As a quantitatively inherited trait related to high yield potential, grain weight (GW) development in wheat is constrained by abiotic stresses such as limited water supply and high temperature. Data from a doubled haploid population, derived from a cross of (Hanxuan 10 x Lumai 14), grown in four environments were used to explore the genetic basis of GW developmental behavior in unconditional and conditional quantitative trait locus (QTL) analyses using a mixed linear model. Thirty additive QTLs and 41 pairs of epistatic QTLs were detected, and were more frequently observed on chromosomes 1B, 2A, 2D, 4A, 4B and 7B. No single QTL was continually active during all stages or periods of grain growth. The QTLs with additive effects (A-QTLs) expressed in the period S1 S0 (the period from the flowering to the seventh day after) formed a foundation for GW development. GW development at these stages can be used as an index for screening superior genotypes under diverse abiotic stresses in a wheat breeding program. One QTL, i.e. Qgw.cgb-6A.2, showed high adaptability for water-limited and heat-stress environments. Many A-QTLs interacted with more than one other QTL in the two genetic models, such as Qgw.cgb-4B.2 interacted with five QTLs, showing that the genetic architecture underlying GW development involves a collective expression of genes with additive and epistatic effects.
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机译:作为与高产潜力相关的数量遗传特性,小麦的粒重(GW)发育受到非生物胁迫(例如有限的供水和高温)的限制。来自在四个环境中生长的(Hanxuan 10 x Lumai 14)杂交的单倍体群体的数据用于探索GW在非条件和条件定量性状基因座(QTL)分析中的遗传基础,使用混合线性模型。检测到30个加性QTL和41对上位QTL,在染色体1B,2A,2D,4A,4B和7B上更常见。在谷物生长的所有阶段或期间,没有单个QTL持续活跃。在时期S1 S0(从开花到第七天的时期)表达的具有加性效应的QTL(A-QTL)构成了GW发育的基础。在小麦育种程序中,这些阶段的GW发育可用作在多种非生物胁迫下筛选优良基因型的指标。一个QTL,即Qgw.cgb-6A.2,显示了对水受限和热应激环境的高度适应性。在两个遗传模型中,许多A-QTL与一个以上的QTL相互作用,例如Qgw.cgb-4B.2与五个QTL相互作用,这表明GW发育的基础遗传结构涉及具有累加和上位效应的基因的集体表达。 。
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