与草甘膦代谢有关的 Oryza sativa 卤酸脱卤酶基因的全基因组鉴定和表达

IF 1.6 3区 农林科学 Q2 AGRONOMY
Zhao Jie Chen, Ya Nan Qu, Jun Jin Lu, Si Ying Li, Gan Ai, Xu Zhen Shi, Li Qing Zeng, Xiao Liang Liu, Dan Lu
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引用次数: 0

摘要

植物卤酸脱卤酶(HADs)是一个超家族的蛋白质,可促进水解和脱卤过程,从而实现有机污染物的解毒和代谢。然而,有害农用化学品如何刺激水稻中 HAD 的产生仍是一个未知数。本研究揭示了噁唑草酮处理的水稻转录组数据集中 37 个 HAD 编码基因的表达情况,并鉴定了 4 个 HAD 差异表达基因(DEGs)。染色体位置和共线性分析表明,37 个 HAD 表达基因不均匀地分布在 12 条水稻染色体上。虽然这 37 个 HAD 基因没有表现出种内共线性,但分别有 5 个和 25 个水稻 HAD 基因与拟南芥和大豆表现出共线性关系。然而,只有一个 DEG(Os05g0457800)与拟南芥和大豆存在共线性关系。此外,这些水稻 HAD 基因(包括 4 个 HAD DEGs)表现出一系列的基因结构、顺式元件、图案组成和保守结构域,使它们能够编码一系列的生物和非生物胁迫反应。Oxadiazon 与四个 HAD DEGs 之间的对接分析揭示了与 Oxadiazon 结合相关的氨基酸残基。当施加 0.05-0.25 mg L-1 Oxadiazon 胁迫时,水稻根和芽中的 HAD 活性被激发,分别比对照高 2 倍和 9.2 倍。这些研究结果表明,这些 HAD 基因能有效地应对 oxadiazon 胁迫,并组成了一组候选基因(尤其是这四个 HAD DEGs),可用于进一步鉴定农药代谢和降解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Genome-wide identification and expression of Oryza sativa haloacid dehalogenase genes associated with oxadiazon metabolism

Genome-wide identification and expression of Oryza sativa haloacid dehalogenase genes associated with oxadiazon metabolism

Plant haloacid dehalogenases (HADs) comprise a superfamily of proteins that facilitate the hydrolysis and dehalogenation processes for the detoxification and metabolism of organic contaminants. However, it remains entirely unknown how harmful agrochemicals stimulate HAD production in rice. In this study, the expression of 37 HAD-coding genes is revealed and 4 HAD-differentially expressed genes (DEGs) are identified in oxadiazon-treated rice transcriptome datasets. Chromosomal location and collinearity analyses show that 37 HAD expression genes are unevenly distributed on 12 rice chromosomes. Although these 37 HAD genes do not exhibit intraspecific collinearity, 5 and 25 rice HAD genes demonstrate collinearity relationships with Arabidopsis and soybean, respectively. However, only one DEG (Os05g0457800) shows a collinearity relationship with Arabidopsis and soybean. In addition, these rice HAD genes (including four HAD DEGs) exhibit a range of gene structures, cis-elements, motif compositions, and conserved domains that allow them to encode a range of biotic and abiotic stress responses. A docking analysis between oxadiazon and four HAD DEGs reveals amino acid residues implicated in oxadiazon binding. HAD activity in rice roots and shoots is found to be stimulated when 0.05–0.25 mg L−1 oxadiazon stress is applied, which is 2- and 9.2-fold higher than the control, respectively. These findings show that these HAD genes respond effectively to oxadiazon stress and comprise a set of candidate genes (especially these four HAD DEGs) for the further characterization of pesticide metabolism and degradation.

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来源期刊
Genetic Resources and Crop Evolution
Genetic Resources and Crop Evolution 农林科学-农艺学
CiteScore
4.10
自引率
10.00%
发文量
178
审稿时长
3 months
期刊介绍: Genetic Resources and Crop Evolution is devoted to all aspects of plant genetic resources research. It publishes original articles in the fields of taxonomical, morphological, physiological, biochemical, genetical, cytological or ethnobotanical research of genetic resources and includes contributions to gene-bank management in a broad sense, that means to collecting, maintenance, evaluation, storage and documentation. Areas of particular interest include: -crop evolution -domestication -crop-weed relationships -related wild species -history of cultivated plants including palaeoethnobotany. Genetic Resources and Crop Evolution also publishes short communications, e.g. newly described crop taxa, nomenclatural notes, reports of collecting missions, evaluation results of gene-bank material etc. as well as book reviews of important publications in the field of genetic resources. Every volume will contain some review articles on actual problems. The journal is the internationalized continuation of the German periodical Die Kulturpflanze, published formerly by the Institute of Plant Genetics and Crop Plant Research at Gatersleben, Germany. All contributions are in the English language and are subject to peer reviewing.
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