Björn Goemann scite author profile

Background: Currently, there is a gap between purely theoretical studies of the topology of large bioregulatory networks and the practical traditions and interests of experimentalists. While the theoretical approaches emphasize the global characterization of regulatory systems, the practical approaches focus on the role of distinct molecules and genes in regulation. To bridge the gap between these opposite approaches, one needs to combine 'general' with 'particular' properties and translate abstract topological features of large systems into testable functional characteristics of individual components. Here, we propose a new topological parameter -the pairwise disconnectivity index of a network's element -that is capable of such bridging.

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An approach to evaluate the topological significance of motifs and other patterns in regulatory networks

Goemann

Wingender

Потапов

2009

BMC Syst Biol

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Background: The identification of network motifs as statistically over-represented topological patterns has become one of the most promising topics in the analysis of complex networks. The main focus is commonly made on how they operate by means of their internal organization. Yet, their contribution to a network's global architecture is poorly understood. However, this requires switching from the abstract view of a topological pattern to the level of its instances. Here, we show how a recently proposed metric, the pairwise disconnectivity index, can be adapted to survey if and which kind of topological patterns and their instances are most important for sustaining the connectivity within a network.

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EndoNet: an information resource about regulatory networks of cell-to-cell communication

Dönitz

Goemann

Lizé

et al. 2007

Nucleic Acids Research

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EndoNet is an information resource about intercellular regulatory communication. It provides information about hormones, hormone receptors, the sources (i.e. cells, tissues and organs) where the hormones are synthesized and secreted, and where the respective receptors are expressed. The database focuses on the regulatory relations between them. An elementary communication is displayed as a causal link from a cell that secretes a particular hormone to those cells which express the corresponding hormone receptor and respond to the hormone. Whenever expression, synthesis and/or secretion of another hormone are part of this response, it renders the corresponding cell an internal node of the resulting network. This intercellular communication network coordinates the function of different organs. Therefore, the database covers the hierarchy of cellular organization of tissues and organs as it has been modeled in the Cytomer ontology, which has now been directly embedded into EndoNet. The user can query the database; the results can be used to visualize the intercellular information flow. A newly implemented hormone classification enables to browse the database and may be used as alternative entry point. EndoNet is accessible at: http://endonet.bioinf.med.uni-goettingen.de/

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Vertical and horizontal dotted lines stand for the mean values of () and (), respectively

Anatolij¹,

Goemann²,

Edgar³

2011

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Björn Goemann

The pairwise disconnectivity index as a new metric for the topological analysis of regulatory networks

An approach to evaluate the topological significance of motifs and other patterns in regulatory networks

EndoNet: an information resource about regulatory networks of cell-to-cell communication

Vertical and horizontal dotted lines stand for the mean values of () and (), respectively

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