系统生物学中的逆向工程与辨识：策略、观点与挑战。

Reverse engineering and identification in systems biology: strategies, perspectives and challenges.

机构信息

BioProcess Engineering Group, IIM-CSIC, Spanish National Research Council, , Vigo 36208, Spain.

出版信息

J R Soc Interface. 2013 Dec 4;11(91):20130505. doi: 10.1098/rsif.2013.0505. Print 2014 Feb 6.

DOI:10.1098/rsif.2013.0505

PMID:24307566

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3869153/

Abstract

The interplay of mathematical modelling with experiments is one of the central elements in systems biology. The aim of reverse engineering is to infer, analyse and understand, through this interplay, the functional and regulatory mechanisms of biological systems. Reverse engineering is not exclusive of systems biology and has been studied in different areas, such as inverse problem theory, machine learning, nonlinear physics, (bio)chemical kinetics, control theory and optimization, among others. However, it seems that many of these areas have been relatively closed to outsiders. In this contribution, we aim to compare and highlight the different perspectives and contributions from these fields, with emphasis on two key questions: (i) why are reverse engineering problems so hard to solve, and (ii) what methods are available for the particular problems arising from systems biology?

摘要

数学建模与实验的相互作用是系统生物学的核心要素之一。反向工程的目的是通过这种相互作用推断、分析和理解生物系统的功能和调节机制。反向工程并非系统生物学所独有，它已经在不同领域得到了研究，如反问题理论、机器学习、非线性物理学、（生物）化学动力学、控制理论和优化等。然而，这些领域似乎相对对外界封闭。在本贡献中，我们旨在比较和突出这些领域的不同观点和贡献，重点关注两个关键问题：（i）为什么反向工程问题如此难以解决，以及（ii）针对系统生物学中出现的特定问题有哪些可用的方法？

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/397a/3869153/d8dbedd03ab8/rsif20130505-g1.jpg

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系统生物学中的逆向工程与辨识：策略、观点与挑战。

Reverse engineering and identification in systems biology: strategies, perspectives and challenges.

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