投影到潜在途径（PLP）：一种用于基本通量模式判别且受约束的投影到潜在变量（PLS）方法。

Projection to latent pathways (PLP): a constrained projection to latent variables (PLS) method for elementary flux modes discrimination.

作者信息

Ferreira Ana R, Dias João M L, Teixeira Ana P, Carinhas Nuno, Portela Rui M C, Isidro Inês A, von Stosch Moritz, Oliveira Rui

机构信息

REQUIMTE, Systems Biology & Engineering Group, DQ/FCT, Universidade Nova de Lisboa, Campus Caparica, Portugal.

出版信息

BMC Syst Biol. 2011 Nov 1;5:181. doi: 10.1186/1752-0509-5-181.

DOI:10.1186/1752-0509-5-181

PMID:22044634

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3750108/

Abstract

BACKGROUND

Elementary flux modes (EFM) are unique and non-decomposable sets of metabolic reactions able to operate coherently in steady-state. A metabolic network has in general a very high number of EFM reflecting the typical functional redundancy of biological systems. However, most of these EFM are either thermodynamically unfeasible or inactive at pre-set environmental conditions.

RESULTS

Here we present a new algorithm that discriminates the "active" set of EFM on the basis of dynamic envirome data. The algorithm merges together two well-known methods: projection to latent structures (PLS) and EFM analysis, and is therefore termed projection to latent pathways (PLP). PLP has two concomitant goals: (1) maximisation of correlation between EFM weighting factors and measured envirome data and (2) minimisation of redundancy by eliminating EFM with low correlation with the envirome.

CONCLUSIONS

Overall, our results demonstrate that PLP slightly outperforms PLS in terms of predictive power. But more importantly, PLP is able to discriminate the subset of EFM with highest correlation with the envirome, thus providing in-depth knowledge of how the environment controls core cellular functions. This offers a significant advantage over PLS since its abstract structure cannot be associated with the underlying biological structure.

摘要

背景

基本通量模式（EFM）是代谢反应的独特且不可分解的集合，能够在稳态下连贯运行。代谢网络通常具有大量的EFM，这反映了生物系统典型的功能冗余。然而，这些EFM中的大多数在预设的环境条件下要么在热力学上不可行，要么不活跃。

结果

在此，我们提出了一种基于动态环境数据来区分EFM“活跃”集合的新算法。该算法将两种著名的方法——潜在结构投影（PLS）和EFM分析——合并在一起，因此被称为潜在途径投影（PLP）。PLP有两个伴随目标：（1）使EFM加权因子与测得的环境数据之间的相关性最大化；（2）通过消除与环境相关性低的EFM来最小化冗余。

结论

总体而言，我们的结果表明，PLP在预测能力方面略优于PLS。但更重要的是，PLP能够区分与环境具有最高相关性的EFM子集，从而深入了解环境如何控制核心细胞功能。这比PLS具有显著优势，因为PLS的抽象结构无法与潜在的生物学结构相关联。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0624/3750108/c1ff2622bfed/1752-0509-5-181-1.jpg

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投影到潜在途径（PLP）：一种用于基本通量模式判别且受约束的投影到潜在变量（PLS）方法。

Projection to latent pathways (PLP): a constrained projection to latent variables (PLS) method for elementary flux modes discrimination.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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