生物网络的可执行途径。

The executable pathway to biological networks.

机构信息

Microsoft Research Cambridge, 7 JJ Thomson Ave., Cambridge, UK.

出版信息

Brief Funct Genomics. 2010 Jan;9(1):79-92. doi: 10.1093/bfgp/elp054.

DOI:10.1093/bfgp/elp054

PMID:20118126

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3097101/

Abstract

As time goes by, it becomes more and more apparent that the puzzles of life involve more and more molecular pieces that fit together in increasingly complex ways. Genomics and Proteomics technologies nowadays, produce reliable and quantitative data that could potentially reveal all the molecular pieces of a particular puzzle. However, this is akin to the opening of Pandora's box; and we are now facing the problem of integrating this vast amount of data with its incredible complexity into some coherent whole. With the aid of engineering methods designed to build and analyze computerized man-made systems, a new emerging field called 'Executable Biology' aims to create computer programmes that put together the pieces in ways that allows capturing their dynamicity and ultimately elucidating how molecular function generates cellular function. This review aspires to highlight the main features characterizing these kinds of executable models and what makes them uniquely qualified to reason about and analyze biological networks.

摘要

随着时间的推移，越来越明显的是，生命的谜题涉及越来越多的分子片段，这些片段以越来越复杂的方式相互契合。如今的基因组学和蛋白质组学技术可以提供可靠和定量的数据，这些数据有可能揭示特定谜题的所有分子片段。然而，这就像是打开了潘多拉的盒子；我们现在面临的问题是将如此庞大的数据及其难以置信的复杂性与一些连贯的整体相结合。借助旨在构建和分析计算机化人工系统的工程方法，一个名为“可执行生物学”的新兴领域旨在创建计算机程序，以将这些片段组合在一起，从而捕捉它们的动态性，并最终阐明分子功能如何产生细胞功能。本文旨在强调这些可执行模型的主要特征，以及使它们能够对生物网络进行推理和分析的独特品质。

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