Sivakumar Prasanth Kumar, Saumya K Patel, Ravi G Kapopara, Yogesh T Jasrai, Himanshu A Pandya
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引用次数: 0
摘要
番茄卷叶病(ToLCD)由番茄卷叶病毒(ToLCV)引起,表现为叶片变黄,叶片向上卷曲,叶片变形,叶面萎缩,植株生长受阻。在本研究中,我们利用计算方法探索了来自印度古吉拉特邦瓦多达拉地区分离物(ToLCGV-[Vad])的病毒衣壳蛋白的进化和分子前景。我们发现,在印度毒株中,衣壳蛋白中全身感染、病毒颗粒形成和昆虫向宿主细胞传播所需的氨基酸是保守的。对印度 ToLCV 衣壳蛋白的系统发育研究表明,该病毒与其他病毒类群在进化上是兼容的。对衣壳蛋白的建模显示,其拓扑结构与 Geminate 病毒颗粒的特征相似,由反平行的 β-桶状结构和 N 端的 α-螺旋组成。我们通过基于序列和结构的方法研究了衣壳蛋白与病毒 DNA 的分子相互作用,这种相互作用是封装和核穿梭所必需的。我们进一步强调了衣壳蛋白结构中的环作为分子识别界面的作用。
Evolutionary and molecular aspects of Indian tomato leaf curl virus coat protein.
Tomato leaf curl disease (ToLCD) is manifested by yellowing of leaf lamina with upward leaf curl, leaf distortion, shrinking of the leaf surface, and stunted plant growth caused by tomato leaf curl virus (ToLCV). In the present study, using computational methods we explored the evolutionary and molecular prospects of viral coat protein derived from an isolate of Vadodara district, Gujarat (ToLCGV-[Vad]), India. We found that the amino acids in coat protein required for systemic infection, viral particle formation, and insect transmission to host cells were conserved amongst Indian strains. Phylogenetic studies on Indian ToLCV coat proteins showed evolutionary compatibility with other viral taxa. Modeling of coat protein revealed a topology similar to characteristic Geminate viral particle consisting of antiparallel β-barrel motif with N-terminus α-helix. The molecular interaction of coat protein with the viral DNA required for encapsidation and nuclear shuttling was investigated through sequence- and structure-based approaches. We further emphasized the role of loops in coat protein structure as molecular recognition interface.
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