However, in the absence of NspS, this effect is less pronounced

However, in the absence of NspS, this effect is less pronounced. Conversely, the large reduction seen in biofilm formation in the nspS mutant with high NspC levels suggests that NspC is not required for the effect of NspS on biofilm formation.

The fact that biofilm formation is maximal when both pathways are intact may imply a direct or an indirect interaction between these two pathways that enhance the effect of the other. One possible interaction could Tanespimycin research buy involve an autocrine-type signaling mechanism where a modified form of norspermidine is secreted by V. cholerae; this molecule is detected by NspS and activates the NspS signaling pathway. Polyamines can be modified by acetylation and exported to maintain polyamine homeostasis in cells (Igarashi & Kashiwagi, 2010). This process has not been studied in V. cholerae; however, an ortholog of the speG gene encoding spermidine acetyltransferase is found check details in the V. cholerae genome. It is possible that this protein is capable of acetylating norspermidine; acetylated norspermidine could then potentially interact

with NspS. Alternatively, norspermidine signaling and norspermidine biosynthesis pathways can act independently of each other and provide additive inputs into regulation of V. cholerae O139 biofilm formation. The distinction between these two possibilities will require more in-depth studies of these pathways. We thank Dr Sue Bauldry, Serena Heinz, Krista Kennerly, and the students in the immunology class of Spring 2009 at Appalachian State University for the production of the anti-NspC antibody, Dr Sue Edwards for the goat anti-rabbit antibody, Drs Mary Connell, Mark Venable, Ted Zerucha at Appalachian State University, Dr Paula Watnick at Harvard Medical School and Dr Tony Michael at UT Southwestern Medical Center for helpful discussions, and Dr Howie Neufeld at Appalachian State University for help with statistical analysis. Funding for this work was provided by the following sources: Appalachian State University Department of Biology, University Research Interleukin-2 receptor Council (2008–2009 grant to E.K.), Office of Student Research (grants

to M.W.M., Z.M.P. and S.S.P.), Graduate Student Association (grants to M.W.M. and Z.M.P.), and Sigma-Xi grants-in-aid of research (grant to M.W.M.). This project was also supported in part by the Grant Number AI096358 from the National Institute of Allergy and Infectious Diseases to E.K. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of Allergy and Infectious Diseases or The National Institutes of Health. Z.M.P. and S.S.P. have contributed equally to this work. “
“Streptomyces coelicolor, with its 8 667 507-bp linear chromosome, is the genetically most studied Streptomyces species and is an excellent model for studying antibiotic production and cell differentiation. Here, we report construction of S.

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