo (highly susceptible) 7Neodur (highly resistant). A major quantitative trait locus (QTL) that explained up to 87% of the observed variability for symptom severity was identified on the short arm of chromosome 2B, within the 40-cM interval between the markers Xwmc764 and Xgwm1128, with wPt-2106 as the peak marker. Three minor QTLs were found on chromosomes 3B and 7B. Two markers coding for resistance proteins co-segregate with the major QTL on chromosome 2B and the minor QTL on chromosome 3B, representing potential candidate genes for the two resistance loci. Microsatellite markers flanking the major QTL were evaluated on a set of 25 durum wheat genotypes that were previously characterized for SBCMV resistance. The allelic composition of the genotypes at these loci, together with pedigree data, suggests that the old Italian cultivar Cappelli provided the SBCMV-resistance determinants to durum cultivars that have been independently bred in different countries over the last century. \ua9 2012 Copyright Taylor and Francis Group, LLC