Part of the Physical Sciences and Mathematics Commons

Works by Gregg B. Fields in Physical Sciences and Mathematics

2016

Discovery of an enzyme and substrate selective inhibitor of ADAM10 using an exosite-binding glycosylated substrate, Franck Madoux, Daniela Dreymuller, Jean-Phillipe Pettiloud, Radleigh Santos, Christoph Becker-Pauly, Andreas Ludwig, Gregg B. Fields, Thomas Bannister, Timothy P. Spicer, Mare Cudic, Louis D. Scampavia, Dmitriy Minond
Mathematics Faculty Articles

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Modulation of Tumor Progression by Glycosylated Triple-helical Ligands, Gregg B. Fields, Mare Cudic, Beatrix Aukszi, Janelle Lauer-Fields
Beatrix Aukszi

Glycosylation Modulates Melanoma Cell α2β1 and α3β1 Integrin Interactions with Type IV Collagen, Maciej J. Stawikowski, Beatrix Aukszi, Roma Stawikowska, Mare Cudic, Gregg B. Fields
Beatrix Aukszi

2014

Glycosylation Modulates Melanoma Cell α2β1 and α3β1 Integrin Interactions with Type IV Collagen, Maciej J. Stawikowski, Beatrix Aukszi, Roma Stawikowska, Mare Cudic, Gregg B. Fields
Chemistry and Physics Faculty Articles

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2006

Modulation of Tumor Progression by Glycosylated Triple-helical Ligands, Gregg B. Fields, Mare Cudic, Beatrix Aukszi, Janelle Lauer-Fields
Chemistry and Physics Faculty Articles