The crystal structure of insecticidal protein Txp40 from Xenorhabdus nematophila reveals a two-domain unique binary toxin with homology to the toxin-antitoxin (TA) system

IF 3.2 2区 农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Insect Biochemistry and Molecular Biology Pub Date : 2023-11-29 DOI:10.1016/j.ibmb.2023.104045
Omkar U. Kinkar , Ashwani Kumar , Arpit Prashar , Beena Yadav , Ashok B. Hadapad , Ramesh S. Hire , Ravindra D. Makde
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Abstract

Txp40 is a ubiquitous, conserved, and novel toxin from Xenorhabdus and Photorhabdus bacteria, toxic to a wide range of insect pests. However, the three-dimensional structure and toxicity mechanism for Txp40 or any of its sequence homologs are not yet known. Here, we are reporting the crystal structure of the insecticidal protein Txp40 from Xenorhabdus nematophila at 2.08 Å resolution. The Txp40 was structurally distinct from currently known insecticidal proteins. Txp40 consists of two structurally different domains, an N-terminal domain (NTD) and a C-terminal domain (CTD), primarily joined by a 33-residue long linker peptide. Txp40 displayed proteolytic propensity. Txp40 gets proteolyzed, removing the linker peptide, which is essential for proper crystal packing. NTD adopts a novel fold composed of nine amphipathic helices and has no shared sequence or structural homology to any known proteins. CTD has structural homology with RNases of type II toxin-antitoxin (TA) complex belonging to the RelE/ParE toxin domain superfamily. NTD and CTD were individually toxic to Galleria mellonella larvae. However, maximal toxicity was observed when both domains were present. Our results suggested that the Txp40 acts as a two-domain binary toxin, which is unique and different from any known binary toxins and insecticidal proteins. Txp40 is also unique because it belongs to the prokaryotic RelE/ParE toxin family with a toxic effect on eukaryotic organisms, in contrast to other members of the same family. Broad insect specificity and unique binary toxin complex formation make Txp40 a viable candidate to overcome the development of resistance in insect pests.

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嗜线虫Xenorhabdus nematophila杀虫蛋白Txp40的晶体结构揭示了一种独特的双结构域二元毒素,与毒素-抗毒素(TA)系统同源。
Txp40是一种广泛存在的、保守的、来自Xenorhabdus和光habdus细菌的新型毒素,对多种害虫都有毒性。然而,Txp40或其任何序列同源物的三维结构和毒性机制尚不清楚。在这里,我们报道了来自嗜线虫Xenorhabdus nematophila的杀虫蛋白Txp40在2.08 Å分辨率下的晶体结构。Txp40在结构上不同于目前已知的杀虫蛋白。Txp40由两个结构域组成,一个n端结构域(NTD)和一个c端结构域(CTD),主要由一个33个残基的长连接肽连接。Txp40表现出蛋白水解倾向。Txp40被蛋白水解,去除连接肽,这是正确的晶体包装所必需的。NTD采用了一种由9个两亲螺旋组成的新折叠,与任何已知蛋白质没有共享序列或结构同源性。CTD与属于RelE/ParE毒素结构域超家族的II型毒素-抗毒素(TA)复合物的rna具有结构同源性。NTD和CTD对mellonia幼虫均有单独毒性。然而,当两个结构域都存在时,观察到最大的毒性。结果表明,Txp40是一种独特的双结构域二元毒素,不同于任何已知的二元毒素和杀虫蛋白。Txp40也是独一无二的,因为它属于原核RelE/ParE毒素家族,与同一家族的其他成员相比,对真核生物具有毒性作用。广泛的昆虫特异性和独特的二元毒素复合物形成使Txp40成为克服害虫抗性发展的可行候选者。
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来源期刊
CiteScore
7.40
自引率
5.30%
发文量
105
审稿时长
40 days
期刊介绍: This international journal publishes original contributions and mini-reviews in the fields of insect biochemistry and insect molecular biology. Main areas of interest are neurochemistry, hormone and pheromone biochemistry, enzymes and metabolism, hormone action and gene regulation, gene characterization and structure, pharmacology, immunology and cell and tissue culture. Papers on the biochemistry and molecular biology of other groups of arthropods are published if of general interest to the readership. Technique papers will be considered for publication if they significantly advance the field of insect biochemistry and molecular biology in the opinion of the Editors and Editorial Board.
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