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Optimizing Splicing Junction Detection in Next Generation Sequencing Data on a Virtual-GRID Infrastructure

Abstract: The new protocol for sequencing the messenger RNA in a cell, named RNA-seq produce millions of short sequence fragments. Next Generation Sequencing technology allows more accurate analysis but increase needs in term of computational resources. This paper describes the optimization of a RNA-seq analysis pipeline devoted to splicing variants detection, aimed at reducing computation time and providing a multi-user/multisample environment. This work brings two main contributions. First, we optimized a well-known algorithm called TopHat by parallelizing some sequential mapping steps. Second, we designed and implemented a hybrid virtual GRID infrastructure allowing to efficiently execute multiple instances of TopHat running on different samples or on behalf of different users, thus optimizing the overall execution time and enabling a flexible multi-user environment.


Citation:

Terzo, Olivier; Mossucca, L; Acquaviva, Andrea; Abate, Francesco; Ficarra, Elisa; Provenzano, R. "Optimizing Splicing Junction Detection in Next Generation Sequencing Data on a Virtual-GRID Infrastructure" Titolo volume non avvalorato, Shanghai, 17-20 My 2012, 2012

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