Tapahtumakalenteri
Dissertation: Sami Jalil
Opponent: PhD Angelo Lombardo, San Raffaele Telethon Institute for Gene Therapy, IRCCS San Raffaele Scientific Institute, Milan, Italy
Biostatistics drop-in workshop
Are you a researcher needing support with any statistical aspect of your work? The Biostatistics Consulting Service here at Meilahti Campus holds drop-in workshop sessions every other week to answer smaller questions about your analysis - solving a particular problem, how to get started, etc. We provide service in Finnish, English and Swedish.
The next workshop of this term is on Wednesday 23rd October, at 13:00-15:00 in Biomedicum 2B, in the Olohuone on floor 6. Come whenever you can. Note that you may end up waiting a while for your turn, especially early on in the session. We aim to spend no more than 15 minutes with each customer.
Bring:
· your computer
· your data
· your questions
and we biostatisticians will be on hand to help and guide.
Registration is not required, but you can help us prepare for your questions by filling in this form. The workshops are open to any researcher at the university's Medical Faculty, HUS or FIMM.
The autumn's following sessions are planned for 6.11, 20.11, 4.12 & 18.12.
For more in-depth questions, please book a one-on-one consultation session using this e-form where we will have time to go into more detail.
From the Biostatistics Team
Brain &Mind Symposium
Thursday 24th of October 2024
Special seinar by Assistant Professor Paul Boutz
Paul Boutz Bio:
Professor Paul Boutz’ research group is based at Rochester University, New York, USA. Prior to starting his independent career, Dr Boutz was a Postdoc in Nobel Laureate Dr. Phillip Sharp’s group at Massachusetts Institute of Technology (MIT), where he discovered a novel class of introns, termed ‘detained introns’. He is trained as a molecular biologist (PhD) and developed broad expertise in computational biology during his Postdoctoral training.
Dr Boutz’s team develops novel algorithms to classify and annotate the structures of genes in order to understand how transcriptional and post-transcriptional processes shape the quantity and quality of the cellular transcriptome, and to uncover novel alternative splicing events and alternative polyadenylation sites that play important roles in both normal physiology as well as the development and progression of diseases, particularly cancer. They utilize deep-learning neural networks and long-read sequencing to gain insights into the cis-acting RNA sequence elements in response to pharmacological interventions or disease-causing mutations.
In brief, Dr Boutz has deep technical and biological understanding in the areas of RNA processing and gene expression regulation in health and disease.
Boutz lab website:
https://www.urmc.rochester.edu/people/112361806-paul-l-boutz
Selected publications:
Pan Y, Adachi H, He X, Chen JL, Yu Y*, Boutz PL*. Updated Pseudo-seq Protocol for Transcriptome-Wide Detection of Pseudouridines. Bio-Protocol 2024.
Insco ML, Abraham BJ, Dubbury SJ, Dust S, Kaltheuner IH, Wu C, Chen KY, Liu D, Bellaousov S, Cox AM, Martin BJE, Zhang T, Ludwig CG, Fabo T, Modhurima R, Esgdaille DE, Henriques T, Brown K, Chanock SJ, Geyer M, Adelman K, Sharp PA, Young RA, Boutz PL, Zon LI. Oncogenic CDK13 Mutations Impede Nuclear RNA Surveillance. Science 2023.
Adachi H, Pan Y, He X, Chen JL, Klein B, Platenburg G, Morais P, Boutz PL*, Yu YT*. Targeted pseudouridylation: An approach for suppressing nonsense mutations in disease genes. Molecular Cell 2023.
Tan ZW, Fei G, Paulo JA, Bellaousov S, Martin SES, Duveau DY, Thomas CJ, Gygi SP, Boutz PL*, Walker S*. O-GlcNAc regulates gene expression by controlling detained intron splicing. Nucleic Acids Res 2020.
Dubbury SJ*, Boutz PL*, Sharp PA. *Co-first authors. CDK12 regulates DNA repair genes by suppressing intronic polyadenylation. Nature 2018.
Braun CJ*, Stanciu M*, Boutz PL*, Patterson JC, Calligaris D, Higuchi F, Neupane R, Fenoglio S, Cahill DP, Wakimoto H, Agar NYR, Yaffe MB, Sharp PA, Hemann MT, Lees JA. Coordinated Splicing of Regulatory Detained Introns within Oncogenic Transcripts Creates an Exploitable Vulnerability in Malignant Glioma. Cancer Cell 2017.
Boutz PL, Bhutkar A, Sharp PA. Detained introns are a novel, widespread class of post-transcriptionally spliced introns. Genes Dev 2015.
Dissertation: Aishwarya Gondane
Opponent: Assistant Professor Paul Boutz, University of Rochester Medical Center