Karatan Lab

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Ece Karatan
karatane@appstate.edu

Appalachian State University
Department of Biology
Rankin Science North
319 (Office), 303 (Lab)
828-262-6742

Disclaimer

Karatan Lab is located in the Department of Biology at Appalachian State University. The main focus of the reseach in our lab is biofilm formation in Vibrio cholerae.

lab picture

Karatan Lab 2010-2011: Stormtrooper,  Alex Rutkovsky, Ece Karatan, Sam Pendergraft, Brad Goforth. Hanging off the cliff below: Nick Walter

Nick

We are always looking for enthusiastic graduate and undergraduate students to join the lab. Funding for a Master's degree is available to graduate students in the form of teaching assistantships and various fellowships. There is currently no funding available for undergraduates; however, these students can do research in the lab either for independent study credit or for Biology and/or University Honors program requirements. If you are interested in joining the Karatan Lab please contact Ece Karatan.

Previous years' lab members:
09-10
08-09
07-08
06-07

Selected publications:

Increased abundance of Gallionella spp., Leptothrix spp. and total bacteria in response to enhanced Mn and Fe concentrations in a disturbed southern Appalachian high elevation wetland. Johnson K, Carmichael M, McDonald W, Rose N, Windelspecht M, Pitchford J, Karatan E, Bräuer S. Geomicrobio. In Press.

Spermidine regulates Vibrio cholerae biofilm formation via transport and signaling pathways. McGinnis MW, Parker ZM, Walter NE, Rutkovsky AC, Cartaya-Marin C, Karatan E. (2009) FEMS Microbiol Lett 299(2):166-74.

Signals, regulatory networks, and materials that build and break bacterial biofilms. Karatan E., Watnick, PI. (2009) Microbiol Mol Biol Rev 73: 310-347.

NspS, a predicted polyamine sensor, mediates activation of Vibrio cholerae biofilm formation by norspermidine. Karatan E., Duncan, T., Watnick PI. (2005) J Bacteriol 187: 7434-7443.

Biofilm Development in Bacteria. Kierek-Pearson K. and Karatan E. (2005). In: Advances in Applied Microbiology, Laskin, AI., Bennett, JW., and Gadd, MG. (Ed) Elsevier Inc.  Vol. 57 pp. 79-112

Role for glycine betaine transport in Vibrio cholerae osmoadaptation and biofilm formation within microbial communities. Kapfhammer D., Karatan E., Pflughoeft K.J., Watnick P.I. (2005) Appl. Environ. Microbiol. Jul; 71(7):3840-7.

Antibody Arrays Prepared by Cutinase-Mediated Immobilization on Self-Assembled Monolayers. Kwon Y., Han Z., Karatan E., Mrksich M., Kay B.K. (2004) Anal. Chem. Oct 1;76(19):5713-20.

Molecular Recognition Properties of FN3 Monobodies that Bind the Src SH3 Domain. Karatan E., Merguerian M., Han Z., Scholle MD., Koide S., Kay BK. (2004) Chem. Biol. Jun;11(6):835-44

Accelerated Screening of Phage-Display Output with Alkaline Phosphatase Fusions. Han Z., Karatan E., Scholle MD., McCafferty J., Kay BK. (2004) Comb. Chem. High Throughput Screen. Feb; 7 (1): 55-62

Effect of Loss of CheC and Other Adaptational Proteins on Chemotactic Behaviour in Bacillus subtilis. Saulmon MM., Karatan E., Ordal GW. (2004) Microbiology; (150): 581-589

Cool Links:
Darwin Bicentennial Celebrations at Appalachian State