多个大麦品种的转录分析确定了水涝反应的特征。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-08-12 eCollection Date: 2023-08-01 DOI:10.1002/pld3.518
Alexandra Miricescu, Ailbhe Jane Brazel, Joseph Beegan, Frank Wellmer, Emmanuelle Graciet
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引用次数: 0

摘要

涝害导致全球农作物遭受重大损失,尤其是大麦等对涝害敏感的作物。涝害减少了氧气供应,导致额外的压力,从而激活缺氧和应激反应途径,促进植物存活。虽然某些大麦品种比其他品种更耐涝,而且一些与耐涝性相关的数量性状基因位点也已确定,但这一性状的分子机制大多尚不清楚。转录组学方法可为我们了解耐涝性提供非常有价值的信息。在此,我们调查了 21 个大麦品种在涝害条件下保守的缺氧反应基因的不同转录激活情况,并筛选出 5 个核心缺氧反应基因诱导水平不同的品种。我们进一步从芽和根的性状方面描述了它们对水涝的表型响应。我们通过 RNA 测序评估了这些选定品种对水涝的全基因组转录反应,从而确定了不同数据集共有的 98 个水涝反应基因。其中许多基因是所谓的 "核心缺氧反应基因 "的直向同源物,从而突出了植物对涝害反应的保守性。层次聚类分析还发现了不同品种在涝害胁迫前具有内在差异表达的基因组。这些基因可能是研究大麦耐涝性或敏感性 "易感性 "的有趣候选基因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Transcriptional analysis in multiple barley varieties identifies signatures of waterlogging response.

Waterlogging leads to major crop losses globally, particularly for waterlogging-sensitive crops such as barley. Waterlogging reduces oxygen availability and results in additional stresses, leading to the activation of hypoxia and stress response pathways that promote plant survival. Although certain barley varieties have been shown to be more tolerant to waterlogging than others and some tolerance-related quantitative trait loci have been identified, the molecular mechanisms underlying this trait are mostly unknown. Transcriptomics approaches can provide very valuable information for our understanding of waterlogging tolerance. Here, we surveyed 21 barley varieties for the differential transcriptional activation of conserved hypoxia-response genes under waterlogging and selected five varieties with different levels of induction of core hypoxia-response genes. We further characterized their phenotypic response to waterlogging in terms of shoot and root traits. RNA sequencing to evaluate the genome-wide transcriptional responses to waterlogging of these selected varieties led to the identification of a set of 98 waterlogging-response genes common to the different datasets. Many of these genes are orthologs of the so-called "core hypoxia response genes," thus highlighting the conservation of plant responses to waterlogging. Hierarchical clustering analysis also identified groups of genes with intrinsic differential expression between varieties prior to waterlogging stress. These genes could constitute interesting candidates to study "predisposition" to waterlogging tolerance or sensitivity in barley.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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