This lecture is part is an introductory bioinformatics workshop. It gives a background to what sequencing is, what the results of a sequencing experiment are, how to assess the quality of a sequencing run, what error sources exist and how to deal with errors. The accompanying websites are available at http://sschmeier.com/bioinf-workshop
first national workshop funded by DBT, Govt. of India, on the Bioinformatics issues associated with ...
DNA and RNA sequencing is a core technology in biological andmedical research. The high throughput o...
Over the past 6 years, next generation sequencing (NGS) has been established as a valuable high-thro...
AbstractDNA sequencing continues to evolve quickly even after >30years. Many new platforms suddenly ...
This lecture gives an easy introduction to <strong>genome assemblies</strong> from next-generation s...
DNA sequencing continues to evolve quickly even after >30 years. Many new platforms suddenly appeare...
Quality control and its importance in GWAS In the fourth of a series of seven ...
<p>This lecture gives an easy introduction to <strong>genome assemblies</strong> from next-generatio...
Parallel computing; analysis. Many quality control (QC) tools have been proposed, however, few of th...
Next-generation sequencing (NGS) technologies have been widely used in life sciences. However, sever...
Objective: Next-generation sequencing (NGS) is the next best thing for oncology biomarker testing in...
Next Generation Sequencing (NGS) data have begun to appear in many applications that are clinically ...
Next-Generation Sequencing (NGS) technologies are expected to play a crucial role in the surveillan...
The use of error-corrected Next Generation Sequencing (ecNG) to determine mutagenicity has been a su...
This book contains the latest material in the subject, covering next generation sequencing (NGS) app...
first national workshop funded by DBT, Govt. of India, on the Bioinformatics issues associated with ...
DNA and RNA sequencing is a core technology in biological andmedical research. The high throughput o...
Over the past 6 years, next generation sequencing (NGS) has been established as a valuable high-thro...
AbstractDNA sequencing continues to evolve quickly even after >30years. Many new platforms suddenly ...
This lecture gives an easy introduction to <strong>genome assemblies</strong> from next-generation s...
DNA sequencing continues to evolve quickly even after >30 years. Many new platforms suddenly appeare...
Quality control and its importance in GWAS In the fourth of a series of seven ...
<p>This lecture gives an easy introduction to <strong>genome assemblies</strong> from next-generatio...
Parallel computing; analysis. Many quality control (QC) tools have been proposed, however, few of th...
Next-generation sequencing (NGS) technologies have been widely used in life sciences. However, sever...
Objective: Next-generation sequencing (NGS) is the next best thing for oncology biomarker testing in...
Next Generation Sequencing (NGS) data have begun to appear in many applications that are clinically ...
Next-Generation Sequencing (NGS) technologies are expected to play a crucial role in the surveillan...
The use of error-corrected Next Generation Sequencing (ecNG) to determine mutagenicity has been a su...
This book contains the latest material in the subject, covering next generation sequencing (NGS) app...
first national workshop funded by DBT, Govt. of India, on the Bioinformatics issues associated with ...
DNA and RNA sequencing is a core technology in biological andmedical research. The high throughput o...
Over the past 6 years, next generation sequencing (NGS) has been established as a valuable high-thro...