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GrainGenes Reference Report: TAG-99-1221

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Reference	TAG-99-1221
Title	Does function follow form? Principal QTLs for Fusarium head blight (FHB) resistance are coincident with QTLs for inflorescence traits and plant height in a doubled-haploid population of barley
Journal	Theoretical and Applied Genetics
Year	1999
Volume	99
Pages	1221-1232
Author	Zhu H [ Show all 10 ]
Abstract	Summary: Fusarium head blight (FHB), an important disease of barley in many areas of the world, causes losses in grain yield and quality. Deoxynivalenol (DON) mycotoxin residues, produced by the primary pathogen Fusarium graminearum, pose potential health risks. Barley producers may not be able to profitably market FHB-infected barley, even though it has a low DON level. Three types of FHB resistance have been described in wheat: Type I (penetration), Type II (spread), and Type III (mycotoxin degradation). We describe putative measures of these three types of resistance in barley. In wheat, the three resistance mechanisms show quantitative inheritance. Accordingly, to study FHB resistance in barley, we used quantitative trait locus (QTL) mapping to determine the number, genome location, and effects of QTLs associated with Type-I and -II resistance and the concentration of DON in the grain. We also mapped QTLs for plant height, heading date, and morphological attributes of the inflorescence (seeds per inflorescence, inflorescence density, and lateral floret size). QTL analyses were based on a mapping population of F(1)-derived doubled-haploid (DH) lines from the cross of the two-rowed genotypes Gobernadora and CMB643, a linkage map constructed with RFLP marker loci, and field evaluations of the three types of FHB resistance performed in China, Mexico, and two environments in North Dakota, USA. Resistance QTLs were detected in six of the seven linkage groups. Alternate favorable alleles were found at the same loci when different inoculation techniques were used to measure Type-I resistance. The largest-effect resistance QTL (for Type-II resistance) was mapped in the centromeric region of chromosome 2. All but two of the resistance QTLs coincided with QTLs determining morphological attributes of the inflorescence and/or plant height. Additional experiments are needed to determine if these coincident QTLs are due to linkage or pleiotropy and to more clearly define the biological basis of the FHB resistance QTLs. Plant architecture should be considered in FHB resistance breeding efforts, particularly those directed at resistance QTL introgression and/or pyramiding. Total number of records in report: 96
External Databases	http://link.springer.de/link/service/journals/00122/bibs/9099007/90991221.htm
QTL	[ Hide all but 1 of 34 ] QYld.StMo-2H.1 QYld.StMo-3H.1 QYld.StMo-6H MetaQ.FHB_1H_6 MetaQ.DON_1H_3 MetaQ.FHB_2H_34 MetaQ.FHB_2H_35 MetaQ.DON_2H_20 MetaQ.KPS_2H_3 MetaQ.FHB_3H_3 MetaQ.FHB_3H_6 MetaQ.FHB_3H_7 MetaQ.DON_3H_4 MetaQ.HT_3H_5 MetaQ.KPS_3H_1 MetaQ.KPS_3H_2 MetaQ.KPS_3H_3 MetaQ.FHB_4H_1 MetaQ.FHB_4H_2 MetaQ.FHB_4H_5 MetaQ.DON_4H_4 MetaQ.HT_4H_2 MetaQ.HT_4H_4 MetaQ.KPS_4H_1 MetaQ.KPS_4H_2 MetaQ.FHB_6H_13 MetaQ.HT_6H_3 MetaQ.FHB_7H_2 MetaQ.FHB_7H_4 MetaQ.FHB_7H_5 MetaQ.DON_7H_2 MetaQ.HD_7H_2 MetaQ.HT_7H_1 MetaQ.HT_7H_5
Keyword	alleles [ Show all 82 ]

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