Our group has recently developed gene@home, a BOINC project that permits to search for candidate genes for the expansion of a gene regulatory network using gene expression data. The gene@home project adopts intensive variable-subsetting strategies enabled by the computational power provided by the volunteers who have joined the project by means of the BOINC client. Our project exploits the PC algorithm (Spirtes and Glymour, 1991) in an iterative way, for discovering putative causal relationships within each subset of variables. This paper presents our infrastructure, called TN-Grid, that is hosting the gene@home project. Gene@home implements a novel method for Network Expansion by Subsetting and Ranking Aggregation (NESRA), producing a list of genes that are candidates for the gene network expansion task. NESRA is an algorithm that has: 1) a ranking procedure that systematically subsets the variables, the subsetting is iterated several times and a ranked list of candidates is produced by counting the number of times a relationship is found, 2) several ranking steps are executed with different values of the dimension of the subsets and with different number of iterations producing several ranked lists, 3) the ranked lists are aggregated by using a state-of-the-art ranking aggregator. In our experimental results, we show that NESRA outperforms both the PC algorithm and its order-independent version called PC*. Evaluations and experiments are done by means of the gene@home project on a real gene regulatory network of the model plant Arabidopsis thaliana.

Discovering Candidates for Gene Network Expansion by Distributed Volunteer Computing / Asnicar, Francesco; Erculiani, Luca; Galante, Francesca; Gallo, Caterina; Masera, Luca; Morettin, Paolo; Sella, Nadir; Semeniuta, Stanislau; Tolio, Thomas; Malacarne, Giulia; Engelen, Kristof; Argentini, Andrea; Cavecchia, Valter; Moser, Claudio; Blanzieri, Enrico. - (2015), pp. 248-253. (Intervento presentato al convegno ISPA 2015 tenutosi a Helsinki nel 20th-22nd August 2015) [10.1109/Trustcom.2015.640].

Discovering Candidates for Gene Network Expansion by Distributed Volunteer Computing

Asnicar, Francesco;Masera, Luca;Argentini, Andrea;Cavecchia, Valter;Moser, Claudio;Blanzieri, Enrico
2015-01-01

Abstract

Our group has recently developed gene@home, a BOINC project that permits to search for candidate genes for the expansion of a gene regulatory network using gene expression data. The gene@home project adopts intensive variable-subsetting strategies enabled by the computational power provided by the volunteers who have joined the project by means of the BOINC client. Our project exploits the PC algorithm (Spirtes and Glymour, 1991) in an iterative way, for discovering putative causal relationships within each subset of variables. This paper presents our infrastructure, called TN-Grid, that is hosting the gene@home project. Gene@home implements a novel method for Network Expansion by Subsetting and Ranking Aggregation (NESRA), producing a list of genes that are candidates for the gene network expansion task. NESRA is an algorithm that has: 1) a ranking procedure that systematically subsets the variables, the subsetting is iterated several times and a ranked list of candidates is produced by counting the number of times a relationship is found, 2) several ranking steps are executed with different values of the dimension of the subsets and with different number of iterations producing several ranked lists, 3) the ranked lists are aggregated by using a state-of-the-art ranking aggregator. In our experimental results, we show that NESRA outperforms both the PC algorithm and its order-independent version called PC*. Evaluations and experiments are done by means of the gene@home project on a real gene regulatory network of the model plant Arabidopsis thaliana.
2015
Proceedings 13th IEEE International Symposium on Parallel and Distributed Processing with Applications, ISPA 2015
Piscataway, NJ
IEEE
978-1-4673-7952-6
978-1-4673-7951-9
Asnicar, Francesco; Erculiani, Luca; Galante, Francesca; Gallo, Caterina; Masera, Luca; Morettin, Paolo; Sella, Nadir; Semeniuta, Stanislau; Tolio, Th...espandi
Discovering Candidates for Gene Network Expansion by Distributed Volunteer Computing / Asnicar, Francesco; Erculiani, Luca; Galante, Francesca; Gallo, Caterina; Masera, Luca; Morettin, Paolo; Sella, Nadir; Semeniuta, Stanislau; Tolio, Thomas; Malacarne, Giulia; Engelen, Kristof; Argentini, Andrea; Cavecchia, Valter; Moser, Claudio; Blanzieri, Enrico. - (2015), pp. 248-253. (Intervento presentato al convegno ISPA 2015 tenutosi a Helsinki nel 20th-22nd August 2015) [10.1109/Trustcom.2015.640].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/128348
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