Due to the availability of new sequencing technologies, we are now increasingly interested in sequencing closely related strains of existing finished genomes. Recently a number of de novo and mapping-based assemblers have been developed to produce high quality draft genomes from new sequencing technology reads. New tools are necessary to take contigs from a draft assembly through to a fully contiguated genome sequence. ABACAS is intended as a tool to rapidly contiguate (align, order, orientate), visualize and design primers to close gaps on shotgun assembled contigs based on a reference sequence. The input to ABACAS is a set of contigs which will be aligned to the reference genome, ordered and orientated, visualized in the ACT comparative b...
DNA assembly is among the most fundamental and difficult problems in bioinformatics. Near optimal a...
Bartels D, Kespohl S, Albaum S, et al. BACCardI - a tool for the validation of genomic assemblies, a...
Husemann P, Tauch A. Bioinformatic approaches for genome finishing. Bielefeld: Universitätsbibliothe...
SUMMARY: Due to the availability of new sequencing technologies, we are now increasingly interested ...
There is increasing interest in sequencing the genomes of strains that are closely related to existi...
Enzymes are responsible for the catalysis of the biochemical reactions in metabolic pathways. Analog...
Genomic research relies on computers to process large amounts of genomic data. In order to digitize ...
A Summary: Massively parallel sequencing is now widely used, but data interpretation is only as good...
Motivation: Genomics has revolutionized biological research, but quality assessment of the resulting...
Sequencing technology has improved dramatically over the past few decades. Before the sequencing of ...
Background De novo genome sequencing of previously uncharacterized microorganisms has the potential...
AbstractIn the realm of bioinformatics and computational biology, the most rudimentary data upon whi...
Genome assembly is a critical first step for biological discovery. All current sequencing technologi...
Summary: Recent technological progress has greatly facilitated de novo genome sequencing. However, d...
Background: Decreasing costs of DNA sequencing have made prokaryotic draft genome sequences increasi...
DNA assembly is among the most fundamental and difficult problems in bioinformatics. Near optimal a...
Bartels D, Kespohl S, Albaum S, et al. BACCardI - a tool for the validation of genomic assemblies, a...
Husemann P, Tauch A. Bioinformatic approaches for genome finishing. Bielefeld: Universitätsbibliothe...
SUMMARY: Due to the availability of new sequencing technologies, we are now increasingly interested ...
There is increasing interest in sequencing the genomes of strains that are closely related to existi...
Enzymes are responsible for the catalysis of the biochemical reactions in metabolic pathways. Analog...
Genomic research relies on computers to process large amounts of genomic data. In order to digitize ...
A Summary: Massively parallel sequencing is now widely used, but data interpretation is only as good...
Motivation: Genomics has revolutionized biological research, but quality assessment of the resulting...
Sequencing technology has improved dramatically over the past few decades. Before the sequencing of ...
Background De novo genome sequencing of previously uncharacterized microorganisms has the potential...
AbstractIn the realm of bioinformatics and computational biology, the most rudimentary data upon whi...
Genome assembly is a critical first step for biological discovery. All current sequencing technologi...
Summary: Recent technological progress has greatly facilitated de novo genome sequencing. However, d...
Background: Decreasing costs of DNA sequencing have made prokaryotic draft genome sequences increasi...
DNA assembly is among the most fundamental and difficult problems in bioinformatics. Near optimal a...
Bartels D, Kespohl S, Albaum S, et al. BACCardI - a tool for the validation of genomic assemblies, a...
Husemann P, Tauch A. Bioinformatic approaches for genome finishing. Bielefeld: Universitätsbibliothe...