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Full-Text Articles in Medicine and Health Sciences
Rare But Recurrent Ros1 Fusions Resulting From Chromosome 6q22 Microdeletions Are Targetable Oncogenes In Glioma., Monika A Davare, Jacob J Henderson, Anupriya Agarwal, Jacob P Wagner, Sudarshan R Iyer, Nameeta Shah, Randy Woltjer, Romel Somwar, Stephen W Gilheeney, Ana Decarvalo, Tom Mikkelson, Erwin G Van Meir, Marc Ladanyi, Brian J Druker
Rare But Recurrent Ros1 Fusions Resulting From Chromosome 6q22 Microdeletions Are Targetable Oncogenes In Glioma., Monika A Davare, Jacob J Henderson, Anupriya Agarwal, Jacob P Wagner, Sudarshan R Iyer, Nameeta Shah, Randy Woltjer, Romel Somwar, Stephen W Gilheeney, Ana Decarvalo, Tom Mikkelson, Erwin G Van Meir, Marc Ladanyi, Brian J Druker
Articles, Abstracts, and Reports
PURPOSE: Gliomas, a genetically heterogeneous group of primary central nervous system tumors, continue to pose a significant clinical challenge. Discovery of chromosomal rearrangements involving kinase genes has enabled precision therapy, and improved outcomes in several malignancies.
EXPERIMENTAL DESIGN: Positing that similar benefit could be accomplished for patients with brain cancer, we evaluated The Cancer Genome Atlas (TCGA) glioblastoma dataset. Functional validation of the oncogenic potential and inhibitory sensitivity of discovered ROS1 fusions was performed using three independent cell-based model systems, and an
RESULTS:
CONCLUSIONS: Our findings highlight that CNS tumors should be specifically interrogated for these rare intrachromosomal 6q22 microdeletion …
Recurrent Tumor-Specific Regulation Of Alternative Polyadenylation Of Cancer-Related Genes., Zhuyi Xue, René L Warren, Ewan A Gibb, Daniel Macmillan, Johnathan Wong, Readman Chiu, S Austin Hammond, Chen Yang, Ka Ming Nip, Catherine A Ennis, Abigail Hahn, Sheila Reynolds, Inanc Birol
Recurrent Tumor-Specific Regulation Of Alternative Polyadenylation Of Cancer-Related Genes., Zhuyi Xue, René L Warren, Ewan A Gibb, Daniel Macmillan, Johnathan Wong, Readman Chiu, S Austin Hammond, Chen Yang, Ka Ming Nip, Catherine A Ennis, Abigail Hahn, Sheila Reynolds, Inanc Birol
Articles, Abstracts, and Reports
BACKGROUND: Alternative polyadenylation (APA) results in messenger RNA molecules with different 3' untranslated regions (3' UTRs), affecting the molecules' stability, localization, and translation. APA is pervasive and implicated in cancer. Earlier reports on APA focused on 3' UTR length modifications and commonly characterized APA events as 3' UTR shortening or lengthening. However, such characterization oversimplifies the processing of 3' ends of transcripts and fails to adequately describe the various scenarios we observe.
RESULTS: We built a cloud-based targeted de novo transcript assembly and analysis pipeline that incorporates our previously developed cleavage site prediction tool, KLEAT. We applied this pipeline to …