光质对小扁豆开花时间调控的遗传与基因表达分析
Genetic and gene expression analysis of flowering time regulation by light quality in lentil.
作者信息
Yuan Hai Ying, Caron Carolyn T, Ramsay Larissa, Fratini Richard, de la Vega Marcelino Pérez, Vandenberg Albert, Weller James L, Bett Kirstin E
机构信息
Department of Plant Sciences, University of Saskatchewan, Saskatoon, SK, Canada.
Area de Genética, Departamento de Biología Molecular, Universidad de León, León, Spain.
出版信息
Ann Bot. 2021 Sep 3;128(4):481-496. doi: 10.1093/aob/mcab083.
BACKGROUND AND AIMS
Flowering time is important due to its roles in plant adaptation to different environments and subsequent formation of crop yield. Changes in light quality affect a range of developmental processes including flowering time, but little is known about light quality-induced flowering time control in lentil. This study aims to investigate the genetic basis for differences in flowering response to light quality in lentil.
METHODS
We explored variation in flowering time caused by changes in red/far-red-related light quality environments of a lentil interspecific recombinant inbred line (RIL) population developed from a cross between Lens culinaris cv. Lupa and L. orientalis accession BGE 016880. A genetic linkage map was constructed and then used for identifying quantitative trait loci (QTLs) associated with flowering time regulation under different light quality environments. Differential gene expression analysis through transcriptomic study and RT-qPCR were used to identify potential candidate genes.
KEY RESULTS
QTL mapping located 13 QTLs controlling flower time under different light quality environments, with phenotypic variance explained ranging from 1.7 to 62.9 %. Transcriptomic profiling and gene expression analysis for both parents of this interspecific RIL population identified flowering-related genes showing environment-specific differential expression (flowering DEGs). One of these, a member of the florigen gene family FTa1 (LcFTa1), was located close to three major QTLs. Furthermore, gene expression results suggested that two other florigen genes (LcFTb1 and LcFTb2), MADS-box transcription factors such as LcAGL6/13d, LcSVPb, LcSOC1b and LcFULb, as well as bHLH transcription factor LcPIF6 and Gibberellin 20 oxidase LcGA20oxC,G may also be involved in the light quality response.
CONCLUSIONS
Our results show that a major component of flowering time sensitivity to light quality is tightly linked to LcFTa1 and associated with changes in its expression. This work provides a foundation for crop improvement of lentil with better adaptation to variable light environments.
背景与目的
开花时间至关重要,因为它在植物适应不同环境以及随后的作物产量形成过程中发挥作用。光质的变化会影响包括开花时间在内的一系列发育过程,但关于光质诱导小扁豆开花时间控制的了解却很少。本研究旨在探究小扁豆对光质开花反应差异的遗传基础。
方法
我们研究了由栽培种小扁豆Lupa与东方小扁豆种质BGE 016880杂交培育的小扁豆种间重组自交系(RIL)群体中,与红/远红相关的光质环境变化所导致的开花时间变异。构建了遗传连锁图谱,随后用于鉴定在不同光质环境下与开花时间调控相关的数量性状位点(QTL)。通过转录组学研究和RT-qPCR进行差异基因表达分析,以鉴定潜在的候选基因。
关键结果
QTL定位在不同光质环境下确定了13个控制开花时间的QTL,表型变异解释率在1.7%至62.9%之间。对该种间RIL群体的两个亲本进行转录组分析和基因表达分析,鉴定出了显示环境特异性差异表达的开花相关基因(开花DEG)。其中之一,成花素基因家族FTa1的一个成员(LcFTa1),位于三个主要QTL附近。此外,基因表达结果表明,另外两个成花素基因(LcFTb1和LcFTb2)、MADS-box转录因子如LcAGL6/13d、LcSVPb、LcSOC1b和LcFULb,以及bHLH转录因子LcPIF6和赤霉素20氧化酶LcGA20oxC、G也可能参与光质反应。
结论
我们的结果表明,开花时间对光质敏感性的一个主要成分与LcFTa1紧密相关,并与其表达变化有关。这项工作为培育能更好适应多变光环境的小扁豆作物改良奠定了基础。
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