Semantic Particularity Measure for Functional Characterization of Gene Sets Using Gene Ontology

Bettembourg, Charles; Diot, Christian; Dameron, Olivier

doi:10.1371/journal.pone.0086525

Cited by 13 publications

(15 citation statements)

References 48 publications

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“…While there has been work on more nuanced ways to analyze overlap in GO annotations [81], [82], [83], little of this work has been applied to network alignment thus far. This is partly due to the peculiarities of network alignment: we must compare GO annotation sets across different species, which most existing work does not consider.…”

Section: Better Evaluation Metricsmentioning

confidence: 99%

Global Alignment of Protein-Protein Interaction Networks: A Survey

Elmsallati

Clark

Kalita

2016

IEEE/ACM Trans. Comput. Biol. and Bioinf.

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In this paper, we survey algorithms that perform global alignment of networks or graphs. Global network alignment aligns two or more given networks to find the best mapping from nodes in one network to nodes in other networks. Since graphs are a common method of data representation, graph alignment has become important with many significant applications. Protein-protein interactions can be modeled as networks and aligning these networks of protein interactions has many applications in biological research. In this survey, we review algorithms for global pairwise alignment highlighting various proposed approaches, and classify them based on their methodology. Evaluation metrics that are used to measure the quality of the resulting alignments are also surveyed. We discuss and present a comparison between selected aligners on the same datasets and evaluate using the same evaluation metrics. Finally, a quick overview of the most popular databases of protein interaction networks is presented focusing on datasets that have been used recently.

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Section: Better Evaluation Metricsmentioning

confidence: 99%

Global Alignment of Protein-Protein Interaction Networks: A Survey

Elmsallati

Clark

Kalita

2016

IEEE/ACM Trans. Comput. Biol. and Bioinf.

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“…In [74] authors have attempted to improve existing measures such as the Wu-Palmer measure by adding metadata by taking into account codes of evidence (codes that specify the quality of the annotation), the types of relationships between the GO terms deriving the metabolic pathways of different organisms (regulates, positively regulates, negatively regulates) and the qualifier NOT. This measure was applied to the metabolic pathways between species: human, mouse and the chicken [74].…”

Section: Measures For Comparing Gene Products: To Assess the Functionmentioning

confidence: 99%

“…This measure was applied to the metabolic pathways between species: human, mouse and the chicken [74].…”

Section: Measures For Comparing Gene Products: To Assess the Functionmentioning

confidence: 99%

A Review of Various Methods Used in the Analysis of Functional Gene Expression Data

Fyad¹,

Barigou²,

Bouamrane³

et al. 2017

IJITCS

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“…Often, the behavior of a chain of several interacting cell proteins is altered after a receptor activation. The entire set of cell changes induced by the receptor activation is called a signal transduction mechanism or pathway [21,22].…”

Section: General Characteristicsmentioning

confidence: 99%

Semantic Mining based on graph theory and ontologies. Case Study: Cell Signaling Pathways

Rangel

Altamiranda

Aguilar

2016

CLEIej

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In this paper we use concepts from graph theory and cellular biology represented as ontologies, to carry out semantic mining tasks on signaling pathway networks. Specifically, the paper describes the semantic enrichment of signaling pathway networks. A cell signaling network describes the basic cellular activities and their interactions. The main contribution of this paper is in the signaling pathway research area, it proposes a new technique to analyze and understand how changes in these networks may affect the transmission and flow of information, which produce diseases such as cancer and diabetes. Our approach is based on three concepts from graph theory (modularity, clustering and centrality) frequently used on social networks analysis. Our approach consists into two phases: the first uses the graph theory concepts to determine the cellular groups in the network, which we will call them communities; the second uses ontologies for the semantic enrichment of the cellular communities. The measures used from the graph theory allow us to determine the set of cells that are close (for example, in a disease), and the main cells in each community. We analyze our approach in two cases: TGF-ß and the Alzheimer Disease.

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Semantic Particularity Measure for Functional Characterization of Gene Sets Using Gene Ontology

Cited by 13 publications

References 48 publications

Global Alignment of Protein-Protein Interaction Networks: A Survey

Global Alignment of Protein-Protein Interaction Networks: A Survey

A Review of Various Methods Used in the Analysis of Functional Gene Expression Data

Semantic Mining based on graph theory and ontologies. Case Study: Cell Signaling Pathways

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