Abstract In studies of families with rare disease, it is common to screen for de novo mutations, as well as recessive or dominant variants that explain the phenotype. However, the filtering strategies and software used to prioritize high-confidence variants vary from study to study. In an effort to establish recommendations for rare disease research, we explore effective guidelines for variant (SNP and INDEL) filtering and report the expected number of candidates for de novo dominant, recessive, and autosomal dominant modes of inheritance. We derived these guidelines using two large family-based cohorts that underwent whole-genome sequencing, as well as two family cohorts with whole-exome sequencing. The filters are applied to common attrib...
Abstract Background With the expanding use of next-gen sequencing (NGS) to diagnose the thousands of...
The identification of disease-causing mutations in next-generation sequencing (NGS) data requires ef...
Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. Howeve...
Recent breakthroughs in exome-sequencing technology have made possible the identification of many ca...
There has been recent success in identifying disease-causing variants in Mendelian disorders by exom...
Treball de fi de grau en Biologia HumanaSupervisor: Ferran Casals LópezNext-generation sequencing te...
Autozygosity is associated with an increased risk of genetic rare disease, thus being a relevant fac...
BACKGROUND: The advent of affordable sequencing has enabled researchers to discover many variants co...
Autozygosity is associated with an increased risk of genetic rare disease, thus being a relevant fac...
Exome sequencing in families affected by rare genetic disorders has the potential to rapidly identif...
Recently, whole-genome sequencing, especially exome sequencing, has successfully led to the identifi...
Advances in high-throughput genomic technologies have facilitated the collection of DNA information ...
Biological and empirical evidence suggests that rare variants account for a large proportion of the ...
Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. Howeve...
Exome sequencing in families affected by rare genetic disorders has the potential to rapidly identif...
Abstract Background With the expanding use of next-gen sequencing (NGS) to diagnose the thousands of...
The identification of disease-causing mutations in next-generation sequencing (NGS) data requires ef...
Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. Howeve...
Recent breakthroughs in exome-sequencing technology have made possible the identification of many ca...
There has been recent success in identifying disease-causing variants in Mendelian disorders by exom...
Treball de fi de grau en Biologia HumanaSupervisor: Ferran Casals LópezNext-generation sequencing te...
Autozygosity is associated with an increased risk of genetic rare disease, thus being a relevant fac...
BACKGROUND: The advent of affordable sequencing has enabled researchers to discover many variants co...
Autozygosity is associated with an increased risk of genetic rare disease, thus being a relevant fac...
Exome sequencing in families affected by rare genetic disorders has the potential to rapidly identif...
Recently, whole-genome sequencing, especially exome sequencing, has successfully led to the identifi...
Advances in high-throughput genomic technologies have facilitated the collection of DNA information ...
Biological and empirical evidence suggests that rare variants account for a large proportion of the ...
Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. Howeve...
Exome sequencing in families affected by rare genetic disorders has the potential to rapidly identif...
Abstract Background With the expanding use of next-gen sequencing (NGS) to diagnose the thousands of...
The identification of disease-causing mutations in next-generation sequencing (NGS) data requires ef...
Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. Howeve...