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Séminaire Technologique MinION : séquençage 3ème Génération

C3BI Unit Seminar

Scientific Fields

Diseases

Organisms

Applications

Technique

Date

22

Mar 2018

Time

14:00:00

Institut Pasteur, Paris, France

Address

Building: Batiment Lwoff

Location

2018-03-22 14:00:00 2018-03-22 14:00:00 Europe/Paris C3BI Seminar – Learning of Ultra High-Dimensional Potts Models for Bacterial Population Genomics LEARNING OF ULTRA HIGH-DIMENSIONAL POTTS MODELS FOR BACTERIAL POPULATION GENOMICS Main speaker : Jukka Corander, from Professor at University of Helsinki and at University of Oslo Bayesian Statistics Group Date : 22-03-2018 at 02:00 pm Location : […] Institut Pasteur, Paris, France

Speakers

(Professor at University of Helsinki and at University of Oslo Bayesian Statistics Group)

About

LEARNING OF ULTRA HIGH-DIMENSIONAL POTTS MODELS FOR BACTERIAL POPULATION GENOMICS

Main speaker : Jukka Corander, from Professor at University of Helsinki and at University of Oslo Bayesian Statistics Group Date : 22-03-2018 at 02:00 pm Location : Retrovirus room – LWOFF (22) ,Institut Pasteur, Paris

The potential for genome-wide modeling of epistasis has recently surfaced given the possibility of sequencing densely sampled populations and the emerging families of statistical interaction models. Direct coupling analysis (DCA) has earlier been shown to yield valuable predictions for single protein structures, and has recently been extended to genome-wide analysis of bacteria, identifying novel interactions in the co-evolution between resistance, virulence and core genome elements. However, earlier computational DCA methods have not been scalable to enable model fitting simultaneously to 10000-100000 polymorphisms, representing the amount of core genomic variation observed in analyses of many bacterial species. Here we introduce a novel inference method (SuperDCA) which employs a new scoring principle, efficient parallelization, optimization and filtering on phylogenetic information to achieve scalability for up to 100000 polymorphisms. Using two large population samples of Streptococcus pneumoniae, we demonstrate the ability of SuperDCA to make additional significant biological findings about this major human pathogen. We also show that our method can uncover signals of selection that are not detectable by genome-wide association analysis, even though our analysis does not require phenotypic measurements. SuperDCA thus holds considerable potential in building understanding about numerous organisms at a systems biological level.

Location

Building: Batiment Lwoff
Address: Institut Pasteur, Paris, France

Published on: 12 Mar 2018

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