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拟南芥开花时间的数量性状基因座分析。

QTL analysis of flowering time in Arabidopsis thaliana.

作者信息

Clarke J H, Mithen R, Brown J K, Dean C

机构信息

Department of Molecular Genetics, BBSRC, John Innes Centre, Norwich, UK.

出版信息

Mol Gen Genet. 1995 Aug 21;248(3):278-86. doi: 10.1007/BF02191594.

DOI:10.1007/BF02191594
PMID:7565589
Abstract

Quantitative trait loci (QTL) analyses based on restriction fragment length polymorphism maps have been used to resolve the genetic control of flowering time in a cross between two Arabidopsis thaliana ecotypes H51 and Landsberg erecta, differing widely in flowering time. Five quantitative trait loci affecting flowering time were identified in this cross (RLN1-5), four of which are located in regions containing mutations or loci previously identified as conferring a late-flowering phenotype. One of these loci is coincident with the FRI locus identified as the major determinant for late flowering and vernalization responsiveness in the Arabidopsis ecotype Stockholm. RLN5, which maps to the lower half of chromosome five (between markers mi69 and m233), only affected flowering time significantly under short day conditions following a vernalization period. The late-flowering phenotype of H51 compared to Landsberg erecta was due to alleles conferring late flowering at only two of the five loci. At the three other loci, H51 possessed alleles conferring early flowering in comparison to those of Landsberg erecta. Combinations of alleles conferring early and late flowering from both parents accounted for the transgressive segregation of flowering time observed within the F2 population. Three QTL, RLN1, RLN2 and RLN3 displayed significant genotype-by-environment interactions for flowering time. A significant interaction between alleles at RLN3 and RLN4 was detected.

摘要

基于限制性片段长度多态性图谱的数量性状位点(QTL)分析,已被用于解析拟南芥两个生态型H51和直立型兰茨贝格之间杂交中开花时间的遗传控制,这两个生态型在开花时间上差异很大。在该杂交中鉴定出了五个影响开花时间的数量性状位点(RLN1 - 5),其中四个位于含有先前鉴定为导致晚花表型的突变或位点的区域。这些位点之一与在拟南芥生态型斯德哥尔摩中被确定为晚花和春化反应主要决定因素的FRI位点重合。RLN5定位于第五条染色体的下半部分(在标记mi69和m233之间),仅在春化处理后的短日条件下显著影响开花时间。与直立型兰茨贝格相比,H51的晚花表型仅归因于五个位点中两个位点上赋予晚花的等位基因。在其他三个位点上,与直立型兰茨贝格相比,H51拥有赋予早花的等位基因。来自双亲的赋予早花和晚花的等位基因组合,解释了在F2群体中观察到的开花时间的超亲分离现象。三个QTL,即RLN1、RLN2和RLN3,在开花时间上表现出显著的基因型与环境的相互作用。在RLN3和RLN4的等位基因之间检测到显著的相互作用。

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