1gu3 Citations

Differential oligosaccharide recognition by evolutionarily-related beta-1,4 and beta-1,3 glucan-binding modules.

Boraston AB, Nurizzo D, Notenboom V, Ducros V, Rose DR, Kilburn DG, Davies GJ
J Mol Biol 319 1143-56 (2002)
Cited: 95 times
EuropePMC logo PMID: 12079353

Abstract

Enzymes active on complex carbohydrate polymers frequently have modular structures in which a catalytic domain is appended to one or more carbohydrate-binding modules (CBMs). Although CBMs have been classified into a number of families based upon sequence, many closely related CBMs are specific for different polysaccharides. In order to provide a structural rationale for the recognition of different polysaccharides by CBMs displaying a conserved fold, we have studied the thermodynamics of binding and three-dimensional structures of the related family 4 CBMs from Cellulomonas fimi Cel9B and Thermotoga maritima Lam16A in complex with their ligands, beta-1,4 and beta-1,3 linked gluco-oligosaccharides, respectively. These two CBMs use a structurally conserved constellation of aromatic and polar amino acid side-chains that interact with sugars in two of the five binding subsites. Differences in the length and conformation of loops in non-conserved regions create binding-site topographies that complement the known solution conformations of their respective ligands. Thermodynamics interpreted in the light of structural information highlights the differential role of water in the interaction of these CBMs with their respective oligosaccharide ligands.

Reviews - 1gu3 mentioned but not cited (4)

  1. Carbohydrate-binding modules: fine-tuning polysaccharide recognition. Boraston AB, Bolam DN, Gilbert HJ, Davies GJ. Biochem J 382 769-781 (2004)
  2. CH/π Interactions in Carbohydrate Recognition. Spiwok V. Molecules 22 E1038 (2017)
  3. Conserved and Diverse Traits of Adhesion Devices from Siphoviridae Recognizing Proteinaceous or Saccharidic Receptors. Goulet A, Spinelli S, Mahony J, Cambillau C. Viruses 12 E512 (2020)
  4. From Cancer Therapy to Winemaking: The Molecular Structure and Applications of β-Glucans and β-1, 3-Glucanases. Caseiro C, Dias JNR, de Andrade Fontes CMG, Bule P. Int J Mol Sci 23 3156 (2022)

Articles - 1gu3 mentioned but not cited (7)



Reviews citing this publication (15)

  1. Role of receptors in Bacillus thuringiensis crystal toxin activity. Pigott CR, Ellar DJ. Microbiol Mol Biol Rev 71 255-281 (2007)
  2. Microbial hemicellulases. Shallom D, Shoham Y. Curr Opin Microbiol 6 219-228 (2003)
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  4. Advances in understanding the molecular basis of plant cell wall polysaccharide recognition by carbohydrate-binding modules. Gilbert HJ, Knox JP, Boraston AB. Curr Opin Struct Biol 23 669-677 (2013)
  5. The biochemistry and structural biology of plant cell wall deconstruction. Gilbert HJ. Plant Physiol 153 444-455 (2010)
  6. Molecular Interactions of β-(1→3)-Glucans with Their Receptors. Legentil L, Paris F, Ballet C, Trouvelot S, Daire X, Vetvicka V, Ferrières V. Molecules 20 9745-9766 (2015)
  7. Carbohydrate Binding Modules: Diversity of Domain Architecture in Amylases and Cellulases From Filamentous Microorganisms. Sidar A, Albuquerque ED, Voshol GP, Ram AFJ, Vijgenboom E, Punt PJ. Front Bioeng Biotechnol 8 871 (2020)
  8. Using structure to inform carbohydrate binding module function. Abbott DW, van Bueren AL. Curr Opin Struct Biol 28 32-40 (2014)
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  10. Emerging Roles of β-Glucanases in Plant Development and Adaptative Responses. Perrot T, Pauly M, Ramírez V. Plants (Basel) 11 1119 (2022)
  11. CH-π Interactions in Glycan Recognition. Kiessling LL, Diehl RC. ACS Chem Biol 16 1884-1893 (2021)
  12. Interaction between chitosan and its related enzymes: A review. Shinya S, Fukamizo T. Int J Biol Macromol 104 1422-1435 (2017)
  13. Three-dimensional structural aspects of protein-polysaccharide interactions. Nagae M, Yamaguchi Y. Int J Mol Sci 15 3768-3783 (2014)
  14. Carbohydrate-Binding Modules of Potential Resources: Occurrence in Nature, Function, and Application in Fiber Recognition and Treatment. Liu Y, Wang P, Tian J, Seidi F, Guo J, Zhu W, Xiao H, Song J. Polymers (Basel) 14 1806 (2022)
  15. Gas and light: triggers of c-di-GMP-mediated regulation. Yu Z, Zhang W, Yang H, Chou SH, Galperin MY, He J. FEMS Microbiol Rev 47 fuad034 (2023)

Articles citing this publication (69)



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