guest ::
| Home > Publications database > High-resolution native and complex structures of thermostable $\beta$-mannanase from Thermomonospora fusca – substrate specificity in glycosyl hydrolase family 5 |
| Home > Publications database > High-resolution native and complex structures of thermostable $\beta$-mannanase from Thermomonospora fusca – substrate specificity in glycosyl hydrolase family 5 |
| Journal Article | PUBDB-2017-09647 |
; ; ; ; ; ; ;
1998
Elsevier Science
London [u.a.]
This record in other databases: 
Please use a persistent id in citations: doi:10.1016/S0969-2126(98)00142-7
Abstract: Background: β-Mannanases hydrolyse the O-glycosidic bonds in mannan, a hemicellulose constituent of plants. These enzymes have potential use in pulp and paper production and are of significant biotechnological interest. Thermostable β-mannanases would be particularly useful due to their high temperature optimum and broad pH tolerance. The thermophilic actinomycete Thermomonospora fusca secretes at least one β-mannanase (molecular mass 38 kDa) with a temperature optimum of 80°C. No three-dimensional structure of a mannan-degrading enzyme has been reported until now.Results: The crystal structure of the thermostable β-mannanase from T. fusca has been determined by the multiple isomorphous replacement method and refined to 1.5 å resolution. In addition to the native enzyme, the structures of the mannotriose- and mannohexaose-bound forms of the enzyme have been determined to resolutions of 1.9 å and 1.6 å, respectively.Conclusions: Analysis of the −1 subsite of T. fusca mannanase reveals neither a favourable interaction towards the axial HO–C(2) nor a discrimination against the equatorial hydroxyl group of gluco-configurated substrates. We propose that selectivity arises from two possible mechanisms: a hydrophobic interaction of the substrate with Val263, conserved in family 5 bacterial mannanases, which discriminates between the different conformations of the hydroxymethyl group in native mannan and cellulose; and/or a specific interaction between Asp259 and the axial hydroxyl group at the C(2) of the substrate in the −2 subsite. Compared with the catalytic clefts of family 5 cellulases, the groove of T. fusca mannanase has a strongly reduced number of aromatic residues providing platforms for stacking with the substrate. This deletion of every second platform is in good agreement with the orientation of the axial hydroxyl groups in mannan.
; BIOSIS Previews ; Current Contents - Life Sciences ; Ebsco Academic Search ; NCBI Molecular Biology Database ; Nationallizenz
; SCOPUS ; Science Citation Index ; Science Citation Index Expanded ; Thomson Reuters Master Journal List ; Web of Science Core Collection
|
The record appears in these collections: |
PDF
PDF (PDFA)