• 1
    Kulkarni N, Shendye A & Rao M (1999) Molecular and biotechnological aspects of xylanases. FEMS Microbiol Rev 23, 411456.
  • 2
    Fincher GB & Stone BA (1986) Cell walls and their components in cereal grain technology. In Advances in Cereal Science and Technology, pp. 207295. American Association of Cereal Chemists: St.-Paul, Minnesota, USA.
  • 3
    Coutinho PM & Henrissat B (1999) Carbohydrate-active enzymes: an integrated database approach. In Recent Advances in Carbohydrate Bioengineering (GilbertHJ, DaviesG, HenrissatB & SvenssonB, eds), pp. 312. The Royal Society of Chemistry, Cambridge, UK.
  • 4
    Törrönen A, Harkki A & Rouvinen J (1994) Three-dimensional structure of endo-1,4-β-xylanase II from Trichoderma reesei: two conformational states in the active site. EMBO J 13, 24932501.
  • 5
    Simpson DJ, Fincher GB, Huang AHC & Cameron-Mills V (2002) Structure and function of cereal and related higher plant (1[RIGHTWARDS ARROW]4)-β-xylan endohydrolases. J Cereal Sci 37, 111127.
  • 6
    Derewenda U, Swenson L, Green R, Wei Y, Morosoli R, Shareck F, Kluepfel D & Derewenda ZS (1994) Crystal structure, at 2.6 Å resolution, of the Streptomyces lividans xylanase A, a member of the F family of β-1,4-d-glycanases. J Biol Chem 269, 2081120814.
  • 7
    Sinnot ML (1990) Catalytic mechanisms of enzymic glycosyl transfer. Chem Rev 90, 11711202.
  • 8
    Krengel U & Dijkstra BW (1996) Three-dimensional structure of endo-1,4-β-xylanase I from Aspergillus niger: molecular basis for its low pH optimum. J Mol Biol 263, 7078.
  • 9
    Christophersen C, Andersen E, Jacobsen TS & Wagner P (1997) Xylanases in wheat separation. Starch/Stärke 1, 512.
  • 10
    Courtin CM & Delcour JA (2002) Arabinoxylans and endoxylanases in wheat flour bread-making. J Cereal Sci 35, 225243.
  • 11
    Bedford MR & Schulze H (1998) Exogenous enzymes for pigs and poultry. Nutr Res Rev 11, 91114.
  • 12
    Gebruers K, Brijs K, Courtin CM, Fierens K, Goesaert H, Rabijns A, Raedschelders G, Robben J, Sansen S, Sørensen JF et al. (2004) Properties of TAXI-type endoxylanase inhibitors. Biochim Biophys Acta 1696, 213221.
  • 13
    Goesaert H, Elliott G, Kroon PA, Gebruers K, Courtin CM, Robben J, Delcour JA & Juge N (2004) Occurrence of proteinaceous endoxylanase inhibitors in cereals. Biochim Biophys Acta 1696, 193202.
  • 14
    Juge N, Payan F & Williamson G (2004) XIP-I, a xylanase inhibitor protein from wheat: a novel protein function. Biochim Biophys Acta 1696, 203211.
  • 15
    Gebruers K, Debyser W, Goesaert H, Proost P, Van Damme J & Delcour JA (2001) Triticum aestivum L. endoxylanase inhibitor (TAXI) consists of two inhibitors, TAXI I and TAXI II, with different specificities. Biochem J 353, 239244.
  • 16
    Sansen S, De Ranter CJ, Gebruers K, Brijs K, Courtin CM, Delcour JA & Rabijns A (2004) Structural basis for inhibition of Aspergillus niger xylanase by Triticum aestivum xylanase inhibitor-I. J Biol Chem 279, 3602236028.
  • 17
    McLauchlan WR, Garcia-Conesa MT, Williamson G, Roza M, Ravestein P & Maat J (1999) A novel class of protein from wheat which inhibits xylanases. Biochem J 338, 441446.
  • 18
    Payan F, Flatman R, Porciero S, Williamson G, Juge N & Roussel A (2003) Structural analysis of xylanase inhibitor protein I (XIP-I), a proteinaceous xylanase inhibitor from wheat (Triticum aestivum, var. Soisson). Biochem J 372, 399405.
  • 19
    Fierens K, Brijs K, Courtin CM, Gebruers K, Goesaert H, Raedschelders G, Robben J, Van Campenhout S, Volckaert G & Delcour JA (2003) Molecular identification of wheat endoxylanase inhibitor TAXI-I, member of a new class of plant proteins. FEBS Lett 540, 259263.
  • 20
    Elliott GO, Hughes RK, Juge N, Kroon PA & Williamson G (2002) Functional identification of the cDNA coding for a wheat endo-1,4-β-d-xylanase inhibitor. FEBS Lett 519, 6670.
  • 21
    Flatman R, McLauchlan WR, Juge N, Furniss C, Berrin J-G, Hughes RK, Manzanares P, Ladbury JE, O'Brien R & Williamson G (2002) Interactions defining the specificity between fungal xylanases and the xylanase-inhibiting protein XIP-I from wheat. Biochem J 365, 773781.
  • 22
    Furniss CSM, Belshaw NJ, Alcocer MJC, Williamson G, Elliott GO, Gebruers K, Haigh NP, Fish NM & Kroon PA (2002) A family 11 xylanase from Penicillium funiculosum is strongly inhibited by three wheat xylanase inhibitors. Biochim Biophys Acta 1598, 2429.
  • 23
    Brutus A, Villard C, Durand A, Tahir T, Furniss C, Puigserver A, Juge N & Giardina T (2004) The inhibition specificity of recombinant Penicillium funiculosum xylanase B towards wheat proteinaceous inhibitors. Biochim Biophys Acta 1701, 121128.
  • 24
    Tahir TA, Durand A, Gebruers K, Roussel A, Williamson G & Juge N (2004) Functional importance of Asp37 from a family 11 xylanase in the binding to two proteinaceous xylanase inhibitors from wheat. FEMS Microbiol Lett 239, 915.
  • 25
    Raedschelders G, Fierens K, Sansen S, Rombouts S, Gebruers K, Robben J, Rabijns A, Courtin CM, Delcour JA, Van Campenhout S et al. (2005) Molecular identification of wheat endoxylanase inhibitor TAXI-II and the determinants of its inhibition specificity. Biochem Biophys Res Commun 335, 512522.
  • 26
    Fierens K, Geudens N, Brijs K, Courtin CM, Gebruers K, Robben J, Van Campenhout S, Volckaert G & Delcour JA (2004) High-level expression, purification and characterization of recombinant wheat xylanase inhibitor TAXI-I secreted by the yeast Pichia pastoris. Protein Express Purif 37, 3946.
  • 27
    Fujimura HA & Sakuma Y (1993) Simplified isolation of chromosomal and plasmid DNA from yeasts. Biotechniques 14, 538540.
  • 28
    Gill SC & von Hippel PH (1989) Calculation of protein extinction coefficients from amino acid sequence data. Anal Biochem 182, 319326.
  • 29
    Hendriks D, Scharpe S, Van Sande M & Lommaert MP (1989) Characterisation of a carboxypeptidase in human serum distinct from carboxypeptidase N. Clin Chem Lab Med 27, 277285.