Whole-genome sequencing represents a promising approach to pinpoint chemically induced mutations in genetic model organisms, thereby short-cutting time-consuming genetic mapping efforts.We compare here the ability of two leading high-throughput platforms for paired-end deep sequencing, SOLiD (ABI) and Genome Analyzer (Illumina; "Solexa"), to achieve the goal of mutant detection. As a test case we used a mutant C. elegans strain that harbors a mutation in the lsy-12 locus which we compare to the reference wild-type genome sequence. We analyzed the accuracy, sensitivity, and depth-coverage characteristics of the two platforms. Both platforms were able to identify the mutation that causes the phenotype of the mutant C. elegans strain, lsy-12. ...
Genome integrity is constantly challenged by exogenous and endogenous insults, and mutations are ass...
Reverse genetic or gene-driven knockout approaches have contributed significantly to the success of ...
Mutation is associated with developmental and hereditary disorders, aging and cancer. While we under...
Whole-genome sequencing is a powerful tool for analyzing genetic variation on a global scale. One pa...
<div><p>Whole-genome sequencing is a powerful tool for analyzing genetic variation on a global scale...
Whole-genome sequencing (WGS) is becoming a fast and cost-effective method to pinpoint molecular les...
Whole-genome sequencing represents a promising approach to pinpoint chemically induced mutations in ...
Whole-genome sequencing provides a rapid and powerful method for identifying mutations on a global s...
An essential requirement of genetic research is the ability to identify mutations. Forward genetic s...
The emergence of Next Generation DNA Sequencing (NGS) technologies has made cloning of genes much mo...
Genome integrity is constantly challenged by exogenous and endogenous insults, and mutations are ass...
Whole-genome sequencing (WGS) is an indispensable tool for identifying causal mutations obtained fro...
Mutation is associated with developmental and hereditary disorders, aging, and cancer. While we unde...
Genome integrity is constantly challenged by exogenous and endogenous insults, and mutations are ass...
Reverse genetic or gene-driven knockout approaches have contributed significantly to the success of ...
Mutation is associated with developmental and hereditary disorders, aging and cancer. While we under...
Whole-genome sequencing is a powerful tool for analyzing genetic variation on a global scale. One pa...
<div><p>Whole-genome sequencing is a powerful tool for analyzing genetic variation on a global scale...
Whole-genome sequencing (WGS) is becoming a fast and cost-effective method to pinpoint molecular les...
Whole-genome sequencing represents a promising approach to pinpoint chemically induced mutations in ...
Whole-genome sequencing provides a rapid and powerful method for identifying mutations on a global s...
An essential requirement of genetic research is the ability to identify mutations. Forward genetic s...
The emergence of Next Generation DNA Sequencing (NGS) technologies has made cloning of genes much mo...
Genome integrity is constantly challenged by exogenous and endogenous insults, and mutations are ass...
Whole-genome sequencing (WGS) is an indispensable tool for identifying causal mutations obtained fro...
Mutation is associated with developmental and hereditary disorders, aging, and cancer. While we unde...
Genome integrity is constantly challenged by exogenous and endogenous insults, and mutations are ass...
Reverse genetic or gene-driven knockout approaches have contributed significantly to the success of ...
Mutation is associated with developmental and hereditary disorders, aging and cancer. While we under...