Divya Vashisht, Hans van Veen, Melis Akman, Rashmi Sasidharan
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引用次数: 0
摘要
植物在洪涝环境中生存需要对多种胁迫条件(如有限的光照、减少的气体交换和养分吸收)做出综合反应。在转录和/或转录后水平对分子反应进行微调的能力最终会导致新陈代谢和解剖结构的调整,这是赋予耐受性的基本要求。在此之前,我们比较了耐淹水和不耐淹水品种的转录组调整,发现了基因型对淹水胁迫的核心保守和特异性反应,并确定了许多 "假定 "耐受基因。在这里,我们对 81 个天然拟南芥品种进行了全基因组关联分析,发现了另外 30 个与耐淹性相关的 SNP 标记。我们认为,鉴于拟南芥中有许多与耐淹水相关的基因,要提高其对淹水的抗性,需要进行大量的基因改变。
Variation in Arabidopsis flooding responses identifies numerous putative "tolerance genes".
Plant survival in flooded environments requires a combinatory response to multiple stress conditions such as limited light availability, reduced gas exchange and nutrient uptake. The ability to fine-tune the molecular response at the transcriptional and/or post-transcriptional level that can eventually lead to metabolic and anatomical adjustments are the underlying requirements to confer tolerance. Previously, we compared the transcriptomic adjustment of submergence tolerant, intolerant accessions and identified a core conserved and genotype-specific response to flooding stress, identifying numerous 'putative' tolerance genes. Here, we performed genome wide association analyses on 81 natural Arabidopsis accessions that identified 30 additional SNP markers associated with flooding tolerance. We argue that, given the many genes associated with flooding tolerance in Arabidopsis, improving resistance to submergence requires numerous genetic changes.
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