Department of Life Science Informatics, B-IT, LIMES Program Unit Chemical Biology and Medicinal Chemistry, Rheinische Friedrich-Wilhelms-Universität, Dahlmannstr. 2, D-53113 Bonn, Germany.
Expert Opin Drug Discov. 2012 Jun;7(6):463-73. doi: 10.1517/17460441.2012.679616. Epub 2012 Apr 5.
Activity landscapes (ALs) are graphical representations that integrate compound structure and potency relationships. These computer-generated models enable the interactive large-scale analysis of structure-activity relationships (SARs) and complement traditional approaches to study SARs of individual compound series in a qualitative or quantitative manner. A variety of AL designs have been reported.
The concept of activity landscapes is introduced and different methodologies to represent 2D or 3D AL representations of large compound data sets are described on the basis of original literature references. Several AL variants and extensions have been generated for special applications in medicinal chemistry. These include, for example, AL views of evolving data sets with constant topology, selectivity landscapes and multi-target ALs, or molecular mechanism and multi-property maps. Furthermore, the applicability domain of the AL concept is discussed including specific requirements for practical utility in medicinal chemistry opportunities for further developments.
AL modeling has substantially extended conventional ways to study SARs. The AL concept is inseparable from the notion of activity cliffs that are of high interest in SAR analysis. AL design is an area of active research at the interface between chemoinformatics and medicinal chemistry with potential for further growth. Special emphasis must be put on increasing the usability of AL models for practicing medicinal chemists.
活动景观(AL)是一种图形表示,它集成了化合物结构和效力关系。这些计算机生成的模型能够对结构-活性关系(SAR)进行交互式大规模分析,并补充了以定性或定量方式研究单个化合物系列 SAR 的传统方法。已经报道了各种 AL 设计。
介绍了活动景观的概念,并根据原始文献参考文献,描述了用于表示大型化合物数据集的 2D 或 3D AL 表示的不同方法。已经为药物化学中的特殊应用生成了几种 AL 变体和扩展,例如,具有恒定拓扑的不断发展的数据集的 AL 视图、选择性景观和多靶标 AL,或分子机制和多属性图谱。此外,还讨论了 AL 概念的适用范围,包括在药物化学中实际应用的具体要求,以及进一步发展的机会。
AL 建模大大扩展了研究 SAR 的传统方法。AL 概念与 SAR 分析中非常感兴趣的活性悬崖概念是不可分割的。AL 设计是化学生物信息学和药物化学之间的一个活跃研究领域,具有进一步发展的潜力。必须特别强调提高 AL 模型对实践药物化学家的可用性。
