[ChBE-Grad] Special ChBE Seminar this Tuesday 4/19 at 10am

Fri Apr 15 15:50:27 CDT 2022

Dear Colleagues,

Please make plans to attend the ChBE Seminar by Professor Mehmet Orman, scheduled for this coming Tuesday at 10am in the Science Building, Room 105.

Professor Orman will present his group's research on bacterial persisters.

Have a great weekend!

All the best,

Lakis

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T.J. (Lakis) Mountziaris, Ph.D.

William A. Brookshire Professor and Department Chair

William A. Brookshire Department of Chemical & Biomolecular Engineering

University of Houston

Houston, TX,  USA

Email: tjmountz at central.uh.edu

Cell: 716-812-8144

  ***** Special Seminar *****

William A. Brookshire Department of Chemical and Biomolecular Engineering

Presents

What Do We Know About Bacterial Persisters?

Tuesday April 19, 10:00am

Science Building, Room 105

Or virtually at https://urldefense.com/v3/__https://uh-edu-cougarnet.zoom.us/j/94690883059__;!!LkSTlj0I!Hu4C-8zSTt7claaVg7zzELLTRsUsPna1vXt4PTtlMiJG3xZf0uCfOGsH8yjZUO4n-Ff8LjOTsRFV3x5KgMVvxMSdvYU$ 

Mehmet Orman, Ph.D.

Assistant Professor

University of Houston

Abstract:
Our bodies have trillions of more microbial cells than human cells. Although most of these microorganisms are symbiotic and harmless, and play crucial roles in our health, some of them are pathogenic and can survive asymptomatically for a long time without growing. Due to their transient non-growing state, these pathogens can regain the ability to initiate cell growth (a phenotypic switch that is poorly understood) and establish cell populations that can cause diseases. My research group aims to characterize the microbial phenotypes that exist in a transient, growth-inhibited state. These cells, which are also called persisters, can survive high concentrations of antibiotics due to their growth-inhibited state. Antibiotic failure is a growing concern worldwide, and persister cells significantly contribute to this problem, as they can promote the emergence of antibiotic-resistant mutants and facilitate the recurrence of microbial infections. A deeper understanding of the molecular make-up of persister cells will facilitate the development of novel therapeutic strategies. Therefore, a major goal of my research is to study their physiology: the metabolite, RNA, and protein content that allow them to tolerate extraordinary concentrations of drugs.

Bio:

Dr. Orman has obtained his Ph.D. in Chemical Engineering from Rutgers University-New Brunswick and completed his post-doctoral studies at Princeton University and Memorial Sloan Kettering Cancer Center. He is currently an assistant professor at the Chemical and Biomolecular Engineering Department at the University of Houston. Dr. Orman has made significant contributions to the field of bacterial persisters that present a treatment challenge. He received the prestigious NIAID Career Transition Award (K22) and an R01 grant from the National Institutes of Health, an impressive accomplishment for a junior faculty member. Dr. Orman is also the recipient of NSF CAREER Award; he has proposed a compelling early career plan that integrates research and educational components that are well aligned with university initiatives.

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