QTL of three agronomically important traits and their interactions with environment in a European x Chinese rapeseed population.

Jian-Yi Zhao, Heiko C Becker, Hou-Dong Ding, Yao-Feng Zhang, Dong-Qing Zhang, Wolfgang Ecke
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Abstract

A rapeseed population consisted of 282 doubled haploid (DH) lines derived from a cross between a European vality "Sallux" and a Chinese inbred line "Gaoyou" was planted in 4 locations, 2 in Xi'an and Hangzhou, China, and 2 in Goettingen, Germany. Field experiments were carried out to obtain agronomically phenotypic data from above four environments. A linkage map including 125 SSR-markers was constructed and QTL analyses was performed using mixed model approach to detect QTLs showing additive (a), epistasis (aa) as well as their interactions with environments (QE) for three important agronomic traits: plant height, flowering time and maturity. The results demonstrated that each trait was controlled by several QTLs with additive effect and a number of QTLs with epistatic and QE interaction effects. Plant height was controlled by many QTLs (12 loci with a or combined ae, 5 loci with ae). Additive effects were predominant,totally explained 75% of the phenotypic variation and often combined with digenic epistasis. Of 12 main QTLs, 9 showed Gaoyou alleles decreasing plant height. Most of QTLs with QE effects showed ecologically favourable alleles in diverse regions. Five of 7 ae loci showed Gaoyou alleles in Hangzhou and all the ae loci but one had Sollux alleles in two locations of Germany increasing plant height. The digenic epistatic main effect accounted for one third of total additive main effects. In this study,we discovered 7 and 8 loci having significant additive main effects upon flowering time and maturity, respectively. Of them, early flowering and maturity alleles were respectively 6 and 5 derived from Chinese parent Gaoyou. All these QTLs together accounted for around 60% of the phenotypic variation for each trait. Significant ae interactions were detected for flowering time and maturity and parental alleles showed almost evenly dispersal at all environments. Three of 8 main QTLs for maturity were located at similar or identical positions as QTLs for flowering time, which confirmed the close correlation between these two traits. Two QTLs for plant height on linkage groups N14-1 and 19 were located at similar positions as QTL for flowering time and as already known QTLs for oil content. Selection for reduced plant height and early flowering might reduce oil content. Digenic epistatic QTLs both for flowering time and maturity were detected but much less important than QTLs with additive effects.

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3个重要农艺性状的QTL及其与环境的相互作用
一个由282个双单倍体(DH)系组成的油菜籽群体,由欧洲优质的“Sallux”和中国自交系“高优”杂交而成,分别在中国西安和杭州的2个和德国哥廷根的2个地点进行了种植。通过田间试验获得上述4种环境下的农艺表型数据。构建了包含125个ssr标记的连锁图谱,并利用混合模型方法进行QTL分析,检测出在株高、花期和成熟度3个重要农艺性状中表现加性(A)、上位性(aa)及其与环境相互作用(QE)的QTL。结果表明,每个性状受多个具有加性效应的qtl和多个具有上位性和QE互作效应的qtl控制。株高受多个qtl控制(带ae或组合ae的位点12个,带ae的位点5个)。加性效应占主导地位,可解释75%的表型变异,并常与遗传上位性相结合。在12个主要qtl中,高邮等位基因有9个降低株高。多数具有QE效应的qtl在不同区域均表现出生态有利等位基因。杭州7个位点中有5个为高优等位基因,德国2个位点除1个为Sollux等位基因外,其余位点均呈株高增高。遗传上位主效应占加性主效应的三分之一。在本研究中,我们分别发现了7个和8个位点对开花时间和成熟度具有显著的加性主效应。其中早花等位基因6个,成熟等位基因5个,分别来源于中国亲本高邮。所有这些qtl加起来约占每个性状表型变异的60%。在开花时间和成熟度上均存在显著的相互作用,亲本等位基因在所有环境下分布均匀。8个主要成熟度qtl中,有3个与开花时间qtl位于相似或相同的位置,证实了这两个性状之间的密切相关。N14-1和19连锁群上的两个株高QTL与开花时间QTL和含油量QTL的位置相似。选择株高降低和花期提前可能会降低含油量。基因上位性qtl对开花时间和成熟度均有影响,但其重要性远低于具有加性效应的qtl。
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