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Probing the active site of cellodextrin phosphorylase from clostridium stercorarium: kinetic characterization, ligand docking, and site-directed mutagenesis

Hai Giang Tran (UGent) , Tom Desmet (UGent) , Manu De Groeve (UGent) and Wim Soetaert (UGent)
(2011) BIOTECHNOLOGY PROGRESS. 27(2). p.326-332
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Biotechnology for a sustainable economy (Bio-Economy)
Keywords
CELLOBIOSE PHOSPHORYLASE, CHITOBIOSE PHOSPHORYLASE, CELLULOLYTIC THERMOPHILE, GLYCOSYL TRANSFERASES, VIBRIO-PROTEOLYTICUS, REACTION-MECHANISM, CELLVIBRIO-GILVUS, TRANSITION-STATE, THERMOCELLUM, PURIFICATION, cellodextrin phosphorylase, substrate specificity, ligand docking, homology modeling

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Citation

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Chicago
Tran, Hai Giang, Tom Desmet, Manu De Groeve, and Wim Soetaert. 2011. “Probing the Active Site of Cellodextrin Phosphorylase from Clostridium Stercorarium: Kinetic Characterization, Ligand Docking, and Site-directed Mutagenesis.” Biotechnology Progress 27 (2): 326–332.
APA
Tran, H. G., Desmet, T., De Groeve, M., & Soetaert, W. (2011). Probing the active site of cellodextrin phosphorylase from clostridium stercorarium: kinetic characterization, ligand docking, and site-directed mutagenesis. BIOTECHNOLOGY PROGRESS, 27(2), 326–332.
Vancouver
1.
Tran HG, Desmet T, De Groeve M, Soetaert W. Probing the active site of cellodextrin phosphorylase from clostridium stercorarium: kinetic characterization, ligand docking, and site-directed mutagenesis. BIOTECHNOLOGY PROGRESS. 2011;27(2):326–32.
MLA
Tran, Hai Giang, Tom Desmet, Manu De Groeve, et al. “Probing the Active Site of Cellodextrin Phosphorylase from Clostridium Stercorarium: Kinetic Characterization, Ligand Docking, and Site-directed Mutagenesis.” BIOTECHNOLOGY PROGRESS 27.2 (2011): 326–332. Print.
@article{1220560,
  author       = {Tran, Hai Giang and Desmet, Tom and De Groeve, Manu and Soetaert, Wim},
  issn         = {8756-7938},
  journal      = {BIOTECHNOLOGY PROGRESS},
  keywords     = {CELLOBIOSE PHOSPHORYLASE,CHITOBIOSE PHOSPHORYLASE,CELLULOLYTIC THERMOPHILE,GLYCOSYL TRANSFERASES,VIBRIO-PROTEOLYTICUS,REACTION-MECHANISM,CELLVIBRIO-GILVUS,TRANSITION-STATE,THERMOCELLUM,PURIFICATION,cellodextrin phosphorylase,substrate specificity,ligand docking,homology modeling},
  language     = {eng},
  number       = {2},
  pages        = {326--332},
  title        = {Probing the active site of cellodextrin phosphorylase from clostridium stercorarium: kinetic characterization, ligand docking, and site-directed mutagenesis},
  url          = {http://dx.doi.org/10.1002/btpr.555},
  volume       = {27},
  year         = {2011},
}

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