Use of glycoside hydrolase family 8 xylanases in baking

Collins, T.; Hoyoux, A.; Dutron, A.; Georis, J.; Genot, B.; Dauvrin, T.; Arnaut, F.; Gerday, Charles; Feller, Georges

doi:10.1016/j.jcs.2005.08.002

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Article (Scientific journals)

Use of glycoside hydrolase family 8 xylanases in baking

Collins, T.; Hoyoux, A.; Dutron, A. et al.

2006 • In Journal of Cereal Science, 43 (1), p. 79-84

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https://hdl.handle.net/2268/15391

DOI
10.1016/j.jcs.2005.08.002

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Keywords :

xylanase; baking; glycoside hydrolase family 8

Abstract :

[en] Xylanases have long been used in the baking industry for improving dough stability and flexibility and for increasing bread volume and crumb structure. Only xylanases from glycoside hydrolase families 10 and I I appear to have been tested in this application and only those from the latter family have as yet found application. Interestingly, enzymes with a putative xylanase activity are also found in glycoside hydrolase families 5, 7, 8 and 43, but apparently these have not, as yet, been tested in baking. Baking trials were used to determine the effectiveness of a psychrophilic and a mesophilic family 8 xylanolytic enzyme as well as a psychrophilic family 10 xylanase and a currently used family 11 commercial mesophilic xylanase. The potential of family 8 xylanases as technological aids in baking was clearly demonstrated as both the psychrophilic enzyme from Pseudoalteromonas haloplanktis TAH3a and the mesophilic enzyme from Bacillus halodurans C-125 had a positive effect on loaf volume. In contrast, the psychrophilic family 10 enzyme from Cryptococcus adeliae TAE85 was found to be ineffective. (c) 2005 Elsevier Ltd. All rights reserved.

Disciplines :

Biochemistry, biophysics & molecular biology

Author, co-author :

Collins, T.

Hoyoux, A.

Dutron, A.

Georis, J.

Genot, B.

Dauvrin, T.

Arnaut, F.

Gerday, Charles ; Université de Liège - ULiège > Services généraux (Faculté des sciences) > Relations académiques et scientifiques (Sciences)

Feller, Georges ; Université de Liège - ULiège > Département des sciences de la vie > Labo de biochimie

Language :

English

Title :

Use of glycoside hydrolase family 8 xylanases in baking

Publication date :

January 2006

Journal title :

Journal of Cereal Science

ISSN :

0733-5210

eISSN :

1095-9963

Publisher :

Academic Press Ltd Elsevier Science Ltd, London, United Kingdom

Volume :

Issue :

Pages :

