Characterizing transcriptomes in non-model organisms has resulted in a massive increase in our understanding of biological phenomena. This boon, largely made possible via high-throughput sequencing, means that studies of functional, evolutionary, and population genomics are now being done by hundreds or even thousands of labs around the world. For many, these studies begin with a de novo transcriptome assembly, which is a technically complicated process involving several discrete steps. The Oyster River Protocol (ORP), described here, implements a standardized and benchmarked set of bioinformatic processes, resulting in an assembly with enhanced qualities over other standard assembly methods. Specifically, ORP produced assemblies have highe...
MOTIVATION: High-throughput sequencing has made the analysis of new model organisms more affordable....
For vertebrate organisms where a reference genome is not available, de novo transcriptome assembly e...
AU was supported by a PhD grant from EDF (Electricite de France). We are grateful to the different d...
<p>Characterizing transcriptomes in non-model organisms has resulted in a massive increase in our un...
A decade ago, de novo transcriptome assembly evolved as a versatile and powerful approach to make ev...
De novo assembly of a complete transcriptome without the need for a guiding reference genome is attr...
De novo assembly of a complete transcriptome without the need for a guiding reference genome is attr...
2012-07-30The deep sequencing of second generation sequencing technology has enabled us to study com...
© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attributi...
Gene expression and transcriptome analysis are currently one of the main focuses of research for a g...
De novo transcriptome assembly of short reads is now a common step in expression analysis of organis...
With the fast advances in nextgen sequencing technology, high-throughput RNA sequencing has emerged ...
While the continued development of high-throughput sequencing has facilitated studies of entire tran...
Background: The lack of genomic resources can present challenges for studies of non-model organisms....
Background: The k-mer hash length is a key factor affecting the output of de novo transcriptome asse...
MOTIVATION: High-throughput sequencing has made the analysis of new model organisms more affordable....
For vertebrate organisms where a reference genome is not available, de novo transcriptome assembly e...
AU was supported by a PhD grant from EDF (Electricite de France). We are grateful to the different d...
<p>Characterizing transcriptomes in non-model organisms has resulted in a massive increase in our un...
A decade ago, de novo transcriptome assembly evolved as a versatile and powerful approach to make ev...
De novo assembly of a complete transcriptome without the need for a guiding reference genome is attr...
De novo assembly of a complete transcriptome without the need for a guiding reference genome is attr...
2012-07-30The deep sequencing of second generation sequencing technology has enabled us to study com...
© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attributi...
Gene expression and transcriptome analysis are currently one of the main focuses of research for a g...
De novo transcriptome assembly of short reads is now a common step in expression analysis of organis...
With the fast advances in nextgen sequencing technology, high-throughput RNA sequencing has emerged ...
While the continued development of high-throughput sequencing has facilitated studies of entire tran...
Background: The lack of genomic resources can present challenges for studies of non-model organisms....
Background: The k-mer hash length is a key factor affecting the output of de novo transcriptome asse...
MOTIVATION: High-throughput sequencing has made the analysis of new model organisms more affordable....
For vertebrate organisms where a reference genome is not available, de novo transcriptome assembly e...
AU was supported by a PhD grant from EDF (Electricite de France). We are grateful to the different d...