Free to read on publisher website Genome sequencing has been revolutionized by next-generation technologies, which can rapidly produce vast quantities of data at relatively low cost. With data production now no longer being limited, there is a huge challenge to analyse the data flood and interpret biological meaning. Bioinformatics scientists have risen to the challenge and a large number of software tools and databases have been produced and these continue to evolve with this rapidly advancing field. Here, we outline some of the tools and databases commonly used for the analysis of next-generation sequence data with comment on their utility
The field of Genomics is aimed at complex analysis of genomes based on our knowledge of the nucleo...
Genomics is undergoing a revolution sparked by higher throughput and cost effective DNA sequencing t...
Next-generation sequencing (NGS) has revolutionized technology in genomics; enabling entire genome o...
Genome sequencing has been revolutionized by next-generation technologies, which can rapidly produce...
The emergence of next-generation sequencing (NGS) platforms imposes increasing demands on statistica...
Motivation: The genome sequencing revolution is approaching a landmark figure of 1000 completely seq...
In the past decade it has become increasingly the effort for researcher to surpass the bioinformatic...
In a little more than a decade, we have transitioned from an era where DNA sequences were visually “...
Technical advances such as the development of molecular cloning, Sanger sequencing, PCR and oligonuc...
Current bioinformatics analyses for biodiversity from molecular sequence data are discussed on the b...
Life science researches have been profoundly impacted by technological advances allowing f...
Elucidating the content of a DNA sequence is critical to deeper understand and decode the genetic in...
The ability to sequence the DNA of an organism has become one of the most important tools in modern ...
The goal of all sequencing techniques is to provide possible identities for genes, map the entire ge...
The pace at which scientific data is produced and disseminated has never been as high as it is curre...
The field of Genomics is aimed at complex analysis of genomes based on our knowledge of the nucleo...
Genomics is undergoing a revolution sparked by higher throughput and cost effective DNA sequencing t...
Next-generation sequencing (NGS) has revolutionized technology in genomics; enabling entire genome o...
Genome sequencing has been revolutionized by next-generation technologies, which can rapidly produce...
The emergence of next-generation sequencing (NGS) platforms imposes increasing demands on statistica...
Motivation: The genome sequencing revolution is approaching a landmark figure of 1000 completely seq...
In the past decade it has become increasingly the effort for researcher to surpass the bioinformatic...
In a little more than a decade, we have transitioned from an era where DNA sequences were visually “...
Technical advances such as the development of molecular cloning, Sanger sequencing, PCR and oligonuc...
Current bioinformatics analyses for biodiversity from molecular sequence data are discussed on the b...
Life science researches have been profoundly impacted by technological advances allowing f...
Elucidating the content of a DNA sequence is critical to deeper understand and decode the genetic in...
The ability to sequence the DNA of an organism has become one of the most important tools in modern ...
The goal of all sequencing techniques is to provide possible identities for genes, map the entire ge...
The pace at which scientific data is produced and disseminated has never been as high as it is curre...
The field of Genomics is aimed at complex analysis of genomes based on our knowledge of the nucleo...
Genomics is undergoing a revolution sparked by higher throughput and cost effective DNA sequencing t...
Next-generation sequencing (NGS) has revolutionized technology in genomics; enabling entire genome o...