PROFESSOR NILS WALTER, THE FRANCIS S. COLLINS COLLEGIATE PROFESSORSHIP IN CHEMISTRY, BIOPHYSICS AND BIOLOGICAL CHEMISTRY, INAUGURAL LECTURE
Can RNA Do It All? From Spawning Life on Earth to Fueling Modern Personalized Medicine (Read: mRNA Vaccines)
Billions of safely given mRNA vaccine doses have saved millions of lives worldwide and proved beyond the shadow of a doubt that a transformative era of RNA Therapeutics is upon us, with great promise for overcoming virtually all diseases within this century through personalized medicines. Yet RNA can do so much more! Since the human genome project was completed, we know that at least 75% of our 3 billion DNA base pairs are transcribed into RNA, with the vast majority not coding for proteins but rather for “non-coding” RNAs (ncRNAs). Many of these ncRNAs remain uncharacterized in terms of their structure and function, spawning discussions of whether they are functional or not (and what “biological function” even is!). These applications and discoveries suggest that so far we have underestimated the far-reaching “RNA World” in our body, which may well also have spawned life on earth.
After an introduction to the power and benefits of these “new” and “old” RNA Worlds, this seminar will highlight some of the foundational work by the Walter lab, in which we use modern single molecule fluorescence microscopy to dissect and control the nanometer-sized RNA-protein assemblies that govern life, and particularly gene expression. Specifically, single molecule fluorescence resonance energy transfer (smFRET) allows us to measure distances at the 2-8 nm scale, whereas complementary super-resolution localization techniques measure distances in the 10 nm and longer range where biology occurs. Embracing the power of these technical advances, we have combined single-molecule, biochemical and computational simulation approaches to show that a bacterial riboswitch – controlled by a metabolite ligand – manipulates the speed of the much larger bacterial RNA polymerase. We posit that many more examples of such intimate coupling between RNA folding and gene expression remain to be discovered, leading to opportunities to identify new Achilles’ heels of the many pathogens that threaten human health. In addition, we are developing tools to observe single RNA nanomachines in action within their natural habitats inside living cells, leading to discoveries that may guide the development of novel cancer-fighting approaches.
If you are unable to attend this lecture in person please see below.
Please click the link below to join the webinar:
https://umich.zoom.us/j/94011983924
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Meeting ID: 940 1198 3924
SIP: 94011983924@zoomcrc.com
After an introduction to the power and benefits of these “new” and “old” RNA Worlds, this seminar will highlight some of the foundational work by the Walter lab, in which we use modern single molecule fluorescence microscopy to dissect and control the nanometer-sized RNA-protein assemblies that govern life, and particularly gene expression. Specifically, single molecule fluorescence resonance energy transfer (smFRET) allows us to measure distances at the 2-8 nm scale, whereas complementary super-resolution localization techniques measure distances in the 10 nm and longer range where biology occurs. Embracing the power of these technical advances, we have combined single-molecule, biochemical and computational simulation approaches to show that a bacterial riboswitch – controlled by a metabolite ligand – manipulates the speed of the much larger bacterial RNA polymerase. We posit that many more examples of such intimate coupling between RNA folding and gene expression remain to be discovered, leading to opportunities to identify new Achilles’ heels of the many pathogens that threaten human health. In addition, we are developing tools to observe single RNA nanomachines in action within their natural habitats inside living cells, leading to discoveries that may guide the development of novel cancer-fighting approaches.
If you are unable to attend this lecture in person please see below.
Please click the link below to join the webinar:
https://umich.zoom.us/j/94011983924
Or One tap mobile :
US: +16468769923,,94011983924# or +16469313860,,94011983924#
Or Telephone:
Dial(for higher quality, dial a number based on your current location):
US: +1 646 876 9923 or +1 646 931 3860 or +1 301 715 8592 or +1 305 224 1968 or +1 309 205 3325 or +1 312 626 6799 or +1 719 359 4580 or +1 253 205 0468 or +1 253 215 8782 or +1 346 248 7799 or +1 360 209 5623 or +1 386 347 5053 or +1 507 473 4847 or +1 564 217 2000 or +1 669 444 9171 or +1 669 900 6833 or +1 689 278 1000
Canada: +1 587 328 1099 or +1 647 374 4685 or +1 647 558 0588 or +1 778 907 2071 or +1 780 666 0144 or +1 204 272 7920 or +1 438 809 7799
Webinar ID: 940 1198 3924
International numbers available: https://umich.zoom.us/u/adhOU6qjZP
Or an H.323/SIP room system:
H.323:
162.255.37.11 (US West)
162.255.36.11 (US East)
115.114.131.7 (India Mumbai)
115.114.115.7 (India Hyderabad)
213.19.144.110 (Amsterdam Netherlands)
213.244.140.110 (Germany)
103.122.166.55 (Australia Sydney)
103.122.167.55 (Australia Melbourne)
149.137.40.110 (Singapore)
64.211.144.160 (Brazil)
149.137.68.253 (Mexico)
69.174.57.160 (Canada Toronto)
65.39.152.160 (Canada Vancouver)
207.226.132.110 (Japan Tokyo)
149.137.24.110 (Japan Osaka)
Meeting ID: 940 1198 3924
SIP: 94011983924@zoomcrc.com
| Building: | LSA Building |
|---|---|
| Event Type: | Lecture / Discussion |
| Tags: | AEM Featured, biological chemistry, Biophysics, Chemistry |
| Source: | Happening @ Michigan from The College of Literature, Science, and the Arts, Biological Chemistry, Department of Chemistry, LSA Biophysics |
