Jamia Millia Islamia, Jamia Nagar, Centre for Interdisciplinary Research in Basic Sciences, New Delhi, India.
Department of Biotechnology, School of Engineering &Technology, IFTM University, Lodhipur-Rajput, Moradabad, Uttar Pradesh, India.
J Biomol Struct Dyn. 2020 Mar;38(5):1514-1524. doi: 10.1080/07391102.2019.1610500. Epub 2019 May 7.
Protection of telomere 1 (POT1) is a key component of shelterin complex, essential for maintaining telomere length and its regulation. It consists of -terminal domain (residues 1-299), which interacts with telomeric ssDNA, and the C-terminal domain (residues 320-634) that binds to the tripeptidyl-peptidase I (TPP1). A large number of naturally occurring mutations in the gene are associated with glioma, cardiac angiosarcoma and cutaneous familial melanoma (FM). In particular, Q94E mutation disrupts the interaction of POT1 with telomeric DNA which subsequently enhances telomere uncapping and elongation and promotes the development of cutaneous familial melanoma. To understand the underlying mechanism of familial melanoma developed by Q94E-mutation, we have performed extensive structure analysis of WT and mutant protein followed by molecular dynamics simulations. Q94E mutation causes a dramatic change in the structure and stability of POT1 protein. A considerable decrease in the flexibility, fluctuation and solvent accessibility of Q94E was observed in comparison to the WT, indicating overall destabilization of protein. Essential dynamics and Anisotropic Network Mode analysis have quantified a significant change in direction and magnitude of conformational motion in Q94E mutant compared to WT. A significant loss of frustration due to Q94E mutation was also observed. Our findings indicate the loss of protein stability and dynamics of POT1 protein by Q94E mutation may be associated with the familial melanoma. AbbreviationsANManisotropic network modeEDessential dynamicsFMfamilial melanomaMDmolecular dynamicsPOT1protection of telomere 1Rgradius of gyrationRMSDroot-mean-square deviationRMSFroot-mean-square fluctuationsSASAsolvent accessible surface areaSIFTsorting Intolerant from TolerantTPP1tripeptidyl-peptidase IWTwild typeCommunicated by Ramaswamy H. Sarma.
端粒 1(POT1)保护蛋白是保护素复合物的关键组成部分,对于维持端粒长度及其调控至关重要。它由 -末端结构域(残基 1-299)组成,该结构域与端粒 ssDNA 相互作用,以及 C-末端结构域(残基 320-634),该结构域与三肽基肽酶 I(TPP1)结合。大量自然发生的 基因中的突变与神经胶质瘤、心脏血管肉瘤和皮肤家族性黑素瘤(FM)有关。特别是,Q94E 突变破坏了 POT1 与端粒 DNA 的相互作用,随后增强了端粒去帽和伸长,并促进了皮肤家族性黑素瘤的发展。为了了解 Q94E 突变导致的家族性黑素瘤的潜在机制,我们对 WT 和突变蛋白进行了广泛的结构分析,并进行了分子动力学模拟。Q94E 突变导致 POT1 蛋白的结构和稳定性发生了剧烈变化。与 WT 相比,观察到 Q94E 的灵活性、波动和溶剂可及性有相当大的降低,表明蛋白质整体失稳。基本动态和各向异性网络模式分析量化了 Q94E 突变与 WT 相比构象运动方向和幅度的显著变化。还观察到由于 Q94E 突变导致的挫折感显著丧失。我们的研究结果表明,由于 Q94E 突变导致 POT1 蛋白的稳定性和动力学丧失可能与家族性黑素瘤有关。缩写词ANM各向异性网络模式ED基本动态FM家族性黑素瘤MD分子动力学POT1端粒 1 保护Rgr 回转半径RMSD均方根偏差RMSF均方根波动SAS 溶剂可及表面积SIFT耐受与不耐受排序TPP1三肽基肽酶 IWT 野生型由 Ramaswamy H. Sarma 传达。
