The research and methods in the field of computational biology have grown in the last decades, thanks to the availability of biological data. One of the applications in computational biology is genome sequencing or sequence alignment, a method to arrange sequences of, for example, DNA or RNA, to determine regions of similarity between these sequences. Sequence alignment applications include public health purposes, such as monitoring antimicrobial resistance. Demand for fast sequence alignment has led to the usage of data structures, such as the de Bruijn graph, to store a large amount of information efficiently. De Bruijn graphs are currently one of the top data structures used in indexing genome sequences, and different methods to repre...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
Vamsi K. Kundeti, Sanguthevar Rajasekaran, and Hieu Dinh are with the Department of Computer Science...
As cost and throughput of second-generation sequencers continue to improve, even modestly resourced ...
The research and methods in the field of computational biology have grown in the last decades, thank...
The de Bruijn graph has become a standard method in the analysis of sequencing reads in computationa...
International audienceBackgroundThe de Bruijn graph data structure is widely used in next-generation...
Huang L. Cloud-based Bioinformatics Framework for Next-Generation Sequencing Data. Bielefeld: Univer...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Assembling genomes can be roughly described as finding Eulerian tours in de Bruijn graphs. We presen...
Recent progress in DNA amplification techniques, particularly multiple displacement amplification (M...
Among the de novo strategies to assemble metagenomic DNA fragments the application of de Bruijn grap...
Assembling genomic sequences from a set of overlapping reads is one of the most fundamental problems...
De-novo genome assembly is an important problem in the field of genomics. Discovering and analysing ...
International audienceBackgroundNext Generation Sequencing (NGS) has dramatically enhanced our abili...
International audienceBackgroundDe Brujin graphs are widely used in bioinformatics for processing ne...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
Vamsi K. Kundeti, Sanguthevar Rajasekaran, and Hieu Dinh are with the Department of Computer Science...
As cost and throughput of second-generation sequencers continue to improve, even modestly resourced ...
The research and methods in the field of computational biology have grown in the last decades, thank...
The de Bruijn graph has become a standard method in the analysis of sequencing reads in computationa...
International audienceBackgroundThe de Bruijn graph data structure is widely used in next-generation...
Huang L. Cloud-based Bioinformatics Framework for Next-Generation Sequencing Data. Bielefeld: Univer...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Assembling genomes can be roughly described as finding Eulerian tours in de Bruijn graphs. We presen...
Recent progress in DNA amplification techniques, particularly multiple displacement amplification (M...
Among the de novo strategies to assemble metagenomic DNA fragments the application of de Bruijn grap...
Assembling genomic sequences from a set of overlapping reads is one of the most fundamental problems...
De-novo genome assembly is an important problem in the field of genomics. Discovering and analysing ...
International audienceBackgroundNext Generation Sequencing (NGS) has dramatically enhanced our abili...
International audienceBackgroundDe Brujin graphs are widely used in bioinformatics for processing ne...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
Vamsi K. Kundeti, Sanguthevar Rajasekaran, and Hieu Dinh are with the Department of Computer Science...
As cost and throughput of second-generation sequencers continue to improve, even modestly resourced ...