Microbial sucrose isomerases: Producing organisms, genes and enzymes

Enzyme and Microbial Technology

Volumn 50, Issue 1, 2012, Pages 57-64

  Goulter, Ken C ^a   Hashimi, Saeed M ^a   Birch, Robert G ^a  

^a UNIVERSITY OF QUEENSLAND   (Australia)

Author keywords

Enzyme classification; Isomaltulose; Strain identification; Strain improvement; Trehalulose

Indexed keywords

ENZYME CLASSIFICATION; ISOMALTULOSE; STRAIN IDENTIFICATION; STRAIN IMPROVEMENT; TREHALULOSE;

BACTERIA; CLONING; ENZYMES; GENES; ISOMERS;

SUGAR (SUCROSE);

CARBOHYDRATE; ISOMERASE; MICROBIAL ENZYME; PALATINOSE; SUCROSE ISOMERASE; TREHALULOSE; UNCLASSIFIED DRUG;

ARTICLE; BACTERIAL GENE; ENZYME ACTIVITY; ENZYME KINETICS; ENZYME SPECIFICITY; ENZYME STRUCTURE; MICROBIAL DIVERSITY; MICROORGANISM; MOLECULAR CLONING; NONHUMAN; NUCLEOTIDE SEQUENCE; PROTAMINOBACTER RUBRUM; PROTEOBACTERIA; PSEUDOMONAS; PSEUDOMONAS MESOACIDOPHILA; RHIZOBIUM; SERRATIA PLYMUTHICA; TAXONOMY;

AMINO ACID SEQUENCE; BACTERIAL PROTEINS; BASE SEQUENCE; DNA, BACTERIAL; FOOD TECHNOLOGY; GENES, BACTERIAL; GLUCOSYLTRANSFERASES; MOLECULAR SEQUENCE DATA; MUTAGENESIS, INSERTIONAL; PHYLOGENY; RHIZOBIUM; SERRATIA;

BACTERIA (MICROORGANISMS); PROTAMINOBACTER RUBRUM; PSEUDOMONAS MESOACIDOPHILA; RHIZOBIUM; SERRATIA PLYMUTHICA;

EID: 82455208933     PISSN: 01410229     EISSN: 18790909     Source Type: Journal    
DOI: 10.1016/j.enzmictec.2011.09.011     Document Type: Article

References (62)

