Exploring the Ultra-Rare Truncating Protein Variant Missense Mutation and Regulatory SNPs of the Human PRDM16 Using in Silico Approach

Haya: The Saudi Journal of Life Sciences Pub Date : 2023-11-16 DOI:10.36348/sjls.2023.v08i10.003

Amrit Sudershan, Shikha Bharti, Meenakshi Bhagat, Isha Sharma, Rakesh K. Panjalyia, Parvinder Kumar

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Abstract

Background: Genomics is one of the disciplines of modern medicine that focuses on identifying causative genes and their related variations that may have an impact on complex disorders. Candidate gene association studies are critical for determining the genetic relationship of genomic variations with complicated illnesses. Aim: The goal of this study is to anticipate the likely relationship of PRDM16 gene variations with negative effects on structural and functional features using online computational tools. Methodology: An insilico approach was utilized to find out the rare variant in the PRDM16 gene. Result: We found eight missense variants including rs572205989, rs201814961, rs572178955, rs182452331, rs551202646, rs554705536, rs184929979 and rs573567598that could play a role in the development of disease. Discussion & conclusion: This methodology can be used in future genomes and association studies, but it must be tested in a model organism and cell culture. This research could be useful in personalized therapy and could lead to the discovery of new therapeutic markers for a variety of disorders.

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利用硅学方法探索人类 PRDM16 的超罕见截短蛋白变异错义突变和调控 SNPs

背景：基因组学是现代医学的一门学科，其重点是确定可能对复杂疾病产生影响的致病基因及其相关变异。候选基因关联研究对于确定基因组变异与复杂疾病的遗传关系至关重要。目的：本研究的目的是利用在线计算工具预测 PRDM16 基因变异与结构和功能特征负面影响的可能关系。研究方法：利用内推方法找出 PRDM16 基因中的罕见变异。结果我们发现了 8 个错义变异，包括 rs572205989、rs201814961、rs572178955、rs182452331、rs551202646、rs554705536、rs184929979 和 rs573567598，这些变异可能在疾病的发展中发挥作用。讨论与结论：这种方法可用于未来的基因组和关联研究，但必须在模式生物和细胞培养中进行测试。这项研究可用于个性化治疗，并能发现治疗各种疾病的新标记物。

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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Haya: The Saudi Journal of Life Sciences

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