The recent advent of massively parallel sequencing technologies has drastically reduced the cost of sequencing, sparking a revolution in whole genome de novo sequencing. However, these new technologies sample much shorter segments of DNA, called short reads, than conventional but more costly long read sequencing technologies, and suffer from higher and more varied error rates. Modern genome assembly tools compensate for these shortcomings by using de Bruijn graph based assembly techniques; however, for large genomes, the physical memory required to efficiently build and manipulate the de Bruijn graph generally far exceeds that which is available on modern commodity workstations. This dissertation develops novel out-of-core algorithms...
BACKGROUND: Next-generation sequencing technologies have given rise to the explosive increase in DNA...
Sequencing technologies allow for an in-depth analysis of biological species but the size of the ge...
A critical problem for computational genomics is the problem of de novo genome assembly: the develop...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Next-generation massively parallel DNA sequencing technologies provide ultrahigh throughput at a sub...
Background: De Bruijn graphs are a theoretical framework underlying several modern genome assembly p...
DNA assembly is among the most fundamental and difficult problems in bioinformatics. Near optimal a...
The enormous amount of short reads produced by next generation sequencing (NGS) techniques such as R...
Recently news technologies in molecular biology enormously improved the sequencing data production, ...
De-novo genome assembly is an important problem in the field of genomics. Discovering and analysing ...
A genome sequence assembly provides the foundation for studies of genotypic and phenotypic variation...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
Emerging next-generation sequencing technologies have opened up exciting new opportunities for genom...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
BACKGROUND: Next-generation sequencing technologies have given rise to the explosive increase in DNA...
Sequencing technologies allow for an in-depth analysis of biological species but the size of the ge...
A critical problem for computational genomics is the problem of de novo genome assembly: the develop...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Next-generation massively parallel DNA sequencing technologies provide ultrahigh throughput at a sub...
Background: De Bruijn graphs are a theoretical framework underlying several modern genome assembly p...
DNA assembly is among the most fundamental and difficult problems in bioinformatics. Near optimal a...
The enormous amount of short reads produced by next generation sequencing (NGS) techniques such as R...
Recently news technologies in molecular biology enormously improved the sequencing data production, ...
De-novo genome assembly is an important problem in the field of genomics. Discovering and analysing ...
A genome sequence assembly provides the foundation for studies of genotypic and phenotypic variation...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
Emerging next-generation sequencing technologies have opened up exciting new opportunities for genom...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
BACKGROUND: Next-generation sequencing technologies have given rise to the explosive increase in DNA...
Sequencing technologies allow for an in-depth analysis of biological species but the size of the ge...
A critical problem for computational genomics is the problem of de novo genome assembly: the develop...