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来自ATCC 12039的一种假定蛋白的计算机模拟表征揭示了一种VI型分泌系统的致病相关蛋白。

In Silico Characterization of a Hypothetical Protein from ATCC 12039 Reveals a Pathogenesis-Related Protein of the Type-VI Secretion System.

作者信息

Rabbi Md Fazley, Akter Saiwda Asma, Hasan Md Jaimol, Amin Al

机构信息

Department of Biotechnology and Genetic Engineering, Noakhali Science and Technology University, Noakhali, Bangladesh.

出版信息

Bioinform Biol Insights. 2021 Apr 22;15:11779322211011140. doi: 10.1177/11779322211011140. eCollection 2021.

DOI:10.1177/11779322211011140
PMID:33994781
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8076777/
Abstract

Shigellosis caused by is a major public health concern worldwide, particularly in developing countries. The bacterial genome is known, but there are many hypothetical proteins whose functions are yet to be discovered. A hypothetical protein (accession no. WP_128879999.1, 161 residues) of ATCC 12039 strain was selected in this study for comprehensive structural and functional analysis. Subcellular localization and different physicochemical properties of this hypothetical protein were estimated indicating it as a stable, soluble, and extracellular protein. Functional annotation tools, such as NCBI-CD Search, Pfam, and InterProScan, predicted our target protein to be an amidase effector protein 4 (Tae4) of type-VI secretion system (T6SS). Multiple sequence alignment of the homologous sequences coincided with previous findings. Random coil was found to be predominant in secondary structure. Three-dimensional (3D) structure of the protein was obtained using homology modeling method by SWISS-MODEL server using a template protein (PDB ID: 4J30) of 80.12% sequence identity. The 3D structure became more stable after YASARA energy minimization and was validated by several quality assessment tools like PROCHECK, QMEAN, Verify3D, and ERRAT. Superimposition of the target with the template protein by UCSF Chimera generated RMSD value of 0.115 Å, suggesting a reliable 3D structure. The active site of the modeled structure was predicted and visualized by CASTp server and PyMOL. Interestingly, similar binding affinity and key interacting residues were found for the target protein and a Tae4 protein with the ligand L-Ala D-Glu-mDAP by molecular docking analysis. Protein-protein docking was also performed between the target protein and hemolysin coregulated protein 1 of T6SS. Finally, the protein was found to be a unique protein of nonhomologous to human by comparative genomics approach indicating a potential therapeutic target. Most pathogens harboring T6SS in their system pose a significant threat to the human health. Many T6SSs and their effectors are associated with interbacterial competition, pathogenesis, and virulency; however, relationships between these effectors and pathogenicity of are yet to be determined. The study findings provide a lucrative platform for future antibacterial treatment.

摘要

由[病原体名称未给出]引起的志贺氏菌病是全球主要的公共卫生问题,在发展中国家尤为突出。该细菌的基因组是已知的,但仍有许多假定蛋白的功能尚未被发现。本研究选择了[病原体名称未给出]ATCC 12039菌株的一种假定蛋白(登录号WP_128879999.1,161个氨基酸残基)进行全面的结构和功能分析。对该假定蛋白的亚细胞定位和不同理化性质进行了评估,表明它是一种稳定、可溶的细胞外蛋白。通过NCBI-CD Search、Pfam和InterProScan等功能注释工具预测我们的目标蛋白是VI型分泌系统(T6SS)的酰胺酶效应蛋白4(Tae4)。同源序列的多序列比对与先前的研究结果一致。发现随机卷曲在二级结构中占主导地位。使用SWISS-MODEL服务器通过同源建模方法,以序列同一性为80.12%的模板蛋白(PDB ID:4J30)获得了该蛋白的三维(3D)结构。经过YASARA能量最小化后,3D结构变得更加稳定,并通过PROCHECK、QMEAN、Verify3D和ERRAT等多种质量评估工具进行了验证。通过UCSF Chimera将目标蛋白与模板蛋白进行叠加,得到的RMSD值为0.115 Å,表明3D结构可靠。通过CASTp服务器和PyMOL预测并可视化了建模结构的活性位点。有趣的是,通过分子对接分析发现目标蛋白与配体L-Ala D-Glu-mDAP的Tae4蛋白具有相似的结合亲和力和关键相互作用残基。还在目标蛋白与T6SS的溶血素共调节蛋白1之间进行了蛋白质-蛋白质对接。最后,通过比较基因组学方法发现该蛋白是一种与人类无同源性的[病原体名称未给出]独特蛋白,表明它是一个潜在的治疗靶点。大多数在其系统中含有T6SS的病原体对人类健康构成重大威胁。许多T6SS及其效应蛋白与细菌间竞争、发病机制和毒力有关;然而,这些效应蛋白与[病原体名称未给出]致病性之间的关系尚未确定。该研究结果为未来的抗菌治疗提供了一个有利的平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/1365fd6fbd39/10.1177_11779322211011140-fig11.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/6bf0f410b57f/10.1177_11779322211011140-fig1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/efb79d8ab136/10.1177_11779322211011140-fig6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/82f19d2be02c/10.1177_11779322211011140-fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/fcea51a171e0/10.1177_11779322211011140-fig8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/7415a2a783fd/10.1177_11779322211011140-fig9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/6cba3dc41b24/10.1177_11779322211011140-fig10.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/1365fd6fbd39/10.1177_11779322211011140-fig11.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/6bf0f410b57f/10.1177_11779322211011140-fig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/e7d52ef2cb60/10.1177_11779322211011140-fig2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/a02813693edf/10.1177_11779322211011140-fig3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/06497fe7395f/10.1177_11779322211011140-fig4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/f489c936e60d/10.1177_11779322211011140-fig5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/efb79d8ab136/10.1177_11779322211011140-fig6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/82f19d2be02c/10.1177_11779322211011140-fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/fcea51a171e0/10.1177_11779322211011140-fig8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/7415a2a783fd/10.1177_11779322211011140-fig9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/6cba3dc41b24/10.1177_11779322211011140-fig10.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5d1/8076777/1365fd6fbd39/10.1177_11779322211011140-fig11.jpg

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