Background: Gene fusions, which result from abnormal chromosome rearrangements, are a pathogenic factor in cancer development. The emerging RNA-Seq technology enables us to detect gene fusions and profile their features. Results: In this paper, we proposed a novel fusion detection tool, FusionQ, based on paired-end RNA-Seq data. This tool can detect gene fusions, construct the structures of chimerical transcripts, and estimate their abundances. To confirm the read alignment on both sides of a fusion point, we employed a new approach, "residual sequence extension", which extended the short segments of the reads by aggregating their overlapping reads. We also proposed a list of filters to control the false-positive rate. In addit...
Analysis of fusion transcripts has become increasingly important due to their link with cancer devel...
Chimeric phenomena have been recently recognized to play a significant role in the investigation and...
RNA-Seq (Whole Transcriptome Shotgun Sequencing) provides an ideal platform to study the complete se...
Background Fusion genes are known to be drivers of many common cancers, so they are...
Abstract Background In cancer, genomic rearrangements can create fusion genes that either combine pr...
Abstract Background Latest Nex...
Nowadays there exist many bioinformatics tools that analyse sequencing data to identify genetic aber...
Gene fusions occur in solid tumors and hematological malignancies, formed as the result of somatic g...
Gene fusions are known to play critical roles in tumor pathogenesis. Yet, sensitive and specific alg...
RNA sequencing in cancer cells is a powerful technique to detect chromosomal rearrangements, allowin...
Abstract Background Genomic rearrangements in cancer cells can create fusion genes that encode chime...
With the development and application of next-generation sequencing (NGS) and target capture technolo...
Fusion genes are known to be key drivers of tumor growth in several types of cancer. Traditionally, ...
The identification of gene fusions promises to play an important role in personalized cancer treatme...
Motivation Fusion genes created by genomic rearrangements can be potent drivers of tumorigenesis. Ho...
Analysis of fusion transcripts has become increasingly important due to their link with cancer devel...
Chimeric phenomena have been recently recognized to play a significant role in the investigation and...
RNA-Seq (Whole Transcriptome Shotgun Sequencing) provides an ideal platform to study the complete se...
Background Fusion genes are known to be drivers of many common cancers, so they are...
Abstract Background In cancer, genomic rearrangements can create fusion genes that either combine pr...
Abstract Background Latest Nex...
Nowadays there exist many bioinformatics tools that analyse sequencing data to identify genetic aber...
Gene fusions occur in solid tumors and hematological malignancies, formed as the result of somatic g...
Gene fusions are known to play critical roles in tumor pathogenesis. Yet, sensitive and specific alg...
RNA sequencing in cancer cells is a powerful technique to detect chromosomal rearrangements, allowin...
Abstract Background Genomic rearrangements in cancer cells can create fusion genes that encode chime...
With the development and application of next-generation sequencing (NGS) and target capture technolo...
Fusion genes are known to be key drivers of tumor growth in several types of cancer. Traditionally, ...
The identification of gene fusions promises to play an important role in personalized cancer treatme...
Motivation Fusion genes created by genomic rearrangements can be potent drivers of tumorigenesis. Ho...
Analysis of fusion transcripts has become increasingly important due to their link with cancer devel...
Chimeric phenomena have been recently recognized to play a significant role in the investigation and...
RNA-Seq (Whole Transcriptome Shotgun Sequencing) provides an ideal platform to study the complete se...