This study introduces a method to address the problem of building a draft de novo assembly of complex genomes when a collection of well-assembled long-insert pools is available. Sequencing and assembling a collection of such pools reduces the complexity of the assembly and has been proven to be a viable strategy in order to carry out downstream analyses in recent sequencing projects. In this work we depict a framework to tackle this problem: we propose a novel fingerprinting technique to speed up overlap detection and we describe a merging technique based on the well established string graph structure in order to carry out the reconciliation step. Finally, we show some preliminary results on simulated data sets based on the human chromosome...
Thesis (Ph.D.)--University of Washington, 2014The study of genomics is made possible by the creation...
This paper proposes a simplified approach to the assembly of large physical genome maps. The approac...
International audienceLong reads and Hi-C have revolutionized the field of genome assembly as they h...
The theme of the thesis is sequencing (large) genomes and assembling them: an area at the intersecti...
Despite the prodigious throughput of the sequencing instruments currently on the market, the assembl...
Abstract Motivation Recent studies in genomics have highlighted the significance of structural varia...
One of the most computationally intensive tasks in computational biology is de novo genome assembly,...
Novel approaches for the exploitation of high throughput sequencing data In this thesis we discuss c...
International audienceWith the increasing impact of genomics in life sciences, the inference of high...
Hierarchical genome assembly can be divided into three distinct stages: sequencing and assembling sh...
Next generation sequencers produce billions of short DNA sequences in a massively parallel manner, w...
Genome assembly is a fundamental problem in Bioinformatics, where for a given set of overlapping sub...
High-quality genome assembly has wide applications in genetics and medical studies. However, reconst...
Next generation sequencers produce billions of short DNA sequences in a massively parallel manner, w...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
Thesis (Ph.D.)--University of Washington, 2014The study of genomics is made possible by the creation...
This paper proposes a simplified approach to the assembly of large physical genome maps. The approac...
International audienceLong reads and Hi-C have revolutionized the field of genome assembly as they h...
The theme of the thesis is sequencing (large) genomes and assembling them: an area at the intersecti...
Despite the prodigious throughput of the sequencing instruments currently on the market, the assembl...
Abstract Motivation Recent studies in genomics have highlighted the significance of structural varia...
One of the most computationally intensive tasks in computational biology is de novo genome assembly,...
Novel approaches for the exploitation of high throughput sequencing data In this thesis we discuss c...
International audienceWith the increasing impact of genomics in life sciences, the inference of high...
Hierarchical genome assembly can be divided into three distinct stages: sequencing and assembling sh...
Next generation sequencers produce billions of short DNA sequences in a massively parallel manner, w...
Genome assembly is a fundamental problem in Bioinformatics, where for a given set of overlapping sub...
High-quality genome assembly has wide applications in genetics and medical studies. However, reconst...
Next generation sequencers produce billions of short DNA sequences in a massively parallel manner, w...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
Thesis (Ph.D.)--University of Washington, 2014The study of genomics is made possible by the creation...
This paper proposes a simplified approach to the assembly of large physical genome maps. The approac...
International audienceLong reads and Hi-C have revolutionized the field of genome assembly as they h...