STITCH 5: augmenting protein-chemical interaction networks with tissue and affinity data

Damian Szklarczyk; Alberto Santos Delgado; Christian von Mering; Lars Juhl Jensen; Peer Bork; Michael Kuhn

doi:10.1093/nar/gkv1277

STITCH 5: augmenting protein-chemical interaction networks with tissue and affinity data

Damian Szklarczyk, Alberto Santos Delgado, Christian von Mering, Lars Juhl Jensen, Peer Bork, Michael Kuhn

Disease Systems Biology Program

412 Citations (Scopus)

Abstract

Interactions between proteins and small molecules are an integral part of biological processes in living organisms. Information on these interactions is dispersed over many databases, texts and prediction methods, which makes it difficult to get a comprehensive overview of the available evidence. To address this, we have developed STITCH ('Search Tool for Interacting Chemicals') that integrates these disparate data sources for 430 000 chemicals into a single, easy-to-use resource. In addition to the increased scope of the database, we have implemented a new network view that gives the user the ability to view binding affinities of chemicals in the interaction network. This enables the user to get a quick overview of the potential effects of the chemical on its interaction partners. For each organism, STITCH provides a global network; however, not all proteins have the same pattern of spatial expression. Therefore, only a certain subset of interactions can occur simultaneously. In the new, fifth release of STITCH, we have implemented functionality to filter out the proteins and chemicals not associated with a given tissue. The STITCH database can be downloaded in full, accessed programmatically via an extensive API, or searched via a redesigned web interface at http://stitch.embl.de.

Original language	English
Journal	Nucleic Acids Research
Volume	44
Issue number	D1
Pages (from-to)	D380-84
Number of pages	5
ISSN	0305-1048
DOIs	https://doi.org/10.1093/nar/gkv1277
Publication status	Published - 2016

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10.1093/nar/gkv1277Licence: CC BY

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title = "STITCH 5: augmenting protein-chemical interaction networks with tissue and affinity data",

abstract = "Interactions between proteins and small molecules are an integral part of biological processes in living organisms. Information on these interactions is dispersed over many databases, texts and prediction methods, which makes it difficult to get a comprehensive overview of the available evidence. To address this, we have developed STITCH ('Search Tool for Interacting Chemicals') that integrates these disparate data sources for 430 000 chemicals into a single, easy-to-use resource. In addition to the increased scope of the database, we have implemented a new network view that gives the user the ability to view binding affinities of chemicals in the interaction network. This enables the user to get a quick overview of the potential effects of the chemical on its interaction partners. For each organism, STITCH provides a global network; however, not all proteins have the same pattern of spatial expression. Therefore, only a certain subset of interactions can occur simultaneously. In the new, fifth release of STITCH, we have implemented functionality to filter out the proteins and chemicals not associated with a given tissue. The STITCH database can be downloaded in full, accessed programmatically via an extensive API, or searched via a redesigned web interface at http://stitch.embl.de.",

author = "Damian Szklarczyk and {Santos Delgado}, Alberto and {von Mering}, Christian and Jensen, {Lars Juhl} and Peer Bork and Michael Kuhn",

note = "{\textcopyright} The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.",

year = "2016",

doi = "10.1093/nar/gkv1277",

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T2 - augmenting protein-chemical interaction networks with tissue and affinity data

AU - Szklarczyk, Damian

AU - Santos Delgado, Alberto

AU - von Mering, Christian

AU - Jensen, Lars Juhl

AU - Bork, Peer

AU - Kuhn, Michael

PY - 2016

Y1 - 2016

N2 - Interactions between proteins and small molecules are an integral part of biological processes in living organisms. Information on these interactions is dispersed over many databases, texts and prediction methods, which makes it difficult to get a comprehensive overview of the available evidence. To address this, we have developed STITCH ('Search Tool for Interacting Chemicals') that integrates these disparate data sources for 430 000 chemicals into a single, easy-to-use resource. In addition to the increased scope of the database, we have implemented a new network view that gives the user the ability to view binding affinities of chemicals in the interaction network. This enables the user to get a quick overview of the potential effects of the chemical on its interaction partners. For each organism, STITCH provides a global network; however, not all proteins have the same pattern of spatial expression. Therefore, only a certain subset of interactions can occur simultaneously. In the new, fifth release of STITCH, we have implemented functionality to filter out the proteins and chemicals not associated with a given tissue. The STITCH database can be downloaded in full, accessed programmatically via an extensive API, or searched via a redesigned web interface at http://stitch.embl.de.

AB - Interactions between proteins and small molecules are an integral part of biological processes in living organisms. Information on these interactions is dispersed over many databases, texts and prediction methods, which makes it difficult to get a comprehensive overview of the available evidence. To address this, we have developed STITCH ('Search Tool for Interacting Chemicals') that integrates these disparate data sources for 430 000 chemicals into a single, easy-to-use resource. In addition to the increased scope of the database, we have implemented a new network view that gives the user the ability to view binding affinities of chemicals in the interaction network. This enables the user to get a quick overview of the potential effects of the chemical on its interaction partners. For each organism, STITCH provides a global network; however, not all proteins have the same pattern of spatial expression. Therefore, only a certain subset of interactions can occur simultaneously. In the new, fifth release of STITCH, we have implemented functionality to filter out the proteins and chemicals not associated with a given tissue. The STITCH database can be downloaded in full, accessed programmatically via an extensive API, or searched via a redesigned web interface at http://stitch.embl.de.

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VL - 44

SP - D380-84

JO - Nucleic Acids Research

JF - Nucleic Acids Research

IS - D1

ER -

STITCH 5: augmenting protein-chemical interaction networks with tissue and affinity data

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