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Hi Everyone, Oleg Igoshin is the Science at the Edge seminar speaker on Friday, March 15 - his abstract is attached and follows this message. Lee Kroos is hosting the speaker and if you would like to meet with Dr. Igoshin, please reply to this message with your available times (flexibility is helpful in scheduling the appointments) and I will get back with you to confirm the time. 7:45-9:00 Open - Breakfast w/speaker (he is staying at Kellogg Center and charge Br to room) 9:00-9:45 Reserved 9:45-10:30 Open 10:30-11:15 Open 11:15-11:30 Speaker Preparation, 1400 BPS 11:30-12:30 Seminar, 1400 BPS 12:30-2:00 Reserved - Lunch w/speaker 2:00-2:45 Reserved 2:45-3:30 Reserved 3:30-4:15 Open 4:15-5:00 Open 5:00-5:45 Open 6:30 Dinner Dr. Oleg Igoshin Department of Bioengineering Rice University Ultrasensitivity and stochasticity in bacterial networks The rate laws describing kinetics of biochemical reactions are fundamentally non-linear[1]. These non-linearities are responsible for many key dynamical properties of biochemical networks. Often these result in ultrasensitive switches in which small changes or fluctuations of network inputs can lead to a large change in network output. Such switches are important for making robust cell decisions but can be detrimental for networks functioning in homeostasis and desiring noise minimization. In this presentation I'll discuss biological examples illustrating each of these cases. In the first story[2], with combination of mathematical modeling and bioinformatic data analysis, we show that noise minimization and avoidance of ultrasensitive switches explain operon organization of E. coli. We hypothesized that operons alter gene expression noise characteristics, resulting in selection for or against maintaining operons depending on network architecture. Mathematical models for 6 functional classes of network modules showed that three classes exhibited decreased noise and 3 exhibited increased noise with same-operon cotranscription of interacting proteins. Ultrasensitive play major role in noise amplificationfor most of the modules. Further, we employed bioinformatic analysis of E. coli chromosome to find overrepresentation of noise-minimizing operon organization compared with randomized controls. These results suggest a central role for gene expression noise in selecting for or against maintaining operons in bacterial chromosomes thereby providing an example of how the architecture of post-translational networks affects bacterial evolution. In the second story[3], with combination of mathematical modeling and single-cell microscopy, we show the existence and origins of ultrasensitivity in the network responsible for cell-fate decision in sporulating B. subtilis. We infer that under uncertain conditions cells initiate sporulation but postpone making the sporulation decision in order to average stochastic fluctuations and to achieve robust population response. These results illustrate how unique structure of the sporulation network allows fast and robust population level response despite cellular variability. References: 1. Ray JCJ, Tabor JJ, Igoshin OA (2011) Non-transcriptional regulatory processes shape transcriptional network dynamics. Nature Reviews Microbiology 9: 817-828. 2. Ray JCJ, Igoshin OA (2012) Interplay of Gene Expression Noise and Ultrasensitive Dynamics Affects Bacterial Operon Organization. PLoS Comput Biol 8: e1002672. 3. Narula J, Devi SN, Fujita M, Igoshin OA (2012) Ultrasensitivity of the Bacillus subtilis sporulation decision. Proc Natl Acad Sci U S A 109: E3513-E3522. Thank you. Helen Helen Geiger, Administrative Assistant Quantitative Biology Graduate Program and Gene Expression in Development and Disease Biochemistry 603 Wilson Road, Room 212 East Lansing, MI 48824 Email: [log in to unmask]<mailto:[log in to unmask]> Phone: 517-432-9895 QB Website: http://www.qbi.msu.edu/ GEDD Website: http://www.gedd.msu.edu/ <03-15-13IgoshinAbstractFlyer.doc> ------------------------------------------- David Arnosti Professor Dept. of Biochemistry and Molecular Biology 413 Biochemistry 603 Wilson Road Michigan State University East Lansing, MI 48824-1319 [log in to unmask]<mailto:[log in to unmask]> www.bch.msu.edu<http://www.bch.msu.edu> tel: 517-432-5504 fax:517-353-9334 ------------------------------------------- You can remove yourself from this mailing list by sending an email To: [log in to unmask] with the following command in the body of your message: SIGNOFF BMBSEMINAR You will receive confirmation of your request via email.