ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization

Francesco Pappalardo; Mark D. Halling-Brown; Nicolas Rapin; Ping Zhang; Davide Alemani; Andrew Emerson; Paola Paci; Patrice Duroux; Marzio Pennisi; Arianna Palladini; Olivo Miotto; Daniel Churchill; Elda Rossi; Adrian J. Shepherd; David S. Moss; Filippo Castiglione; Massimo Bernaschi; Marie Paule Lefranc; Søren Brunak; Santo Motta; Pier Luigi Lollini; Kaye E. Basford; Vladimir Brusic

doi:10.1093/bib/bbp014

ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization

Francesco Pappalardo, Mark D. Halling-Brown, Nicolas Rapin, Ping Zhang, Davide Alemani, Andrew Emerson, Paola Paci, Patrice Duroux, Marzio Pennisi, Arianna Palladini, Olivo Miotto, Daniel Churchill, Elda Rossi, Adrian J. Shepherd, David S. Moss, Filippo Castiglione, Massimo Bernaschi, Marie Paule Lefranc, Søren Brunak, Santo MottaPier Luigi Lollini, Kaye E. Basford, Vladimir Brusic

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Vaccine research is a combinatorial science requiring computational analysis of vaccine components, formulations and optimization. We have developed a framework that combines computational tools for the study of immune function and vaccine development. This framework, named ImmunoGrid combines conceptual models of the immune system, models of antigen processing and presentation, system-level models of the immune system, Grid computing, and database technology to facilitate discovery, formulation and optimization of vaccines. ImmunoGrid modules share common conceptual models and ontologies. The ImmunoGrid portal offers access to educational simulators where previously defined cases can be displayed, and to research simulators that allow the development of new, or tuning of existing, computational models. The portal is accessible at 〈igrid-ext.cryst.bbk.ac.uk/immunogrid〉.

Lingua originale	Inglese
pagine (da-a)	330-340
Numero di pagine	11
Rivista	Briefings in Bioinformatics
Volume	10
Numero di pubblicazione	3
DOI	https://doi.org/10.1093/bib/bbp014
Stato di pubblicazione	Pubblicato - 2009
Pubblicato esternamente	Sì

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Pappalardo, F., Halling-Brown, M. D., Rapin, N., Zhang, P., Alemani, D., Emerson, A., Paci, P., Duroux, P., Pennisi, M., Palladini, A., Miotto, O., Churchill, D., Rossi, E., Shepherd, A. J., Moss, D. S., Castiglione, F., Bernaschi, M., Lefranc, M. P., Brunak, S., ... Brusic, V. (2009). ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization. Briefings in Bioinformatics, 10(3), 330-340. https://doi.org/10.1093/bib/bbp014

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title = "ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization",

abstract = "Vaccine research is a combinatorial science requiring computational analysis of vaccine components, formulations and optimization. We have developed a framework that combines computational tools for the study of immune function and vaccine development. This framework, named ImmunoGrid combines conceptual models of the immune system, models of antigen processing and presentation, system-level models of the immune system, Grid computing, and database technology to facilitate discovery, formulation and optimization of vaccines. ImmunoGrid modules share common conceptual models and ontologies. The ImmunoGrid portal offers access to educational simulators where previously defined cases can be displayed, and to research simulators that allow the development of new, or tuning of existing, computational models. The portal is accessible at 〈igrid-ext.cryst.bbk.ac.uk/immunogrid〉.",

keywords = "Computational modeling, Grid computing, Immunoinformatics, Simulations, Vaccine discovery",

author = "Francesco Pappalardo and Halling-Brown, \{Mark D.\} and Nicolas Rapin and Ping Zhang and Davide Alemani and Andrew Emerson and Paola Paci and Patrice Duroux and Marzio Pennisi and Arianna Palladini and Olivo Miotto and Daniel Churchill and Elda Rossi and Shepherd, \{Adrian J.\} and Moss, \{David S.\} and Filippo Castiglione and Massimo Bernaschi and Lefranc, \{Marie Paule\} and S{\o}ren Brunak and Santo Motta and Lollini, \{Pier Luigi\} and Basford, \{Kaye E.\} and Vladimir Brusic",

year = "2009",

doi = "10.1093/bib/bbp014",

language = "English",

volume = "10",

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Pappalardo, F, Halling-Brown, MD, Rapin, N, Zhang, P, Alemani, D, Emerson, A, Paci, P, Duroux, P, Pennisi, M, Palladini, A, Miotto, O, Churchill, D, Rossi, E, Shepherd, AJ, Moss, DS, Castiglione, F, Bernaschi, M, Lefranc, MP, Brunak, S, Motta, S, Lollini, PL, Basford, KE & Brusic, V 2009, 'ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization', Briefings in Bioinformatics, vol. 10, n. 3, pagg. 330-340. https://doi.org/10.1093/bib/bbp014

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T1 - ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization

AU - Pappalardo, Francesco

AU - Halling-Brown, Mark D.

AU - Rapin, Nicolas

AU - Zhang, Ping

AU - Alemani, Davide

AU - Emerson, Andrew

AU - Paci, Paola

AU - Duroux, Patrice

AU - Pennisi, Marzio

AU - Palladini, Arianna

AU - Miotto, Olivo

AU - Churchill, Daniel

AU - Rossi, Elda

AU - Shepherd, Adrian J.

AU - Moss, David S.

AU - Castiglione, Filippo

AU - Bernaschi, Massimo

AU - Lefranc, Marie Paule

AU - Brunak, Søren

AU - Motta, Santo

AU - Lollini, Pier Luigi

AU - Basford, Kaye E.

AU - Brusic, Vladimir

PY - 2009

Y1 - 2009

N2 - Vaccine research is a combinatorial science requiring computational analysis of vaccine components, formulations and optimization. We have developed a framework that combines computational tools for the study of immune function and vaccine development. This framework, named ImmunoGrid combines conceptual models of the immune system, models of antigen processing and presentation, system-level models of the immune system, Grid computing, and database technology to facilitate discovery, formulation and optimization of vaccines. ImmunoGrid modules share common conceptual models and ontologies. The ImmunoGrid portal offers access to educational simulators where previously defined cases can be displayed, and to research simulators that allow the development of new, or tuning of existing, computational models. The portal is accessible at 〈igrid-ext.cryst.bbk.ac.uk/immunogrid〉.

AB - Vaccine research is a combinatorial science requiring computational analysis of vaccine components, formulations and optimization. We have developed a framework that combines computational tools for the study of immune function and vaccine development. This framework, named ImmunoGrid combines conceptual models of the immune system, models of antigen processing and presentation, system-level models of the immune system, Grid computing, and database technology to facilitate discovery, formulation and optimization of vaccines. ImmunoGrid modules share common conceptual models and ontologies. The ImmunoGrid portal offers access to educational simulators where previously defined cases can be displayed, and to research simulators that allow the development of new, or tuning of existing, computational models. The portal is accessible at 〈igrid-ext.cryst.bbk.ac.uk/immunogrid〉.

KW - Computational modeling

KW - Grid computing

KW - Immunoinformatics

KW - Simulations

KW - Vaccine discovery

UR - https://www.scopus.com/pages/publications/65549157113

U2 - 10.1093/bib/bbp014

DO - 10.1093/bib/bbp014

M3 - Article

SN - 1467-5463

VL - 10

SP - 330

EP - 340

JO - Briefings in Bioinformatics

JF - Briefings in Bioinformatics

IS - 3

ER -

ImmunoGrid, an integrative environment for large-scale simulation of the immune system for vaccine discovery, design and optimization

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