Structuprint: a scalable and extensible tool for two-dimensional representation of protein surfaces

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Dimitrios Georgios Kontopoulos, Dimitrios Vlachakis, Georgia Tsiliki, Sofia Kossida
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引用次数: 15

Abstract

The term ‘molecular cartography’ encompasses a family of computational methods for two-dimensional transformation of protein structures and analysis of their physicochemical properties. The underlying algorithms comprise multiple manual steps, whereas the few existing implementations typically restrict the user to a very limited set of molecular descriptors.

We present Structuprint, a free standalone software that fully automates the rendering of protein surface maps, given?- at the very least - a directory with a PDB file and an amino acid property. The tool comes with a default database of 328 descriptors, which can be extended or substituted by user-provided ones. The core algorithm comprises the generation of a mould of the protein surface, which is subsequently converted to a sphere and mapped to two dimensions, using the Miller cylindrical projection. Structuprint is partly optimized for multicore computers, making the rendering of animations of entire molecular dynamics simulations feasible.

Structuprint is an efficient application, implementing a molecular cartography algorithm for protein surfaces. According to the results of a benchmark, its memory requirements and execution time are reasonable, allowing it to run even on low-end personal computers. We believe that it will be of use?- primarily but not exclusively - to structural biologists and computational biochemists.

Abstract Image

Structuprint:一个可扩展和可扩展的工具,用于蛋白质表面的二维表示
术语“分子制图”包含了一系列用于蛋白质结构二维转换和物理化学性质分析的计算方法。底层算法包含多个手动步骤,而现有的少数实现通常将用户限制在一组非常有限的分子描述符中。我们展示了Structuprint,这是一个免费的独立软件,可以完全自动渲染蛋白质表面图。-至少-具有PDB文件和氨基酸属性的目录。该工具附带了一个包含328个描述符的默认数据库,可以由用户提供的描述符扩展或替换。核心算法包括生成蛋白质表面的模具,随后使用米勒圆柱形投影将其转换为球体并映射为二维。Structuprint部分针对多核计算机进行了优化,使整个分子动力学模拟的动画渲染成为可能。Structuprint是一个高效的应用程序,实现了蛋白质表面的分子制图算法。根据基准测试的结果,它的内存需求和执行时间是合理的,甚至可以在低端个人计算机上运行。我们相信它会有用吗?主要但不完全是结构生物学家和计算生物化学家。
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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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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