Next generation sequencing (NGS) is about to revolutionize genetic analysis. Currently NGS techniques are mainly used to sequence individual genomes. Due to the high sequence coverage required, the costs for population-scale analyses are still too high to allow an extension to nonmodel organisms. Here, we show that NGS of pools of individuals is often more effective in SNP discovery and provides more accurate allele frequency estimates, even when taking sequencing errors into account. We modify the population genetic estimators Tajima's pi and Watterson's theta to obtain unbiased estimates from NGS pooling data. Given the same sequencing effort, the resulting estimators often show a better performance than those obtained from individual seq...
Background: Performing high throughput sequencing on samples pooled from different individuals is a ...
As sequencing technology has evolved, the cost of sequencing the human genome has reduced substantia...
Detecting alleles that confer small increments in susceptibility to disease will require large-scale...
International audienceMolecular markers produced by next-generation sequencing (NGS) technologies ar...
Population genomics is a fast-developing discipline with promising applications in a growing number ...
Next-Generation Sequencing (NGS) technologies have dramatically revolutionised research in many fiel...
Agap : équipe GE2pop et IDInternational audienceSequencing pools of individuals rather than individu...
Sequencing pools of individuals rather than individuals separately reduces the costs of estimating a...
[Background]: Performing high throughput sequencing on samples pooled from different individuals is ...
Next-generation sequencing (NGS) data provides tremendous opportunities for making new discoveries i...
With the availability of next-generation sequencing (NGS) technology, it is expected that sequence v...
Due to its cost effectiveness, next-generation sequencing of pools of individuals (Pool-Seq) is beco...
<div><p>High coverage whole genome sequencing provides near complete information about genetic varia...
High coverage whole genome sequencing provides near complete information about genetic variation. Ho...
Background: Performing high throughput sequencing on samples pooled from different individuals is a ...
As sequencing technology has evolved, the cost of sequencing the human genome has reduced substantia...
Detecting alleles that confer small increments in susceptibility to disease will require large-scale...
International audienceMolecular markers produced by next-generation sequencing (NGS) technologies ar...
Population genomics is a fast-developing discipline with promising applications in a growing number ...
Next-Generation Sequencing (NGS) technologies have dramatically revolutionised research in many fiel...
Agap : équipe GE2pop et IDInternational audienceSequencing pools of individuals rather than individu...
Sequencing pools of individuals rather than individuals separately reduces the costs of estimating a...
[Background]: Performing high throughput sequencing on samples pooled from different individuals is ...
Next-generation sequencing (NGS) data provides tremendous opportunities for making new discoveries i...
With the availability of next-generation sequencing (NGS) technology, it is expected that sequence v...
Due to its cost effectiveness, next-generation sequencing of pools of individuals (Pool-Seq) is beco...
<div><p>High coverage whole genome sequencing provides near complete information about genetic varia...
High coverage whole genome sequencing provides near complete information about genetic variation. Ho...
Background: Performing high throughput sequencing on samples pooled from different individuals is a ...
As sequencing technology has evolved, the cost of sequencing the human genome has reduced substantia...
Detecting alleles that confer small increments in susceptibility to disease will require large-scale...