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以每种必需氨基酸缺乏状况为特征的氨基酸(AA)代谢的多层网络结构。

Multi-layered network structure of amino acid (AA) metabolism characterized by each essential AA-deficient condition.

作者信息

Shikata N, Maki Y, Noguchi Y, Mori M, Hanai T, Takahashi M, Okamoto M

机构信息

Graduate School of Systems Life Sciences, Kyushu University, Fukuoka, Japan.

出版信息

Amino Acids. 2007 Jul;33(1):113-21. doi: 10.1007/s00726-006-0412-0. Epub 2006 Oct 13.

DOI:10.1007/s00726-006-0412-0
PMID:17031477
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7088186/
Abstract

The concentrations of free amino acids in plasma change coordinately and their profiles show distinctive features in various physiological conditions; however, their behavior can not always be explained by the conventional flow-based metabolic pathway network. In this study, we have revealed the interrelatedness of the plasma amino acids and inferred their network structure with threshold-test analysis and multilevel-digraph analysis methods using the plasma samples of rats which are fed diet deficient in single essential amino acid. In the inferred network, we could draw some interesting interrelations between plasma amino acids as follows: 1) Lysine is located at the top control level and has effects on almost all of the other plasma amino acids. 2) Threonine plays a role in a hub in the network, which has direct links to the most number of other amino acids. 3) Threonine and methionine are interrelated to each other and form a loop structure.

摘要

血浆中游离氨基酸的浓度会协同变化,并且在各种生理条件下其谱图呈现出独特的特征;然而,它们的行为并不总是能用传统的基于流量的代谢途径网络来解释。在本研究中,我们利用喂食单一必需氨基酸缺乏饮食的大鼠血浆样本,通过阈值测试分析和多级有向图分析方法,揭示了血浆氨基酸之间的相互关联性,并推断出它们的网络结构。在推断出的网络中,我们可以得出血浆氨基酸之间一些有趣的相互关系如下:1)赖氨酸位于顶级控制水平,对几乎所有其他血浆氨基酸都有影响。2)苏氨酸在网络中起枢纽作用,与最多数量的其他氨基酸有直接联系。3)苏氨酸和蛋氨酸相互关联并形成一个环状结构。

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