Abstract Background When using Illumina high throughput short read data, sometimes the genotype inferred from the positive strand and negative strand are significantly different, with one homozygous and the other heterozygous. This phenomenon is known as strand bias. In this study, we used Illumina short-read sequencing data to evaluate the effect of strand bias on genotyping quality, and to explore the possible causes of strand bias. Result We collected 22 breast cancer samples from 22 patients and sequenced their exome using the Illumina GAIIx machine. By comparing the consistency between the genotypes inferred from this sequencing data with the genotypes inferred from SNP chip data, we found that, when using sequencing data, SNPs with ex...
With read lengths of currently up to 2 × 300 bp, high throughput and low sequencing costs Illumina's...
GC content bias describes the dependence between fragment count (read coverage) and GC content found...
Abstract Background Inherent sources of error and bias that affect the quality of sequence data incl...
Since the emergence of next-generation sequencing (NGS) technologies, great effort has been put into...
Background: DNA sequencing technologies deviate from the ideal uniform distribution of reads. These ...
Genomic sequences obtained through high-throughput sequencing are not uniformly distributed across t...
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 world...
The new generation of short-read sequencing technologies requires reliable measures of data quality....
Novel sequencing technologies permit the rapid production of large sequence data sets. These technol...
High-throughput DNA sequencing techniques offer the ability to rapidly and cheaply sequence material...
Different types of sequencing biases have been described and subsequently improved for a variety of ...
Background: Accurate calling of SNPs and genotypes from next-generation sequencing data is an essent...
Novel sequencing technologies permit the rapid production of large sequence data sets. These technol...
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...
GC content bias describes the dependence between fragment count (read coverage) and GC content found...
Abstract Background Inherent sources of error and bias that affect the quality of sequence data incl...
Since the emergence of next-generation sequencing (NGS) technologies, great effort has been put into...
Background: DNA sequencing technologies deviate from the ideal uniform distribution of reads. These ...
Genomic sequences obtained through high-throughput sequencing are not uniformly distributed across t...
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 world...
The new generation of short-read sequencing technologies requires reliable measures of data quality....
Novel sequencing technologies permit the rapid production of large sequence data sets. These technol...
High-throughput DNA sequencing techniques offer the ability to rapidly and cheaply sequence material...
Different types of sequencing biases have been described and subsequently improved for a variety of ...
Background: Accurate calling of SNPs and genotypes from next-generation sequencing data is an essent...
Novel sequencing technologies permit the rapid production of large sequence data sets. These technol...
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...
GC content bias describes the dependence between fragment count (read coverage) and GC content found...
Abstract Background Inherent sources of error and bias that affect the quality of sequence data incl...