计算机模拟分析和表达谱分析表明EPSPS家族基因在调节发育和代谢过程中具有多种作用。

In-silico analysis and expression profiling implicate diverse role of EPSPS family genes in regulating developmental and metabolic processes.

作者信息

Garg Bharti, Vaid Neha, Tuteja Narendra

机构信息

International Centre Genetic Engineering and Biotechnology, Aruna Asaf Ali Marg, New Delhi 110 067, India.

出版信息

BMC Res Notes. 2014 Jan 22;7:58. doi: 10.1186/1756-0500-7-58.

DOI:10.1186/1756-0500-7-58

PMID:24450620

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3903108/

Abstract

BACKGROUND

The EPSPS, EC 2.5.1.19 (5-enolpyruvylshikimate -3-phosphate synthase) is considered as one of the crucial enzyme in the shikimate pathway for the biosynthesis of essential aromatic amino acids and secondary metabolites in plants, fungi along with microorganisms. It is also proved as a specific target of broad spectrum herbicide glyphosate.

RESULTS

On the basis of structure analysis, this EPSPS gene family comprises the presence of EPSPS I domain, which is highly conserved among different plant species. Here, we followed an in-silico approach to identify and characterize the EPSPS genes from different plant species. On the basis of their phylogeny and sequence conservation, we divided them in to two groups. Moreover, the interacting partners and co-expression data of the gene revealed the importance of this gene family in maintaining cellular and metabolic functions in the cell. The present study also highlighted the highest accumulation of EPSPS transcript in mature leaves followed by young leaves, shoot and roots of tobacco. In order to gain the more knowledge about gene family, we searched for the previously reported motifs and studied its structural importance on the basis of homology modelling.

CONCLUSIONS

The results presented here is a first detailed in-silico study to explore the role of EPSPS gene in forefront of different plant species. The results revealed a great deal for the diversification and conservation of EPSPS gene family across different plant species. Moreover, some of the EPSPS from different plant species may have a common evolutionary origin and may contain same conserved motifs with related and important molecular function. Most importantly, overall analysis of EPSPS gene elucidated its pivotal role in immense function within the plant, both in regulating plant growth as well its development throughout the life cycle of plant. Since EPSPS is a direct target of herbicide glyphosate, understanding its mechanism for regulating developmental and cellular processes in different plant species would be a great revolution for developing glyphosate resistant crops.

摘要

背景

5-烯醇丙酮酰莽草酸-3-磷酸合酶（EPSPS，EC 2.5.1.19）被认为是植物、真菌和微生物中用于合成必需芳香族氨基酸和次生代谢产物的莽草酸途径中的关键酶之一。它也被证明是广谱除草剂草甘膦的特定作用靶点。

结果

基于结构分析，该EPSPS基因家族包含EPSPS I结构域，该结构域在不同植物物种中高度保守。在此，我们采用计算机模拟方法从不同植物物种中鉴定和表征EPSPS基因。根据它们的系统发育和序列保守性，我们将它们分为两组。此外，该基因的相互作用伙伴和共表达数据揭示了该基因家族在维持细胞内细胞和代谢功能方面的重要性。本研究还突出了烟草成熟叶中EPSPS转录本的积累量最高，其次是幼叶、茎和根。为了更深入了解该基因家族，我们搜索了先前报道的基序，并基于同源建模研究了其结构重要性。

结论

本文给出的结果是首次对不同植物物种中EPSPS基因作用进行的详细计算机模拟研究。结果揭示了EPSPS基因家族在不同植物物种中的大量多样化和保守性。此外，来自不同植物物种的一些EPSPS可能有共同的进化起源，并且可能包含具有相关和重要分子功能的相同保守基序。最重要的是，对EPSPS基因的整体分析阐明了其在植物体内巨大功能中的关键作用，包括在调节植物生长以及整个生命周期发育方面。由于EPSPS是除草剂草甘膦的直接作用靶点，了解其在不同植物物种中调节发育和细胞过程的机制将是开发抗草甘膦作物的重大突破。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1162/3903108/efe590ef8006/1756-0500-7-58-1.jpg

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计算机模拟分析和表达谱分析表明EPSPS家族基因在调节发育和代谢过程中具有多种作用。

In-silico analysis and expression profiling implicate diverse role of EPSPS family genes in regulating developmental and metabolic processes.

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出版信息

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