Benjamin Blencowe, Ph.D.
Affiliations: | Molecular Genetics | University of Toronto, Toronto, ON, Canada |
Area:
mRNA splicingWebsite:
http://www.utoronto.ca/intron/blencowe.htmlGoogle:
"Benjamin Blencowe"Cross-listing: Chemistry Tree
Parents
Sign in to add mentor| Angus Lamond | grad student | EMBL, Heidelberg | |
| Phillip Allen Sharp | post-doc | 1992-1998 | MIT |
Children
Sign in to add trainee| Emanuel Rosonina | grad student | 2004 | University of Toronto |
| Arneet L. Saltzman | grad student | 2011 | University of Toronto |
| Manuel Irimia | post-doc | University of Toronto (Evolution Tree) | |
| May Khanna | post-doc | 2004-2009 | University of Toronto (Chemistry Tree) |
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Publications
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| Ray D, Laverty KU, Jolma A, et al. (2023) RNA-binding proteins that lack canonical RNA-binding domains are rarely sequence-specific. Scientific Reports. 13: 5238 |
| Song J, Nabeel-Shah S, Pu S, et al. (2022) Regulation of alternative polyadenylation by the C2H2-zinc-finger protein Sp1. Molecular Cell |
| Han H, Best AJ, Braunschweig U, et al. (2022) Systematic exploration of dynamic splicing networks reveals conserved multistage regulators of neurogenesis. Molecular Cell |
| Barutcu AR, Wu M, Braunschweig U, et al. (2022) Systematic mapping of nuclear domain-associated transcripts reveals speckles and lamina as hubs of functionally distinct retained introns. Molecular Cell |
| Dumbović G, Braunschweig U, Langner HK, et al. (2021) Publisher Correction: Nuclear compartmentalization of TERT mRNA and TUG1 lncRNA is driven by intron retention. Nature Communications. 12: 6189 |
| Dumbović G, Braunschweig U, Langner HK, et al. (2021) Nuclear compartmentalization of TERT mRNA and TUG1 lncRNA is driven by intron retention. Nature Communications. 12: 3308 |
| Rodrigues DC, Mufteev M, Weatheritt RJ, et al. (2020) Shifts in Ribosome Engagement Impact Key Gene Sets in Neurodevelopment and Ubiquitination in Rett Syndrome. Cell Reports. 30: 4179-4196.e11 |
| Gonatopoulos-Pournatzis T, Niibori R, Salter EW, et al. (2020) Autism-Misregulated eIF4G Microexons Control Synaptic Translation and Higher Order Cognitive Functions. Molecular Cell |
| Ule J, Blencowe BJ. (2019) Alternative Splicing Regulatory Networks: Functions, Mechanisms, and Evolution. Molecular Cell. 76: 329-345 |
| Capponi S, Stöffler N, Irimia M, et al. (2019) Neuronal-specific microexon splicing of mRNA is directly regulated by SRRM4/nSR100. Rna Biology. 1-13 |