Interactions defining the specificity between fungal xylanases and the xylanase-inhibiting protein XIP-I from wheat

Ruth Flatman; Russell W.  McLauchlan; Nathalie Juge; Caroline Furniss; Jean-Guy Berrin; Richard K.  Hughes; Paloma Manzanares; John E. Ladbury; Ronan  O'Brien; Gary Williamson

doi:10.1042/bj20020168

Interactions defining the specificity between fungal xylanases and the xylanase-inhibiting protein XIP-I from wheat

Ruth Flatman, Russell W. McLauchlan, Nathalie Juge, Caroline Furniss, Jean-Guy Berrin, Richard K. Hughes, Paloma Manzanares, John E. Ladbury, Ronan O'Brien, Gary Williamson

Research output: Contribution to journal › Article › peer-review

113 Citations (Scopus)

Abstract

We previously reported on the xylanase-inhibiting protein I (XIP-I) from wheat [McLauchlan, Garcia-Conesa, Williamson, Roza, Ravestein and Maat (1999), Biochem. J. 338, 441-446]. In the present study, we show that XIP-I inhibits family-10 and - 11 fungal xylanases. The K-i values for fungal xylanases ranged from 3.4 to 610 nM, but bacterial family-10 and -11 xylanases were not inhibited. Unlike many glycosidase inhibitors, XIP-I was not a slow-binding inhibitor of the Aspergillus niger xylanase. Isothermal titration calorimetry of the XIP-I-A. niger xylanase complex showed the formation of a stoichiometric (1: 1) complex with a heat capacity change of -1.38 kJ.mol(- 1).K-1, leading to a predicted buried surface area of approx. 2200 +/- 500 Angstrom at the complex interface. For this complex with A. niger xylanase (K-i = 320 nM at pH 5.5), titration curves indicated that an observable interaction occurred at pH 4-7, and this was consistent with the pH profile of inhibition of activity. In contrast, the stronger complex between A. nidulans xylanase and XIP-I (K-i = 9 nM) led to an observable interaction across the entire pH range tested (3-9). Using surface plasmon resonance, we show that the differences in the binding affinity of XIP-I for A. niger and A. nidulans xylanase are due to a 200-fold lower dissociation rate k(off) for the latter, with only a small difference in association rate k(on)

Original language	English
Pages (from-to)	773-781
Number of pages	9
Journal	Biochemical Journal
Volume	365
Issue number	3
DOIs	https://doi.org/10.1042/bj20020168
Publication status	Published - 01 Aug 2002
Externally published	Yes

Bibliographical note

Journal AUG 1 3 582RR BIOCHEM J

Keywords

ALPHA-AMYLASE INHIBITOR Aspergillus Aspergillus niger BARLEY KERNELS BINDING BIOSPECIFIC INTERACTION ANALYSIS COMPLEXES ENZYME-INHIBITORS GLYCOSYL HYDROLASES Heat HOST-PATHOGEN INTERACTIONS INHIBITION PECTIC ENZYMES plant inhibitor POLYGALACTURONASES PROTEIN protein-protein interaction SPECIFICITY SURFACE-PLASMON RESONANCE Wheat xylanase

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@article{6aa6577a52a3446cb7c2b1fd856914d8,

title = "Interactions defining the specificity between fungal xylanases and the xylanase-inhibiting protein XIP-I from wheat",

abstract = "We previously reported on the xylanase-inhibiting protein I (XIP-I) from wheat [McLauchlan, Garcia-Conesa, Williamson, Roza, Ravestein and Maat (1999), Biochem. J. 338, 441-446]. In the present study, we show that XIP-I inhibits family-10 and - 11 fungal xylanases. The K-i values for fungal xylanases ranged from 3.4 to 610 nM, but bacterial family-10 and -11 xylanases were not inhibited. Unlike many glycosidase inhibitors, XIP-I was not a slow-binding inhibitor of the Aspergillus niger xylanase. Isothermal titration calorimetry of the XIP-I-A. niger xylanase complex showed the formation of a stoichiometric (1: 1) complex with a heat capacity change of -1.38 kJ.mol(- 1).K-1, leading to a predicted buried surface area of approx. 2200 +/- 500 Angstrom at the complex interface. For this complex with A. niger xylanase (K-i = 320 nM at pH 5.5), titration curves indicated that an observable interaction occurred at pH 4-7, and this was consistent with the pH profile of inhibition of activity. In contrast, the stronger complex between A. nidulans xylanase and XIP-I (K-i = 9 nM) led to an observable interaction across the entire pH range tested (3-9). Using surface plasmon resonance, we show that the differences in the binding affinity of XIP-I for A. niger and A. nidulans xylanase are due to a 200-fold lower dissociation rate k(off) for the latter, with only a small difference in association rate k(on)",

keywords = "ALPHA-AMYLASE INHIBITOR Aspergillus Aspergillus niger BARLEY KERNELS BINDING BIOSPECIFIC INTERACTION ANALYSIS COMPLEXES ENZYME-INHIBITORS GLYCOSYL HYDROLASES Heat HOST-PATHOGEN INTERACTIONS INHIBITION PECTIC ENZYMES plant inhibitor POLYGALACTURONASES PROTEIN protein-protein interaction SPECIFICITY SURFACE-PLASMON RESONANCE Wheat xylanase",

