Small insertions and deletions (indels) are a common and functionally important type of sequence polymorphism. Most of the focus of studies of sequence variation is on single nucleotide variants (SNVs) and large structural variants. In principle, high-throughput sequencing studies should allow identification of indels just as SNVs. However, inference of indels from next-generation sequence data is challenging, and so far methods for identifying indels lag behind methods for calling SNVs in terms of sensitivity and specificity. We propose a Bayesian method to call indels from short-read sequence data in individuals and populations by realigning reads to candidate haplotypes that represent alternative sequence to the reference. The candidate ...
With the rapid development of short-read sequencing technologies, many population-scale resequencing...
Background: One of the major open challenges in next generation sequencing (NGS) is the accurate ide...
Motivation: Insertions and deletions contribute significantly to genomic diversity both at intra and...
<div><p>Insertions and deletions (indels) are important types of structural variations. Obtaining ac...
Insertions and deletions (indels) are important types of structural variations. Obtaining accurate g...
We present a new approach to indel calling that explicitly exploits that indel differences between a...
As the second most common type of variation in the human genome, insertions and deletions (indels) h...
We present a new approach to indel calling that explicitly exploits that indel differences between a...
Insertion and deletion (INDEL) mutations, the most common type of structural variance, are associate...
<div><p>Insertion and deletion (INDEL) mutations, the most common type of structural variance, are a...
With the rapid development of short-read sequencing technologies, many population-scale resequencing...
High throughput sequencing technologies underpins the development of personalized medicine by allowi...
Motivation: The detection of genomic variants has great significance in genomics, bioinformatics, bi...
Abstract. While the discovery of structural variants in the human pop-ulation is ongoing, most metho...
Despite being the second most frequent type of polymorphism in the genome, diallelic insertion–delet...
With the rapid development of short-read sequencing technologies, many population-scale resequencing...
Background: One of the major open challenges in next generation sequencing (NGS) is the accurate ide...
Motivation: Insertions and deletions contribute significantly to genomic diversity both at intra and...
<div><p>Insertions and deletions (indels) are important types of structural variations. Obtaining ac...
Insertions and deletions (indels) are important types of structural variations. Obtaining accurate g...
We present a new approach to indel calling that explicitly exploits that indel differences between a...
As the second most common type of variation in the human genome, insertions and deletions (indels) h...
We present a new approach to indel calling that explicitly exploits that indel differences between a...
Insertion and deletion (INDEL) mutations, the most common type of structural variance, are associate...
<div><p>Insertion and deletion (INDEL) mutations, the most common type of structural variance, are a...
With the rapid development of short-read sequencing technologies, many population-scale resequencing...
High throughput sequencing technologies underpins the development of personalized medicine by allowi...
Motivation: The detection of genomic variants has great significance in genomics, bioinformatics, bi...
Abstract. While the discovery of structural variants in the human pop-ulation is ongoing, most metho...
Despite being the second most frequent type of polymorphism in the genome, diallelic insertion–delet...
With the rapid development of short-read sequencing technologies, many population-scale resequencing...
Background: One of the major open challenges in next generation sequencing (NGS) is the accurate ide...
Motivation: Insertions and deletions contribute significantly to genomic diversity both at intra and...