Background Illumina’s sequencing platforms are currently the most utilised sequencing systems worldwide. The technology has rapidly evolved over recent years and provides high throughput at low costs with increasing read-lengths and true paired-end reads. However, data from any sequencing technology contains noise and our understanding of the peculiarities and sequencing errors encountered in Illumina data has lagged behind this rapid development. Results We conducted a systematic investigation of errors and biases in Illumina data based on the largest collection of in vitro metagenomic data sets to date. We evaluated the Genome Analyzer II, HiSeq and MiSeq and tested state-of-the-art low input library preparation methods. Analysing in...
Abstract Background When using Illumina high throughput short read data, sometimes the genotype infe...
Abstract Advances in DNA sequencing technologies have made it possible to generate large amounts of ...
Background: A feature common to all DNA sequencing technologies is the presence of base-call errors ...
Background: Illumina's sequencing platforms are currently the most utilised sequencing systems world...
Background: Illumina’s sequencing platforms are currently the most utilised sequencing systems worl...
With read lengths of currently up to 2 × 300 bp, high throughput and low sequencing costs Illumina's...
The extremely high error rates reported by Keegan et al. in ‘A platform-independent method for detec...
The new generation of short-read sequencing technologies requires reliable measures of data quality....
The discovery of DNA has been one of the biggest catalysts in genomic research. Sequencing has enabl...
Background: DNA sequencing technologies deviate from the ideal uniform distribution of reads. These ...
The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The numb...
Advances in both high-throughput sequencing and whole-genome amplification (WGA) protocols have allo...
ABSTRACT: BACKGROUND: The generation and analysis of high-throughput sequencing data are becoming a ...
Since the emergence of next-generation sequencing (NGS) technologies, great effort has been put into...
Abstract Background Recently, many standalone applications have been proposed to correct sequencing ...
Abstract Background When using Illumina high throughput short read data, sometimes the genotype infe...
Abstract Advances in DNA sequencing technologies have made it possible to generate large amounts of ...
Background: A feature common to all DNA sequencing technologies is the presence of base-call errors ...
Background: Illumina's sequencing platforms are currently the most utilised sequencing systems world...
Background: Illumina’s sequencing platforms are currently the most utilised sequencing systems worl...
With read lengths of currently up to 2 × 300 bp, high throughput and low sequencing costs Illumina's...
The extremely high error rates reported by Keegan et al. in ‘A platform-independent method for detec...
The new generation of short-read sequencing technologies requires reliable measures of data quality....
The discovery of DNA has been one of the biggest catalysts in genomic research. Sequencing has enabl...
Background: DNA sequencing technologies deviate from the ideal uniform distribution of reads. These ...
The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The numb...
Advances in both high-throughput sequencing and whole-genome amplification (WGA) protocols have allo...
ABSTRACT: BACKGROUND: The generation and analysis of high-throughput sequencing data are becoming a ...
Since the emergence of next-generation sequencing (NGS) technologies, great effort has been put into...
Abstract Background Recently, many standalone applications have been proposed to correct sequencing ...
Abstract Background When using Illumina high throughput short read data, sometimes the genotype infe...
Abstract Advances in DNA sequencing technologies have made it possible to generate large amounts of ...
Background: A feature common to all DNA sequencing technologies is the presence of base-call errors ...