SPR Biosensor Based High-Throughput Screening of Low Molecular Weight Compounds for Interaction with Candida krusei CYP51

Biomedical Chemistry: Research and Methods Pub Date : 1900-01-01 DOI:10.18097/bmcrm00183

L. Kaluzhskiy, T. V. Tsybruk, E. Yablokov, O. Gnedenko, E. Zelepuga, A. Kicha, E. Kozlovskaya, N. V. Ivanchina, A. Gilep, A. S. Ivanov

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Abstract

The opportunistic fungus Candida krusei is the causative agent of nosocomial infections characterized by high mortality and development of resistance to drugs of the azole class. Therefore, develjoment of non-azole antifungal agents against resistant fungal strains is extremly important. Lanosterol 14-alpha demethylase (CYP51) is a well-known antifungal target. The optical SPR biosensor is a universal tool for screening studies in search of new drug prototypes. This paper presents the methodological aspects of high-hroughput SPR based screening of a library of low molecular weight compounds of natural origin for their interaction with C. krusei CYP51. It has been shown that when performing high-throughput screening, a researcher should pay special attention to the degree of a sensorgram curvature in the association phase. The described approaches to the analysis of high throughput screening data can be useful for researchers working with SPR biosensors from various manufacturers.

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基于SPR生物传感器的高通量筛选与克鲁假丝酵母CYP51相互作用的低分子量化合物

机会性真菌克鲁氏念珠菌是医院感染的病原体，其特点是高死亡率和对唑类药物产生耐药性。因此，开发针对耐药真菌菌株的非唑类抗真菌药物是非常重要的。羊毛甾醇14- α去甲基化酶(CYP51)是一个众所周知的抗真菌靶点。光学SPR生物传感器是一种通用的筛选研究工具，用于寻找新的药物原型。本文介绍了基于高通量SPR筛选天然来源的低分子量化合物库的方法方面，因为它们与C.克鲁塞CYP51相互作用。研究表明，在进行高通量筛选时，研究人员应特别注意关联阶段传感器图曲率的程度。所描述的分析高通量筛选数据的方法对于研究人员使用来自不同制造商的SPR生物传感器是有用的。

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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Biomedical Chemistry: Research and Methods

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