Provided herein are methods and compositions to detect MET exon 14 skipping using RT-PCR, and methods of treating individuals with MET exon 14 deleted cancers.

Provided herein are methods and compositions to detect MET exon 14 skipping using RT-PCR, and methods of treating individuals with MET exon 14 deleted cancers.

The present invention relates to detecting aberrant expression of genes which may be associated with a disease or disorder using haplotype phasing. In particular, the invention relates to a method of obtaining an indication of dysregulation between the expression levels of at least two alleles of a gene in a target eukaryotic cell. The method comprises the steps of for a plurality of genes from one or more target eukaryotic cells, (a) obtaining pre-mRNAs of at least two alleles of the same gene; and (b) determining the ratios (Ri,j) between amounts of the pre-mRNAs of one or more pairs of alleles (i,j) of the same gene.

The present invention relates to detecting aberrant expression of genes which may be associated with a disease or disorder using haplotype phasing. In particular, the invention relates to a method of obtaining an indication of dysregulation between the expression levels of at least two alleles of a gene in a target eukaryotic cell. The method comprises the steps of for a plurality of genes from one or more target eukaryotic cells, (a) obtaining pre-mRNAs of at least two alleles of the same gene; and (b) determining the ratios (Ri,j) between amounts of the pre-mRNAs of one or more pairs of alleles (i,j) of the same gene.

The present invention relates to a high-throughput method of screening splicing variants of target genes as drug targets or for characterisation of their biological functions. The disclosure provides a method for the screening of splicing variants, comprising: (a) providing a first antisense oligonucleotide capable of inducing a first splice event on the target gene to express a first splicing variant, and a second antisense oligonucleotide capable of inducing a second splice event on the target gene to express a second splicing variant; (b) hybridising the first and second antisense oligonucleotides to a pre-mRNA of the target gene; and (c) characterising the effect of the splice event. In one embodiment, the first antisense oligonucleotide switches the splice event that expresses the second splicing variant towards one that expresses the first splicing variant, while the second antisense oligonucleotide switches the splice event that expresses the first splicing variant towards one that expresses the second splicing variant.

The present invention relates to a high-throughput method of screening splicing variants of target genes as drug targets or for characterisation of their biological functions. The disclosure provides a method for the screening of splicing variants, comprising: (a) providing a first antisense oligonucleotide capable of inducing a first splice event on the target gene to express a first splicing variant, and a second antisense oligonucleotide capable of inducing a second splice event on the target gene to express a second splicing variant; (b) hybridising the first and second antisense oligonucleotides to a pre-mRNA of the target gene; and (c) characterising the effect of the splice event. In one embodiment, the first antisense oligonucleotide switches the splice event that expresses the second splicing variant towards one that expresses the first splicing variant, while the second antisense oligonucleotide switches the splice event that expresses the first splicing variant towards one that expresses the second splicing variant.

Described herein are methods and kits for detecting the presence or absence of gene dysregulations such as those arising from gene fusions and/or chromosomal abnormalities, e.g. translocations, insertions, inversions and deletions. The methods, compositions and kits are useful for detecting mutations that cause the differential expression of a 5′ portion of a target gene relative to the 3′ region of the target gene. The average expression of the 5′ portion of the target gene is compared with the average expression of the 3′ portion of the target gene to determine an intragenic differential expression (IDE). The IDE can then be used to determine if a dysregulation or a particular disease (or susceptibility to a disease) is present or absent in a subject or sample.

Described herein are methods and kits for detecting the presence or absence of gene dysregulations such as those arising from gene fusions and/or chromosomal abnormalities, e.g. translocations, insertions, inversions and deletions. The methods, compositions and kits are useful for detecting mutations that cause the differential expression of a 5′ portion of a target gene relative to the 3′ region of the target gene. The average expression of the 5′ portion of the target gene is compared with the average expression of the 3′ portion of the target gene to determine an intragenic differential expression (IDE). The IDE can then be used to determine if a dysregulation or a particular disease (or susceptibility to a disease) is present or absent in a subject or sample.

Disclosed is a method of detecting and quantifying genomic and gene expression alterations using RNA in a biological sample. The disclosed method may include determining presence or absence of the genomic alteration and/or determining presence or absence of the gene expression and/or quantifying the level of the gene expression, by performing variant calling of the sequence alignment obtained from the disclosed method. Variant calling may comprise the steps of identifying differences between a consensus read and a reference genome based on the sequence alignment from the disclosed method; and determining the read count of sequence alignments comprising genomic alteration. The genomic alteration may be an insertion (such as a duplication), a deletion, a single nucleotide variant, or combinations thereof. Also disclosed is a kit for detecting and quantifying genomic and gene expression alterations using RNA in a biological sample.

Disclosed is a method of detecting and quantifying genomic and gene expression alterations using RNA in a biological sample. The disclosed method may include determining presence or absence of the genomic alteration and/or determining presence or absence of the gene expression and/or quantifying the level of the gene expression, by performing variant calling of the sequence alignment obtained from the disclosed method. Variant calling may comprise the steps of identifying differences between a consensus read and a reference genome based on the sequence alignment from the disclosed method; and determining the read count of sequence alignments comprising genomic alteration. The genomic alteration may be an insertion (such as a duplication), a deletion, a single nucleotide variant, or combinations thereof. Also disclosed is a kit for detecting and quantifying genomic and gene expression alterations using RNA in a biological sample.