author = "Ruth Flatman and McLauchlan, \{Russell W.\} and Nathalie Juge and Caroline Furniss and Jean-Guy Berrin and Hughes, \{Richard K.\} and Paloma Manzanares and Ladbury, \{John E.\} and Ronan O'Brien and Gary Williamson",

note = "Journal AUG 1 3 582RR BIOCHEM J",

year = "2002",

month = aug,

day = "1",

doi = "10.1042/bj20020168",

language = "English",

volume = "365",

pages = "773--781",

journal = "Biochemical Journal",

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TY - JOUR

T1 - Interactions defining the specificity between fungal xylanases and the xylanase-inhibiting protein XIP-I from wheat

AU - Flatman, Ruth

AU - McLauchlan, Russell W.

AU - Juge, Nathalie

AU - Furniss, Caroline

AU - Berrin, Jean-Guy

AU - Hughes, Richard K.

AU - Manzanares, Paloma

AU - Ladbury, John E.

AU - O'Brien, Ronan

AU - Williamson, Gary

N1 - Journal AUG 1 3 582RR BIOCHEM J

PY - 2002/8/1

Y1 - 2002/8/1

N2 - We previously reported on the xylanase-inhibiting protein I (XIP-I) from wheat [McLauchlan, Garcia-Conesa, Williamson, Roza, Ravestein and Maat (1999), Biochem. J. 338, 441-446]. In the present study, we show that XIP-I inhibits family-10 and - 11 fungal xylanases. The K-i values for fungal xylanases ranged from 3.4 to 610 nM, but bacterial family-10 and -11 xylanases were not inhibited. Unlike many glycosidase inhibitors, XIP-I was not a slow-binding inhibitor of the Aspergillus niger xylanase. Isothermal titration calorimetry of the XIP-I-A. niger xylanase complex showed the formation of a stoichiometric (1: 1) complex with a heat capacity change of -1.38 kJ.mol(- 1).K-1, leading to a predicted buried surface area of approx. 2200 +/- 500 Angstrom at the complex interface. For this complex with A. niger xylanase (K-i = 320 nM at pH 5.5), titration curves indicated that an observable interaction occurred at pH 4-7, and this was consistent with the pH profile of inhibition of activity. In contrast, the stronger complex between A. nidulans xylanase and XIP-I (K-i = 9 nM) led to an observable interaction across the entire pH range tested (3-9). Using surface plasmon resonance, we show that the differences in the binding affinity of XIP-I for A. niger and A. nidulans xylanase are due to a 200-fold lower dissociation rate k(off) for the latter, with only a small difference in association rate k(on)

AB - We previously reported on the xylanase-inhibiting protein I (XIP-I) from wheat [McLauchlan, Garcia-Conesa, Williamson, Roza, Ravestein and Maat (1999), Biochem. J. 338, 441-446]. In the present study, we show that XIP-I inhibits family-10 and - 11 fungal xylanases. The K-i values for fungal xylanases ranged from 3.4 to 610 nM, but bacterial family-10 and -11 xylanases were not inhibited. Unlike many glycosidase inhibitors, XIP-I was not a slow-binding inhibitor of the Aspergillus niger xylanase. Isothermal titration calorimetry of the XIP-I-A. niger xylanase complex showed the formation of a stoichiometric (1: 1) complex with a heat capacity change of -1.38 kJ.mol(- 1).K-1, leading to a predicted buried surface area of approx. 2200 +/- 500 Angstrom at the complex interface. For this complex with A. niger xylanase (K-i = 320 nM at pH 5.5), titration curves indicated that an observable interaction occurred at pH 4-7, and this was consistent with the pH profile of inhibition of activity. In contrast, the stronger complex between A. nidulans xylanase and XIP-I (K-i = 9 nM) led to an observable interaction across the entire pH range tested (3-9). Using surface plasmon resonance, we show that the differences in the binding affinity of XIP-I for A. niger and A. nidulans xylanase are due to a 200-fold lower dissociation rate k(off) for the latter, with only a small difference in association rate k(on)

KW - ALPHA-AMYLASE INHIBITOR Aspergillus Aspergillus niger BARLEY KERNELS BINDING BIOSPECIFIC INTERACTION ANALYSIS COMPLEXES ENZYME-INHIBITORS GLYCOSYL HYDROLASES Heat HOST-PATHOGEN INTERACTIONS INHIBITION PECTIC ENZYMES plant inhibitor POLYGALACTURONASES PROT

U2 - 10.1042/bj20020168

DO - 10.1042/bj20020168

M3 - Article

SN - 0264-6021

VL - 365

SP - 773

EP - 781

JO - Biochemical Journal

JF - Biochemical Journal

IS - 3

ER -

Interactions defining the specificity between fungal xylanases and the xylanase-inhibiting protein XIP-I from wheat

Abstract

Bibliographical note

Keywords

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