本烟羟丙酮酸还原酶基因家族:全基因组鉴定和表达模式分析

IF 5.4 Q1 PLANT SCIENCES
Hao Yang , Qing Wang , Jianfeng Zhang , Yuyong Hou , Qiulan Dai , Hexin Lv , Peijian Cao , Lei Zhao
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引用次数: 0

摘要

羟丙酮酸酯(HP)是光呼吸的关键中间体,在NADH/NADPH的辅助作用下,通过羟丙酮酸还原酶(HPRs)的催化作用转化为甘油。由HPR缺陷引起的非致死性表型允许使用突变体来研究光呼吸和其他细胞过程之间的相互作用,促进了光呼吸受损的植物基质的建立。考虑到建立HPR-系列的植物底盘将为促进植物合成生物学应对未来的挑战提供巨大的潜力,对benthamiana HPR基因家族的全基因组鉴定和生物信息学分析势在必行,但仍有待解决。在这项研究中,从全基因组研究中鉴定了12个N. benthamiana羟丙酮酸还原酶(NbHPRs)。通过系统发育分析,这些基因可分为3个亚类,每个亚类中都有保守的基因结构或基序组成。在HPRs启动子区域发现了多种信号传感元件,表明它们受到多种潜在转录因子(如C2H2蛋白)的调控。实时荧光定量PCR (qRTPCR)结果进一步表明,与其他器官相比,nbhpr在功能叶和幼叶中的表达水平更高。随后,我们通过瞬时表达分析证实了nbhpr的亚细胞定位,这表明它们具有不同的功能。此外,通过qRTPCR分析,评估该基因在氮处理下的相对表达量。这些工作将为阐明benthamiana中HPRs的功能和机制提供有价值的见解,从而阐明引入人工固碳途径的策略,以应对未来光呼吸的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydroxypyruvate reductase gene family in Nicotiana benthamiana: Genome-wide identification and expression pattern profiling

Hydroxypyruvate (HP), the key intermediate of photorespiration, is converted to glycerate via the catalysis of hydroxypyruvate reductases (HPRs) with NADH/NADPH as cofactors. The non-lethal phenotype resulting from HPR defects allows for the use of mutants to investigate interactions between photorespiration and other cellular processes, facilitating the establishment of plant chassis with compromised photorespiration. Considering that establishing a plant chassis of the HPR- series would provide great potential in promoting plant synthetic biology to tackle future challenges, the genome-wide identification and bioinformatics analysis of HPR gene family in N. benthamiana are imperative but remains to be solved. In this study, 12 N. benthamiana hydroxypyruvate reductases (NbHPRs) were identified from a genome-wide study. These genes could be classified into three subclasses by phylogenetic analysis, and conserved gene structures or motif compositions were identified in each subclass. A variety of signal-sensing elements were identified in the HPRs promoter regions indicating their regulation by multiple potential transcription factors such as C2H2 proteins. Quantitative real-time PCR (qRTPCR) results further demonstrated the higher expression levels of NbHPRs in functional and young leaves compared to other organs. Subsequently, we confirmed the subcellular localization of NbHPRs with transient expression analysis, which suggests their different functions. Moreover, the relative expression level of the gene under nitrogen (N) treatment was assessed through qRTPCR analysis. These works will offer valuable insights into elucidating the function and mechanism of HPRs in N. benthamiana, thus illuminating the strategies for introducing artificial carbon fixation pathways to tackle future challenges with the modification on photorespiration.

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来源期刊
Current Plant Biology
Current Plant Biology Agricultural and Biological Sciences-Plant Science
CiteScore
10.90
自引率
1.90%
发文量
32
审稿时长
50 days
期刊介绍: Current Plant Biology aims to acknowledge and encourage interdisciplinary research in fundamental plant sciences with scope to address crop improvement, biodiversity, nutrition and human health. It publishes review articles, original research papers, method papers and short articles in plant research fields, such as systems biology, cell biology, genetics, epigenetics, mathematical modeling, signal transduction, plant-microbe interactions, synthetic biology, developmental biology, biochemistry, molecular biology, physiology, biotechnologies, bioinformatics and plant genomic resources.
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