The increased availability of genomic data and the increased ease and lower costs of DNA sequencing have revolutionized biomedical research. One of the critical steps in most bioinformatics analyses is the assembly of the genome sequence of an organism using the data generated from the sequencing machines. Despite the long length of sequences generated by third-generation sequencing technologies (tens of thousands of basepairs), the automated reconstruction of entire genomes continues to be a formidable computational task. Although long read technologies help in resolving highly repetitive regions, the contigs generated from long read assembly do not always span a complete chromosome or even an arm of the chromosome. Recently, new genomic t...
A critical problem for computational genomics is the problem of de novo genome assembly: the develop...
High-quality genome assembly has wide applications in genetics and medical studies. However, reconst...
The use of long read DNA sequencing technologies is producing an explosion of high-quality de-novo ...
Reconstructing genomic segments from metagenomics data is a highly complex task. In addition to gene...
Genome assembly is a critical first step for biological discovery. All current sequencing technologi...
DNA sequencing is used to read the nucleotides composing the genetic material that forms individual ...
Thesis (Ph.D.)--University of Washington, 2014The study of genomics is made possible by the creation...
AbstractHigh-throughput DNA sequencing technologies are fuelling an accelerating trend to assemble d...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
A genome sequence assembly provides the foundation for studies of genotypic and phenotypic variation...
Despite the advancement of DNA-sequencing technology, assembly of complex genomes remains a major ch...
Luo X. Computational Methods for Haplotype-aware De Novo Genome Assembly from Long Reads. Bielefeld:...
The computational reconstruction of genome sequences from shotgun sequencing data has been greatly s...
De novo Genome assembly and k-mer frequency counting are two of the classical prob- lems of Bioinfo...
Long read technologies have revolutionized de novo genome assembly by generating contigs orders of m...
A critical problem for computational genomics is the problem of de novo genome assembly: the develop...
High-quality genome assembly has wide applications in genetics and medical studies. However, reconst...
The use of long read DNA sequencing technologies is producing an explosion of high-quality de-novo ...
Reconstructing genomic segments from metagenomics data is a highly complex task. In addition to gene...
Genome assembly is a critical first step for biological discovery. All current sequencing technologi...
DNA sequencing is used to read the nucleotides composing the genetic material that forms individual ...
Thesis (Ph.D.)--University of Washington, 2014The study of genomics is made possible by the creation...
AbstractHigh-throughput DNA sequencing technologies are fuelling an accelerating trend to assemble d...
Since the publication of the human genome in 2001, the price and the time of DNA sequencing have dro...
A genome sequence assembly provides the foundation for studies of genotypic and phenotypic variation...
Despite the advancement of DNA-sequencing technology, assembly of complex genomes remains a major ch...
Luo X. Computational Methods for Haplotype-aware De Novo Genome Assembly from Long Reads. Bielefeld:...
The computational reconstruction of genome sequences from shotgun sequencing data has been greatly s...
De novo Genome assembly and k-mer frequency counting are two of the classical prob- lems of Bioinfo...
Long read technologies have revolutionized de novo genome assembly by generating contigs orders of m...
A critical problem for computational genomics is the problem of de novo genome assembly: the develop...
High-quality genome assembly has wide applications in genetics and medical studies. However, reconst...
The use of long read DNA sequencing technologies is producing an explosion of high-quality de-novo ...