Modern genomic sequencing technologies produce a large amount of data with reduced cost per base; however, this data consists of short reads. This reduction in the size of the reads, compared to those obtained with previous methodologies, presents new challenges, including a need for efficient algorithms for the assembly of genomes from short reads and for resolving repetitions. Additionally after abinitio assembly, curation of the hundreds or thousands of contigs generated by assemblers demands considerable time and computational resources. We developed Simplifier, a stand-alone software that selectively eliminates redundant sequences from the collection of contigs generated by ab initio assembly of genomes. Application of Simplifier to da...
Remarkable advances in DNA sequencing technology have created a need for de novo genome assembly met...
Motivation: Among challenges that hamper reaping the benefits of genome assembly are both unfinished...
Cerdeira LT, Carneiro AR, Juca Ramos RT, et al. Rapid hybrid de novo assembly of a microbial genome ...
Genome sequencing has become routine, however genome assembly still remains a challenge despite the ...
De novo genome assembly is always fragmented. Assembly fragmentation is more serious using the popul...
Genome sequencing has become routine, however genome assembly still remains a challenge despite the ...
Genomic research relies on computers to process large amounts of genomic data. In order to digitize ...
The latest revolution in the DNA sequencing field has been brought about by the development of autom...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
The latest revolution in the DNA sequencing field has been brought about by the development of autom...
A Summary: Massively parallel sequencing is now widely used, but data interpretation is only as good...
New sequencing technology has dramatically altered the landscape of whole-genome sequencing, allowin...
Novel high-throughput DNA sequencing technologies allow researchers to characterize a bacterial geno...
De novo Genome assembly and k-mer frequency counting are two of the classical prob- lems of Bioinfo...
Low-cost DNA sequencing technologies have expanded the role for direct nucleic acid sequencing in th...
Remarkable advances in DNA sequencing technology have created a need for de novo genome assembly met...
Motivation: Among challenges that hamper reaping the benefits of genome assembly are both unfinished...
Cerdeira LT, Carneiro AR, Juca Ramos RT, et al. Rapid hybrid de novo assembly of a microbial genome ...
Genome sequencing has become routine, however genome assembly still remains a challenge despite the ...
De novo genome assembly is always fragmented. Assembly fragmentation is more serious using the popul...
Genome sequencing has become routine, however genome assembly still remains a challenge despite the ...
Genomic research relies on computers to process large amounts of genomic data. In order to digitize ...
The latest revolution in the DNA sequencing field has been brought about by the development of autom...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
The latest revolution in the DNA sequencing field has been brought about by the development of autom...
A Summary: Massively parallel sequencing is now widely used, but data interpretation is only as good...
New sequencing technology has dramatically altered the landscape of whole-genome sequencing, allowin...
Novel high-throughput DNA sequencing technologies allow researchers to characterize a bacterial geno...
De novo Genome assembly and k-mer frequency counting are two of the classical prob- lems of Bioinfo...
Low-cost DNA sequencing technologies have expanded the role for direct nucleic acid sequencing in th...
Remarkable advances in DNA sequencing technology have created a need for de novo genome assembly met...
Motivation: Among challenges that hamper reaping the benefits of genome assembly are both unfinished...
Cerdeira LT, Carneiro AR, Juca Ramos RT, et al. Rapid hybrid de novo assembly of a microbial genome ...