开发研究蛋白质相互作用的高灵敏度/特异性检测系统

R. Khan
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引用次数: 0

摘要

蛋白质组学的研究成功破译了遗传密码;这个不断发展的新兴领域将在未来十年主导科学研究。目前用于研究蛋白质相互作用的工具包括抗体、非蛋白质支架、荧光成像、分裂酶和利兹大学研究人员设计的相对较新的工具Adhirons。由于抗体高度的亲和力和特异性,抗体在蛋白质研究中被广泛使用,然而成本的上升和制造抗体所需的时间的延长促使人们努力寻找更好的替代品。在这项工作中,我们报告了由于它们的小尺寸和高稳定性是否可以适应细胞中的测定相互作用。它将探索目前广泛用于蛋白质研究的工具是否可以揭穿蛋白质相互作用的达文其密码。大多数生物过程是由蛋白质相互作用控制的,在大多数疾病状态(尤其是癌症)的核心是由过多的蛋白质相互作用触发的信号级联。本文回顾了蛋白质组学的研究现状,以评价和评价东西方科学家迄今为止所取得的工作。进入蛋白质组学的旅程已经开始,目前已经取得了重要的里程碑。
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Developing High Sensitivity/Specificity Detection Systems for Studying Protein Interactions
The study of proteomics succeeds the deciphering of the genetic code; this growing burgeoning area is set to dominate scientific research well into the next decade. Current tools employed in studying protein-protein interactions include antibodies, non-protein scaffolds, fluorescence imaging, split enzymes and the relatively new tool termed Adhirons designed by researchers at Leeds University. Antibodies have been used extensively in protein studies due to the high degree of affinity and specificity however the rise in cost and the length of time required to make antibodies has fuelled efforts to find better alternatives. In this work we report whether Adhirons owing to their small size and high stability can be adapted to assay interactions in cells. It will explore whether current tools widely used in protein studies can debunk the davinchi code for protein-protein interactions. Most biological processes are governed by protein interactions and at the heart of most disease states particularly cancer lies a signalling cascade triggered by a plethora of protein interactions. We review current research into proteomics to evaluate and appreciate the work achieved thus far by international scientist crossing east and west divide. The journey into proteomics has already begun and at the present juncture has made significant milestones.
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