Add to ORKGThe interpretation of non-coding variants still constitutes a major challenge in the application of whole-genome sequencing in Mendelian disease, especially for single-nucleotide and other small non-coding variants. Here we present Genomiser, an analysis framework that is able not only to score the relevance of variation in the non-coding genome, but also to associate regulatory variants to specific Mendelian diseases. Genomiser scores variants through either existing methods such as CADD or a bespoke machine learning method and combines these with allele frequency, regulatory sequences, chromosomal topological domains, and phenotypic relevance to discover variants associated to specific Mendelian disorders. Overall, Genomiser is able ...
The detection of pathogenic genomic variants associated with genetic or cancer diseases represents a...
New sequencing technology has enabled the identification of thousands of single nucleotide polymorph...
Molecular genetic approaches have evolved at an astonishing pace resulting in increasingly routine u...
The interpretation of non-coding variants still constitutes a major challenge in the application of ...
Background: Whole exome sequencing studies identify hundreds to thousands of rare protein coding var...
Increasingly affordable sequencing technologies are revolutionizing the field of genomic medicine. I...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
The vast majority of the human genome (~98%) is non-coding. A symphony of non-coding sequences resi...
The vast majority of the human genome (~98%) is non-coding. A symphony of non-coding sequences resi...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
We still do not know the genetic basis of roughly half of the estimated 7,000 Mendelian diseases. Fo...
Mendelian disorders are mostly caused by single mutations in the DNA sequence of a gene, leading to ...
Mendelian disorders are mostly caused by single mutations in the DNA sequence of a gene, leading to ...
The detection of pathogenic genomic variants associated with genetic or cancer diseases represents a...
New sequencing technology has enabled the identification of thousands of single nucleotide polymorph...
Molecular genetic approaches have evolved at an astonishing pace resulting in increasingly routine u...
The interpretation of non-coding variants still constitutes a major challenge in the application of ...
Background: Whole exome sequencing studies identify hundreds to thousands of rare protein coding var...
Increasingly affordable sequencing technologies are revolutionizing the field of genomic medicine. I...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
The vast majority of the human genome (~98%) is non-coding. A symphony of non-coding sequences resi...
The vast majority of the human genome (~98%) is non-coding. A symphony of non-coding sequences resi...
Background Whole exome sequencing studies identify hundreds to thousands of rare protein coding v...
We still do not know the genetic basis of roughly half of the estimated 7,000 Mendelian diseases. Fo...
Mendelian disorders are mostly caused by single mutations in the DNA sequence of a gene, leading to ...
Mendelian disorders are mostly caused by single mutations in the DNA sequence of a gene, leading to ...
The detection of pathogenic genomic variants associated with genetic or cancer diseases represents a...
New sequencing technology has enabled the identification of thousands of single nucleotide polymorph...
Molecular genetic approaches have evolved at an astonishing pace resulting in increasingly routine u...