Targeted Transcriptome Analysis Uncovers Previously Unknown Isoform Reprograming in Colon Cancer

SAN JOSE, Calif., Aug. 13, 2020 /PRNewswire/ -- Despite progress in massively parallel sequencing there remains a gap in our ability to characterize mRNA splicing in cancer due to read-length limitations of short-read sequencing and accuracy limitations of long-read sequencing. This has limited the use of RNA as a diagnostic marker and of mutated protein isoforms as drug targets.

In a new study, The University of Pittsburgh Medical Center and Loop Genomics describe a targeted synthetic long-read approach for sequencing mRNA isoforms with ultra-high accuracy.

Applied to mRNA isoforms in colon cancer, it uncovered large scale reprogramming of isoform expression in the progression of cancer. Much of novel isoform reprogramming has gone undetected using short read sequencing as it alters isoform expression without altering gene expression. Additionally, many SNP isoforms have gone undetected because ultra-low error rate long reads are required to distinguish real from false positive mutation isoforms. The study demonstrates that isoforms outperform genes in segregating tissue types by their cancer progression stage and that isoform specific mutations can define tissues along the cancer progression timeline.

"We are very excited with the results and look forward to seeing this methodology used in the next few years to discover new and potentially druggable protein isoforms targets in cancer," says Jianhua Luo, MD, PhD, Director of the High Throughput Genome Center at the University of Pittsburgh Medical Center Department of Pathology.

The publication can be found here:

Notes to editors:
Founded in 2015, Loop Genomics is a San Francisco bay area company that commercializes technology for Next-Generation Sequencing.

CONTACT: Tony Lialin, 650-284-9732,

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SOURCE Loop Genomics