Prediction of Secondary And Tertiary Structure And Docking of Rb1WT And Rb1R661W Proteins

Aimen Sajid, Muhammad Shaoor Saeed, Rabbiah M anzoor Malik, S. Fazal, S. Malik, M. Kamal
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Abstract

Retinoblastoma, a malignancy occurring in the juvenile cells of retina, responsible for the light detection. It is one of the most emerging and rare childhood and infant cancer. It is initiated by the mutation in Rb1 a first tumor suppressor gene located on chromosome 13q14. Rb1 protein is responsible for cell cycle regulation. In our study, secondary and 3D-Structural prediction of Rb1WT and Rb1R661W were done by comparative or homology modeling for finding any structural change leading to the disruption in its further interactions. Quality assurance of the structures was done by Ramachandran Plot for a stable structure. Both the proteins were then applied by docking process with proteins of interest. Secondary Structure showed number of mutations in helixes, β-Hairpins of Rb1R661W. The major change was lost of β-Hairpin loop, extension and shortening of helixes. 3D comparison structure showed change in the groove of Rb1R661W. Docking results unlike to RB1WT were having different and also no interactions with some of the proteins of interest. This mutation in Rb1 protein was having a deleterious effect on the protein functionality. This study will help in designing the appropriate therapy and also understanding of mechanism of disease of retinoblastoma, for researchers and pharmaceuticals.
Rb1WT和Rb1R661W蛋白的二级和三级结构预测及对接
视网膜母细胞瘤,一种发生在视网膜幼细胞中的恶性肿瘤,负责光检测。它是儿童和婴儿最罕见的新发癌症之一。它是由位于染色体13q14上的第一个肿瘤抑制基因Rb1突变引发的。Rb1蛋白负责细胞周期调节。在我们的研究中,Rb1WT和Rb1R661W的二级和三维结构预测是通过比较或同源建模来进行的,以发现任何导致其进一步相互作用中断的结构变化。结构的质量保证由Ramachandran Plot完成,以确保结构稳定。然后通过对接过程将这两种蛋白质与感兴趣的蛋白质结合。二级结构显示Rb1R661W的螺旋、β-发夹突变数。主要变化是β-发夹环,螺旋的延长和缩短。三维对比结构显示Rb1R661W的凹槽发生了变化。与RB1WT不同的是,对接结果与一些感兴趣的蛋白质有不同的相互作用,也没有相互作用。Rb1蛋白的这种突变对蛋白质的功能有有害的影响。本研究将有助于视网膜母细胞瘤研究人员设计合适的治疗方法,并进一步了解其发病机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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