79-84

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 26 January 2010

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Bibliography

E. Baillet, G. Downey, and M. Tuohy Improvement of texture and volume in white bread rolls by incorporation of microbial hemicellulase preparations C.M. Courtin W.S. Veraverbeke J.A. Delcour Recent Advances in Enzymes in Grain Processing 2003 Laboratory of Food Chemistry, Katholieke Universiteit Leuven Leuven 255 259
P. Biely, D. Kluepfel, R. Morosoli, and F. Shareck Mode of action of three endo-beta-1,4-xylanases of Streptomyces lividans Biochimica et Biophysica Acta 1162 1993 246 254
P. Biely, M. Vrsanska, M. Tenkanen, and D. Kluepfel Endo-beta-1,4- xylanase families: differences in catalytic properties Journal of Biotechnology 57 1997 151 166
Y. Brennan, W.N. Callen, L. Christoffersen, P. Dupree, F. Goubet, S. Healey, M. Hernandez, M. Keller, K. Li, N. Palackal, A. Sittenfeld, G. Tamayo, S. Wells, G.P. Hazlewood, E.J. Mathur, J.M. Short, D.E. Robertson, and B.A. Steer Unusual microbial xylanases from insect guts Applied and Environmental Microbiology 70 2004 3609 3617
T. Collins, M.A. Meuwis, I. Stals, M. Claeyssens, G. Feller, and C. Gerday A novel family 8 xylanase: functional and physico-chemical characterization The Journal of Biological Chemistry 277 2002 35133 35139
T. Collins, P. Claverie, S. D'Amico, D. Georlette, E. Gratia, A. Hoyoux, M.A. Meuwis, J. Poncin, G. Sonan, G. Feller, and C. Gerday Life in the cold: psychrophilic enzymes S.G. Pandalai Recent Research Developments in Proteins, Vol 1 2002 Transworld Research Network Trivandrum 13 26
T. Collins, M.A. Meuwis, C. Gerday, and G. Feller Activity, stability and flexibility in glycosidases adapted to extreme thermal environments Journal of Molecular Biology 328 2003 419 428
T. Collins, C. Gerday, and G. Feller Xylanases, xylanase families and extremophilic xylanases FEMS Microbiology Reviews 29 2005 3 23
C.M. Courtin, and J.A. Delcour Arabinoxylans and endoxylanases in wheat flour bread-making Journal of Cereal Science 35 2002 225 243
C.M. Courtin, A. Roelants, and J.A. Delcour Fractionation-reconstitution experiments provide insight into the role of endoxylanases in bread-making Journal of Agricultural and Food Chemistry 47 1999 1870 1877
G.B. Fincher, and B.A. Stone Cell walls and their components in cereal grain technology Y. Pomeranz Advances in Cereal Science and Technology vol. 8 1986 American Association of Cereal Chemists St Paul, MN, USA 207 295
S. Fushinobu, M. Hidaka, Y. Honda, T. Wakagi, H. Shoun, and M. Kitaoka Structural basis for the specificity of the reducing end xylose-releasing exo-oligoxylanase from Bacillus halodurans C-125 The Journal of Biological Chemistry 280 2005 17180 17186
K. Gebruers, K. Brijs, C.M. Courtin, K. Fierens, H. Goesaert, A. Rabijns, G. Raedschelders, J. Robben, S. Sansen, J.F. Sorensen, S. Van Campenhout, and J.A. Delcour Properties of TAXI-type endoxylanase inhibitors Biochimica et Biophysica Acta 1696 2004 213 221
K. Gebruers, C.M. Courtin, K. Moers, I. Noots, I. Trogh, and J.A. Delcour The bread-making functionalities of two Aspergillus niger endoxylanases are strongly dictated by their inhibitor sensitivities Enzyme and Microbial Technology 36 2005 417 425
H. Gruppen, R.J. Hamer, and A.G.J. Voragen Water-unextractable cell wall material from wheat flour. 2. Fractionation of alkali-extracted polymers and comparison with water-extractable arabinoxylans Journal of Cereal Science 16 1992 53 67
R.C.E. Guy, and S.S. Sarabjit Comparison of effects of xylanases with fungal amylases in five flour types C.M. Courtin Recent Advances in Enzymes in Grain Processing 2003 Laboratory of Food Chemistry, Katholieke Universiteit Leuven Leuven 235 239
Y. Honda, and M. Kitaoka A family 8 glycoside hydrolase from Bacillus halodurans C-125 (BH2105) is a reducing end xylose-releasing exo-oligoxylanase The Journal of Biological Chemistry 279 2004 55097 55103
J.A. Ingelbrecht, T. Verwimp, and J.A. Delcour Endoxylanases in durum wheat semolina processing: solubilization of arabinoxylans, action of endogenous inhibitors, and effects on rheological properties Journal of Agricultural and Food Chemistry 48 2000 2017 2022
N. Juge, F. Payan, and G. Williamson XIP-I, a xylanase inhibitor protein from wheat: a novel protein function Biochimica et Biophysica Acta 1696 2004 203 211
