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Network topology-based detection of differential gene regulation and regulatory switches in cell metabolism and signaling

机译：基于网络拓扑的细胞代谢和信号传导中差异基因调控的调控检测

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BackgroundCommon approaches to pathway analysis treat pathways merely as lists of genes disregarding their topological structures, that is, ignoring the genes' interactions on which a pathway's cellular function depends. In contrast, PathWave has been developed for the analysis of high-throughput gene expression data that explicitly takes the topology of networks into account to identify both global dysregulation of and localized (switch-like) regulatory shifts within metabolic and signaling pathways. For this purpose, it applies adjusted wavelet transforms on optimized 2D grid representations of curated pathway maps.

机译：背景常见的途径分析方法仅将途径视为忽略其拓扑结构的基因列表，也就是说，忽略了途径的细胞功能所依赖的基因相互作用。相比之下，PathWave已开发用于分析高通量基因表达数据，该数据明确考虑了网络的拓扑结构，以识别代谢和信号传导途径内的全局失调和局部（开关样）调节位移。为此，它将调整后的小波变换应用于策展路径图的优化2D网格表示。

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期刊名称 BMC Systems Biology
作者
Rosario M Piro; Stefan Wiesberg; Gunnar Schramm; Nico Rebel; Marcus Oswald; Roland Eils; Gerhard Reinelt; Rainer König;
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作者单位

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年(卷),期 2014(8),-1
年度 2014
页码 56
总页数 10
原文格式 PDF
正文语种
中图分类生物学;
关键词
Pathway analysis Network topology Pathway networks Gene expression;

机译：途径分析;网络拓扑;途径网络;基因表达;

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专利

1. Network topology-based detection of differential gene regulation and regulatory switches in cell metabolism and signaling [J] . Rosario M Piro, Stefan Wiesberg, Gunnar Schramm, BMC Systems Biology . 2014,第1期

机译：基于网络拓扑的细胞代谢和信号传导中差异基因调控的调控检测
2. QSSPN: dynamic simulation of molecular interaction networks describing gene regulation, signalling and whole-cell metabolism in human cells [J] . Fisher Ciaran P., Plant Nicholas J., Moore J. Bernadette, Bioinformatics . 2013,第24期

机译：QSSPN：描述人类细胞中基因调控，信号传导和全细胞代谢的分子相互作用网络的动态模拟
3. Verification of Dynamic Behaviour in Qualitative Molecular Networks Describing Gene Regulation, Signalling and Whole-cell Metabolism [J] . Grabowski Marek, Bokota Grzegorz, Sroka Jacek, Fundamenta Informaticae . 2018,第1a2期

机译：定性分子网络中动态行为的验证，描述基因调控，信号传导和全细胞代谢
4. (541 e) Integration of Signaling Networks with Differential Gene Regulation Data Using a Probabilistic Pathway Impact Analysis Approach [C] . Albert Babinskas and Rajanikanth Vadigepalli American Institute of Chemical Engineers annual meeting . 2010

机译：（541 e）使用概率途径影响分析方法将信号网络与差异基因调控数据的集成
5. Defining the regulation of transitional B cell development and the expression of late transitional stage marker genes CD21 and CD23 by transcription factor networks and BAFF signaling. [D] . Debnath, Irina. 2010

机译：通过转录因子网络和BAFF信号转导来定义过渡性B细胞发育的调控以及晚期过渡阶段标记基因CD21和CD23的表达。
6. QSSPN: dynamic simulation of molecular interaction networks describing gene regulation signalling and whole-cell metabolism in human cells [O] . Ciarán P. Fisher, Nicholas J. Plant, J. Bernadette Moore, -1

机译：QSSPN：描述人类细胞中基因调控信号传导和全细胞代谢的分子相互作用网络的动态模拟
7. Network topology-based detection of differential gene regulation and regulatory switches in cell metabolism and signaling [O] . Rosario M Piro, Stefan Wiesberg, Gunnar Schramm, 2014

机译：基于网络拓扑的细胞代谢和信号传导中差异基因调控的调控检测

Network topology-based detection of differential gene regulation and regulatory switches in cell metabolism and signaling

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