期刊
THEORETICAL AND APPLIED GENETICS
卷 132, 期 6, 页码 1661-1676出版社
SPRINGER
DOI: 10.1007/s00122-019-03305-4
关键词
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资金
- Wissenschaftsgemeinschaft Gottfried Wilhelm Leibniz (WGL)
- Leibniz-Graduate School Gatersleben Yield formation in cereals - overcoming yield-limiting factors [FKZ 401410]
- HEISENBERG Program of the German Research Foundation (DFG) [SCHN 768/8-1]
- IPK core budget
Key message Modifying morphometric inflorescence traits is important for increasing grain yield in wheat. Mapping revealed nine QTL, including new QTL and a new allele for the q locus, controlling wheat spike morphometric traits. Abstract To identify loci controlling spike morphometric traits, namely spike length (SL), internode length (IL), node number per spike (NPS), and node density (ND), we studied 146 Recombinant Inbred Lines of tetraploid wheat (Triticum turgidum L.) derived from standard spike and spike-branching mutant parents. Phenotypic analyses of spike morphometric traits showed low genetic coefficients of variation, resulting in high heritabilities. The phenotypic correlation between NPS with growing degree days (GDD) suggested the importance of GDD in the determination of node number in wheat. The major effect QTL for GDD or heading date was mapped to chromosome 7BS carrying the flowering time gene, Vrn3-B1. Mapping also identified nine QTL controlling spike morphometric traits. Most of these loci controlled more than a single trait, suggesting a close genetic interrelationship among spike morphometric traits. For example, this study identified a new QTL, QND.ipk-4AL, controlling ND (up to 17.6% of the phenotypic variance), IL (up to 11% of the phenotypic variance), and SL (up to 20.8% of the phenotypic variance). Similarly, the major effect QTL for IL was mapped to the q locus. Sequencing of the Q/q gene further revealed a new q allele, q(del)-5A, in spike-branching accessions possessing a six base pair deletion close to the miR172 target site. The identification of q(del)-5A suggested that the spike-branching tetraploid wheats are double mutants for the spikelet meristem (SM) identity gene, i.e., branched head(t) (TtBH(t)), and the q gene, which is believed to be involved in the SM indeterminacy complex in wheat.
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