MOTIVATION: Advances in sequencing technologies have remarkably lowered the detection limit of somatic variants to a low frequency. However, calling mutations at this range is still confounded by many factors including environmental contamination. Vector contamination is a continuously occurring issue and is especially problematic since vector inserts are hardly distinguishable from the sample sequences. Such inserts, which may harbor polymorphisms and engineered functional mutations, can result in calling false variants at corresponding sites. Numerous vector-screening methods have been developed, but none could handle contamination from inserts because they are focusing on vector backbone sequences alone. RESULTS: We developed a novel me...
Tumor analyses commonly employ a correction with a matched normal (MN), a sample from healthy tissue...
ViromeQC is a computational tool to benchmark and quantify non-viral contamination in VLP-enrihed vi...
Computational tools are widely used for interpreting variants detected in sequencing projects. The c...
[Background] Contaminant DNA is a well-known confounding factor in molecular biology and in genomic ...
In forward genetics studies, the accurate detection of bona fide induced DNA mutations can be negati...
Contaminations frequently occur in bacterial cultures, which significantly affect the reproducibilit...
International audienceHigh-throughput sequencing technologies have become fundamental for the identi...
Abstract Background The clinical sequencing of cancer...
BACKGROUND: Contaminant DNA is a well-known confounding factor in molecular biology and in genomic r...
High-throughput Sanger sequencing requires DNA to be inserted into bacterial vectors for biological ...
Identifying variants using high-throughput sequen-cing data is currently a challenge because true bi...
ABSTRACT Motivation: In virology, massively parallel sequencing (MPS) opens many opportunities for s...
Motivation: In virology, massively parallel sequencing (MPS) opens many opportunities for studying v...
Background: Single Nucleotide Polymorphisms (SNPs) are widely used molecular markers, and their use ...
Recent developments in high-throughput sequencing (HTS) technologies and bioinformatics have drastic...
Tumor analyses commonly employ a correction with a matched normal (MN), a sample from healthy tissue...
ViromeQC is a computational tool to benchmark and quantify non-viral contamination in VLP-enrihed vi...
Computational tools are widely used for interpreting variants detected in sequencing projects. The c...
[Background] Contaminant DNA is a well-known confounding factor in molecular biology and in genomic ...
In forward genetics studies, the accurate detection of bona fide induced DNA mutations can be negati...
Contaminations frequently occur in bacterial cultures, which significantly affect the reproducibilit...
International audienceHigh-throughput sequencing technologies have become fundamental for the identi...
Abstract Background The clinical sequencing of cancer...
BACKGROUND: Contaminant DNA is a well-known confounding factor in molecular biology and in genomic r...
High-throughput Sanger sequencing requires DNA to be inserted into bacterial vectors for biological ...
Identifying variants using high-throughput sequen-cing data is currently a challenge because true bi...
ABSTRACT Motivation: In virology, massively parallel sequencing (MPS) opens many opportunities for s...
Motivation: In virology, massively parallel sequencing (MPS) opens many opportunities for studying v...
Background: Single Nucleotide Polymorphisms (SNPs) are widely used molecular markers, and their use ...
Recent developments in high-throughput sequencing (HTS) technologies and bioinformatics have drastic...
Tumor analyses commonly employ a correction with a matched normal (MN), a sample from healthy tissue...
ViromeQC is a computational tool to benchmark and quantify non-viral contamination in VLP-enrihed vi...
Computational tools are widely used for interpreting variants detected in sequencing projects. The c...