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Browsing publications by Tibor Nagy.

Newcastle AuthorsTitleYearFull text
Dr Kaveh Emami
Dr Topakas Topakas
Tibor Nagy
Joanna Henshaw
Dr Kelly Jackson
et al.
Regulation of the xylan-degrading apparatus of Cellvibrio japonicus by a novel two-component system2009
Tibor Nagy
Emeritus Professor Harry Gilbert
Characterization of a Double Dockerin from the Cellulosome of the Anaerobic Fungus Piromyces equi2007
Tibor Nagy
Dr Mark Proctor
Emeritus Professor Harry Gilbert
Evidence for a dual binding mode of dockerin modules to cohesins2007
Tibor Nagy
Integrative plasmid vector for constructing single-copy reporter systems to study gene regulation in Rhizobium meliloti and related species2004
Gavin Pell
Dr Edward Taylor
Tibor Nagy
Emeritus Professor Harry Gilbert
The Mechanisms by Which Family 10 Glycoside Hydrolases Bind Decorated Substrates2004
Tibor Nagy
Emeritus Professor Harry Gilbert
Cellulosome assembly revealed by the crystal structure of the cohesin-dockerin complex2003
Tibor Nagy
Professor Jeremy Lakey
Dr David Bolam
Emeritus Professor Harry Gilbert
The α-Glucuronidase, GlcA67A, of Cellvibrio japonicus utilizes the carboxylate and methyl groups of aldobiouronic acid as important substrate recognition determinants2003
Dr Kaveh Emami
Tibor Nagy
Emeritus Professor Harry Gilbert
Evidence for temporal regulation of the two Pseudomonas cellulosa xylanases belonging to glycoside hydrolase family 112002
Tibor Nagy
Dr Kaveh Emami
Emeritus Professor Harry Gilbert
The membrane-bound α-glucuronidase from Pseudomonas cellulosa hydrolyzes 4-O-methyl-D-glucuronoxylooligosaccharides but not 4-O-methyl-D-glucuronoxylan2002
Tibor Nagy
Emeritus Professor Harry Gilbert
The structural basis for catalysis and specificity of the Pseudomonas cellulosa alpha-glucuronidase, GlcA67A2002
Tibor Nagy
Emeritus Professor Harry Gilbert
Characterization of a cellulosome dockerin domain from the anaerobic fungus Piromyces equi2001
Emeritus Professor Harry Gilbert
Dr Vincent McKie
Tibor Nagy
Helen Fernandes
A novel Cellvibrio mixtus family 10 xylanase that is both intracellular and expressed under non-inducing conditions2000
Lorand Szabo
Tibor Nagy
Emeritus Professor Harry Gilbert
Solution structure of the CBM10 cellulose binding module from Pseudomonas Xylanase A2000
Lorand Szabo
Tibor Nagy
Emeritus Professor Harry Gilbert
Trp22, Trp24, and Tyr8 play a pivotal role in the binding of the family 10 cellulose-binding module from Pseudomonas xylanase A to insoluble ligands2000