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Kinetic and structural optimization to catalysis at low temperatures in a psychrophilic cellulase from the Antarctic bacterium Pseudoalteromonas haloplanktis
Garsoux, G.; Lamotte, J.; Gerday, C.; Feller, G. (2004). Kinetic and structural optimization to catalysis at low temperatures in a psychrophilic cellulase from the Antarctic bacterium Pseudoalteromonas haloplanktis. Biochem. J. 384(2): 247-253. https://dx.doi.org/10.1042/BJ20040325
In: Biochemical journal. Biochemical Society: London. ISSN 0264-6021; e-ISSN 1470-8728, meer
Peer reviewed article  

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Trefwoorden
    Pseudoalteromonas haloplanktis (ZoBell & Upham, 1944) Gauthier, Gauthier & Christen, 1995 [WoRMS]
    Marien/Kust
Author keywords
    carbohydrate-binding module; cellulase; extremophile; glycosidehydrolase; Pseudoalteromonas haloplanktis; psychrophile

Auteurs  Top 
  • Garsoux, G.
  • Lamotte, J.
  • Gerday, C., meer
  • Feller, G., meer

Abstract
    The cold-adapted cellulase CelG has been purified from the culture supernatant of the Antarctic bacterium Pseudoalteromonas haloplanktis and the gene coding for this enzyme has been cloned, sequenced and expressed in Escherichia coli. This cellulase is composed of three structurally and functionally distinct regions: an N-terminal catalytic domain belonging to glycosidase family 5 and a C-terminal cellulose-binding domain belonging to carbohydrate-binding module family 5. The linker of 107 residues connecting both domains is one of the longest found in cellulases, and optimizes substrate accessibility to the catalytic domain by drastically increasing the surface of cellulose available to a bound enzyme molecule. The psychrophilic enzyme is closely related to the cellulase Cel5 from Erwinia chrysanthemi. Both kcat and kcat/Km values at 4 °C for the psychrophilic cellulase are similar to the values for Cel5 at 30–35 °C, suggesting temperature adaptation of the kinetic parameters. The thermodynamic parameters of activation of CelG suggest a heat-labile, relatively disordered active site with low substrate affinity, in agreement with the experimental data. The structure of CelG has been constructed by homology modelling with a molecule of cellotetraose docked into the active site. No structural alteration related to cold-activity can be found in the catalytic cleft, whereas several structural factors in the overall structure can explain the weak thermal stability, suggesting that the loss of stability provides the required active-site mobility at low temperatures.

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