(566a) Systematic Investigation of E. Coli Ai-2 Quorum Sensing Circuit Reveals Alternative Synthesis Pathways | AIChE

(566a) Systematic Investigation of E. Coli Ai-2 Quorum Sensing Circuit Reveals Alternative Synthesis Pathways

Authors 

Li, J. - Presenter, University of Maryland
Wang, L. - Presenter, University of Maryland Biotechnology Institute, College Park
Hashimoto, Y. - Presenter, University of Maryland, College Park
Tsao, C. - Presenter, University of Maryland
Bentley, W. E. - Presenter, University of Maryland


Quorum sensing (QS) has emerged as an important determinant of bacterial phenotype. Pathogenicity, biofilm formation, and conjugation are among the many factors regulated by intricate and multimodal QS signal transduction processes. In particular, the LuxS/AI-2 QS system has received intense scrutiny due to its conserved nature among Eubacteria, consequently AI-2 has been described as a ?universal? signal molecule. In order to understand the hierarchical organization of this genetic circuit, a comprehensive approach incorporating stochastic simulations was developed. We have investigated the synthesis, uptake, and regulation of AI-2, developed testable hypotheses, and revealed new insight on this genetic circuit: (1) mRNA transcript and protein levels of AI-2 synthases, Pfs and LuxS, do not contribute to the dramatically increased level of AI-2 found when cells are grown in the presence of glucose; (2) a concomitant increase in metabolic flux through this synthesis pathway in the presence of glucose only partially accounts for this difference. We predicted that ?high-flux? alternative pathways or additional biological steps are involved in AI-2 synthesis; and (3) subsequent experimental results validate this hypothesis. This work demonstrates the utility of linking cell physiology with systems-based stochastic models that can be assembled de novo with partial knowledge of biochemical pathways.