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Publications
2022
Pfoh, R.; Subramanian, A. S.; Huang, J.; Little, D. J.; Forman, A.; DiFrancesco, B. R.; Balouchestani-Asli, N.; Kitova, E. N.; Klassen, J. S.; Pomès, R.; Nitz, M.; P Howell, L. The Tpr Domain Of Pgaa Is A Multifunctional Scaffold That Binds Pnag And Modulates Pgab-Dependent Polymer Processing. PLoS Pathog 2022,
18 (8), e1010750.
2020
Marmont, L. S.; Whitfield, G. B.; Pfoh, R.; Williams, R. J.; Randall, T. E.; Ostaszewski, A.; Razvi, E.; Groves, R. A.; Robinson, H.; Nitz, M.; Parsek, M. R.; Lewis, I. A.; Whitney, J. C.; Harrison, J. J.; P Howell, L. Pelx Is A Udp--Acetylglucosamine C4-Epimerase Involved In Pel Polysaccharide-Dependent Biofilm Formation. J Biol Chem 2020,
295 (34), 11949-11962.
2018
Little, D. J.; Pfoh, R.; Le Mauff, F.; Bamford, N. C.; Notte, C.; Baker, P.; Guragain, M.; Robinson, H.; Pier, G. B.; Nitz, M.; Deora, R.; Sheppard, D. C.; P Howell, L. Pgab Orthologues Contain A Glycoside Hydrolase Domain That Cleaves Deacetylated Poly-Β(1,6)-N-Acetylglucosamine And Can Disrupt Bacterial Biofilms. PLoS Pathog 2018,
14 (4), e1006998.