J. Maat, M. Roza, J. Verbakel, H. Stam, M.J.S. da Silra, M.R. Egmond, M.L.D. Hagemans, R.F.M. van Garcom, J.G.M. Hessing, C. van Derhondel, and C. van Rotterdam Xylanases and their application in baking J. Visser G. Beldman M.A.K. van Someren A.G.J. Voragen Xylan and Xylanases 1992 Elsevier Amsterdam 349 360
F. Meuser, and P. Suckow Non-starch polysaccharides J.M.V. Blanshard P.J. Frazier T. Galliard Chemistry and Physics of Baking 1986 The Royal Society of Chemistry London 43 61
N. Nelson A photometric adaptation of the Somogyi method for the determination of glucose The Journal of Biological Chemistry 153 1944 375 380
F. Payan, P. Leone, S. Porciero, C. Furniss, T. Tahir, G. Williamson, A. Durand, P. Manzanares, H.J. Gilbert, N. Juge, and A. Roussel The dual nature of the wheat xylanase protein inhibitor XIP-I: structural basis for the inhibition of family 10 and family 11 xylanases The Journal of Biological Chemistry 279 2004 36029 36037
I. Petrescu, J. Lamotte-Brasseur, J.P. Chessa, P. Ntarima, M. Claeyssens, B. Devreese, G. Marino, and C. Gerday Xylanase from the psychrophilic yeast Cryptococcus adeliae Extremophiles 4 2000 137 144
J. Qi Si, and C. Drost-Lustenberger Enzymes for bread, pasta and noodle products R.J. Whitehurst B.A. Law Enzymes in Food Technology 2002 Sheffield Academic Press Ltd. Sheffield 19 56
X. Rouau, M.L. El-Hayek, and D. Moreau Effect of an enzyme preparation containing pentosanases on the breadmaking quality of flours in relation to changes in pentosan properties Journal of Cereal Science 19 1994 259 272
Rubio, M.J. 2003. Corn tortillas with improved texture retention using an enzyme blend in nixtamalized corn flour, in USPTO 20030059496. USA.
J.F. Sorensen Novel tailor-made xylanases: their characterisation, performance in cereal processing and use as a tool to understand xylanase functionality in baking C.M. Courtin W.S. Veraverbeke J.A. Delcour Recent Advances in Enzymes in Grain Processing 2003 Laboratory of Food Chemistry, Katholieke Universiteit Leuven Leuven 241 245
J.F. Sorensen, K.M. Kragh, O. Sibbesen, J. Delcour, H. Goesaert, B. Svensson, T.A. Tahir, J. Brufau, A.M. Perez-Vendrell, D. Bellincampi, R. D'Ovidio, L. Camardella, A. Giovane, E. Bonnin, and N. Juge Potential role of glycosidase inhibitors in industrial biotechnological applications Biochimica et Biophysica Acta 1696 2004 275 287
H. Takami, K. Nakasone, Y. Takaki, G. Maeno, R. Sasaki, N. Masui, F. Fuji, C. Hirama, Y. Nakamura, N. Ogasawara, S. Kuhara, and K. Horikoshi Complete genome sequence of the alkaliphilic bacterium Bacillus halodurans and genomic sequence comparison with Bacillus subtilis Nucleic Acids Research 28 2000 4317 4331
A. Teleman, M. Tenkanen, A. Jacobs, and O. Dahlman Characterization of O-acetyl-(4-O-methylglucurono) xylan isolated from birch and beech Carbohydrate Research 337 2002 373 377
I. Trogh, J.F. Sorensen, C.M. Courtin, and J.A. Delcour Impact of inhibition sensitivity on endoxylanase functionality in wheat flour breadmaking Journal of Agricultural and Food Chemistry 52 2004 4296 4302
F. Van Petegem, T. Collins, M.A. Meuwis, C. Gerday, G. Feller, and J. Van Beeumen Crystallization and preliminary X-ray analysis of a xylanase from the psychrophile Pseudoalteromonas haloplanktis Acta Crystallographica. Section D, Biological Crystallography 58 2002 1494 1496
F. Van Petegem, T. Collins, M.A. Meuwis, C. Gerday, G. Feller, and J. Van Beeumen The structure of a cold-adapted family 8 xylanase at 1.3 A resolution. Structural adaptations to cold and investgation of the active site The Journal of Biological Chemistry 278 2003 7531 7539
M. Vardakou, P. Katapodis, M. Samiotaki, D. Kekos, G. Panayotou, and P. Christakopoulos Mode of action of family 10 and 11 endoxylanases on water-unextractable arabinoxylan International Journal of Biological Macromolecules 33 2003 129 134
M. Vardakou, P. Katapodis, D. Kekos, B. Macris, and P. Christakopoulos Mode of action of two thermophilic endoxylanases on water-unextractable arabinoxylan C.M. Courtin W.S. Veraverbeke J.A. Delcour Recent Advances in Enzymes in Grain Processing 2003 Laboratory of Food Chemistry, Katholieke Universiteit Leuven Leuven 65 70
M. Wang, R.J. Hamer, T. van Vliet, H. Gruppen, H. Marseille, and P.L. Weegels Effect of water unextractable solids on gluten formation and properties: Mechanistic considerations Journal of Cereal Science 37 2003 55 64