Identification, Characterization, and Modeling of a Bioinsecticide Protein Isolated from Scorpion Venom gland: A Three-Finger Protein.

Q2 Biochemistry, Genetics and Molecular Biology Iranian Biomedical Journal Pub Date : 2023-07-01 DOI:10.52547/ibj.3885
Masoumeh Baradaran, Masoud Mahdavinia, Maryam Naderi Soorki, Sahand Jorfi
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Abstract

Background: The majority of insecticides target sodium channels. The increasing emergence of resistance to the current insecticides has persuaded researchers to search for alternative compounds. Scorpion venom gland as a reservoir of peptides or proteins, which selectively target insect sodium channels. These proteins would be an appropriate source for finding new suitable anti-insect components.

Methods: Transcriptome of venom gland of scorpion Mesobuthus eupeus was obtained by RNA extraction and complementary DNA library synthesis. The obtained transcriptome was blasted against protein databases to find insect toxins against sodium channel based on the statistically significant similarity in sequence. Physicochemical properties of the identified protein were calculated using bioinformatics software. The three-dimensional structure of this protein was determined using homology modeling, and the final structure was assessed by molecular dynamics simulation.

Results: The sodium channel blocker found in the transcriptome of M. eupeus venom gland was submitted to the GenBank under the name of meuNa10, a stable hydrophilic protein consisting of 69 amino acids, with the molecular weight of 7721.77 g/mol and pI of 8.7. The tertiary structure of meuNa10 revealed a conserved LCN-type cysteine-stabilized alpha/beta domain stabilized by eight cysteine residues. The meuNa10 is a member of the 3FP superfamily consisting of three finger-like beta strands.

Conclusion: This study identified meuNa10 as a small insect sodium channel-interacting protein with some physicochemical properties, including stability and water-solubility, which make it a good candidate for further in vivo and in vitro experiments in order to develop a new bioinsecticide.

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从蝎毒腺分离的一种生物杀虫剂蛋白的鉴定、表征和建模:一种三指蛋白。
背景:大多数杀虫剂针对钠通道。对目前杀虫剂的耐药性日益显现,促使研究人员寻找替代化合物。蝎毒腺作为肽或蛋白质的贮存器,选择性地靶向昆虫钠通道。这些蛋白质将是寻找新的合适的防虫成分的合适来源。方法:采用RNA提取和互补DNA文库合成的方法获得真蝎毒腺转录组。将获得的转录组与蛋白质数据库进行比对,以基于序列的统计学显著相似性来寻找针对钠通道的昆虫毒素。使用生物信息学软件计算鉴定的蛋白质的理化性质。使用同源性建模确定该蛋白质的三维结构,并通过分子动力学模拟评估最终结构。结果:在欧洲毒蜥毒腺转录组中发现的钠通道阻断剂以meuNa10的名称提交给GenBank,该蛋白是一种由69个氨基酸组成的稳定亲水性蛋白,分子量为7721.77g/mol,pI为8.7。meuNa10的三级结构揭示了由八个半胱氨酸残基稳定的保守的LCN型半胱氨酸稳定的α/β结构域。meuNa10是由三条指状β链组成的3FP超家族的成员。结论:本研究确定meuNa10是一种小型昆虫钠通道相互作用蛋白,具有一定的物理化学性质,包括稳定性和水溶性,这使其成为进一步体内外实验的良好候选者,以开发一种新的生物杀虫剂。
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来源期刊
Iranian Biomedical Journal
Iranian Biomedical Journal Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
3.20
自引率
0.00%
发文量
42
审稿时长
8 weeks
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