1. van der Poel P., Schiweck H., Schwartz T. Sugar technology: beet and cane sugar manufacture 1998, Verlag Dr. Albert Bartens KG, Berlin.
2. Frenzel S., Peters S., Rose T., Kunz M. Industrial sucrose. Sustainable solutions for modern economies 2009, 264-299. RSC Publishing, Cambridge. R. Hofer (Ed.).
3. Dias F.F., Panchal D.C. Maltulose formation during saccharification of starch. Starch 1987, 39:64-66.
4. Khan R. Sucrose: its potential as a raw material for food ingredients and for chemicals. Sucrose: properties and applications 1994, 264-278. Blackie, London. M. Mathlouthi, P. Reiser (Eds.).
5. Albenne C., Skov L.K., Mirza O., Gajhede M., Feller G., D'Amico S., et al. Molecular basis of the amylose-like polymer formation catalyzed by Neisseria polysaccharea amylosucrase. J Biol Chem 2004, 279:726-734.
6. Cheetham P.S.J., Imber C.E., Isherwood J. The formation of isomaltulose by immobilized Erwinia rhapontici. Nature 1982, 299:628-631.
7. Börnke F., Hajirezaei M., Sonnewald U. Cloning and characterization of the gene cluster for palatinose metabolism from the phytopathogenic bacterium Erwinia rhapontici. J Bacteriol 2001, 183:2425-2430.
8. Wu L., Birch R.G. Characterization of the highly efficient sucrose isomerase from Pantoea dispersa UQ68J and cloning of the sucrose isomerase gene. Appl Environ Microbiol 2005, 71:1581-1590.
9. Watzlawick H., Mattes R. Gene cloning, protein characterization, and alteration of product selectivity for the trehalulose hydrolase and trehalulose synthase from Pseudomonas mesoacidophila MX-45. Appl Environ Microbiol 2009, 75:7026-7036.
10. Takazoe I. Palatinose-an isomeric alternative to sucrose. Progress in sweeteners 1989, 143-167. Elsevier, Barking. T.H. Grenby (Ed.).
11. Ooshima T., Izumitani A., Minami T., Fujiwara T., Nakajima Y., Hamada S. Trehalulose does not induce dental caries in rats infected with mutans streptococci. Caries Res 1991, 25:277-282.
12. ®): a review of biological and toxicological studies. Food Chem Toxicol 2002, 40:1375-1381.
13. Lichtenthaler F.W., Peters S. Carbohydrates as green raw materials for the chemical industry. Comptes Rendus Chimie 2004, 7:65-90.
14. Queneau Y., Chambert S., Besset C., Cheaib R. Recent progress in the synthesis of carbohydrate-based amphiphilic materials: the examples of sucrose and isomaltulose. Carbohydr Res 2008, 343:1999-2009.
15. Okuno M., Mizu M., Nagai Y. Physiological functions of palatinose-functions obtained by slow digestion. Proc Res Soc Jpn Sugar Ref Technol 2009, 57:23-32.
16. Schiweck H., Munir M., Rapp K.M., Schneider B., Vogel M. New developments in the use of sucrose as an industrial bulk chemical. Carbohydrates as organic raw materials 1991, 57-94. Wiley-VCH, Weinheim. F.W. Lichtenthaler (Ed.).
17. Tewari Y.B., Goldberg R.N. Thermodynamics of hydrolysis of disaccharides-lactulose, α-d-melibiose, palatinose, d-trehalose, d-turanose and 3-o-β-d-galactopyranosyl-d-arabinose. Biophys Chem 1991, 40:59-67.
18. Veronese T., Perlot P. Mechanism of sucrose conversion by the sucrose isomerase of Serratia plymuthica ATCC 15928. Enzyme Microb Technol 1999, 24:263-269.
19. Zhang D.H., Li N., Lok S.M., Zhang L.H., Swaminathan K. Isomaltulose synthase (PalI) of Klebsiella sp. LX3-crystal structure and implication of mechanism. J Biol Chem 2003, 278:35428-35434.
20. Rhimi M., Haser R., Aghajari N. Bacterial sucrose isomerases: properties and structural studies. Biologia 2008, 63:1020-1027.
21. Nagai Y., Sugitani T., Tsuyuki K. Characterization of α-glucosyltransferase from Pseudomonas mesoacidophila MX-45. Biosci Biotechnol Biochem 1994, 58:1789-1793.
22. Weidenhagen R., Lorenz S., Palatinose [6-(α-glucopyranoside)-fructofuranose], ein neues bakterielles umwandlungsprodukt der saccharose. Z Zuckerind 1957, 7:533-534.
23. Windisch S. über einen farbstoffbildner von zuckerrüben, Protaminobacter rubrum (den Dooren de Jong). Z Zuckerind 1958, 8:446.
24. Mauch V.W., Schmidt-Berg-Lorenz S. über den bakteriell-enzymatischen umlagerungsmechanismus saccharose→isomaltulose (6-[α-d-glukosyl]-d-fruktose). Z Zuckerind 1964, 14:309-315.
25. Lund B.M., Wyatt G.M. Nature of reducing compounds formed from sucrose by Erwinia carotovora var atroseptica. J Gen Microbiol 1973, 78:331-336.
26. Shimizu I, Suzuki K, Nakajima Y. Palatinose production using immobilized α-glucosyltransferase. Jpn Patent Appl 55-113982; 1980.
27. Kutzbach C, Schmidi-Kastner G, Schutt H. Sucrose mutase, immobilised sucrose mutase and the use of this immobilised sucrose mutase for the preparation of isomaltulose. Canada Patent CA1179283; 1981.
28. Munir M. Process for preparing isomaltulose (6-O-alpha-d-glucopyranosyl-d-fructose) using immobilized microbial cells. European Patent EP49742; 1982.
29. Cheetham P.S.J. The extraction and mechanism of a novel isomaltulose-synthesizing enzyme from Erwinia rhapontici. Biochem J 1984, 220:213-220.
30. Fujii S., Yoshinaga K., Kishihara S., Komoto M., Suzuki K. Oligosaccharides produced by transglucosidation action of Protaminobacter rubrum α-glucosidase. Seito Gijutsu Kenkyu Kaishi 1984, 34:37-44.
31. Nakajima Y.J. Manufacture and utilization of palatinose. Denpun Kagaku 1988, 35:131-139.
32. McAllister M., Kelly C.T., Doyle E., Fogarty W.M. The isomaltulose synthesizing enzyme of Serratia plymuthica. Biotechnol Lett 1990, 12:667-672.
33. Ideno A., Kishuiara S., Fujii S., Sugitani T., Tsuyuki K., Ebashi T. Klebsiella planticola MX-10 α-glucosyltransferase. Nippon Nogeikagaku Kaishi 1991, 65:284.
34. Park Y.K., Uekane R.T., Pupin A.M. Conversion of sucrose to isomaltulose by microbial glucosyltransferase. Biotechnol Lett 1992, 14:547-551.
35. Park Y.K., Uekane R.T., Sato H.H. Biochemical characterization of a microbial glucosyltransferase that converts sucrose to palatinose. Rev Microbiol 1996, 27:131-136.
36. Mattes R, Klein K, Schiweck H, Kunz M, Munir M. Preparation of acariogenic sugar substitutes. PCT Patent Specification WO 95/20047 A3; 1995.
37. Börnke F, Sonnewald U. Production of non-cariogenic sugars in transgenic plants. PCT Patent Specification PCT/EP01/01603; 2001.
38. Zhang L, Li X, Zhang D. Bacterial isolates of the genus Klebsiella, and an isomaltulose synthase gene isolated therefrom. PCT Patent Specification WO200160993; 2001.
39. Birch RG, Wu L. Sucrose isomerases. PCT Patent Specification WO 200218603; 2002.
40. Cha J., Jung J.H., Park S.E., Cho M.H., Seo D.H., Ha S.J., et al. Molecular cloning and functional characterization of a sucrose isomerase (isomaltulose synthase) gene from Enterobacter sp FMB-1. J Appl Microbiol 2009, 107:1119-1130.
41. Li S., Cai H., Qing Y.J., Ren B., Xu H., Zhu H.Y., et al. Cloning and characterization of a sucrose isomerase from Erwinia rhapontici NX-5 for isomaltulose hyperproduction. Appl Biochem Biotechnol 2011, 163:52-63.
42. Ravaud S., Watzlawick H., Haser R., Mattes R., Aghajari N. Overexpression, purification, crystallization and preliminary diffraction studies of the Protaminobacter rubrum sucrose isomerase SmuA. Acta Crystallogr Sect F: Struct Biol Crystalliz Commun 2006, 62:74-76.
43. Ravaud S., Robert X., Watzlawick H., Haser R., Mattes R., Aghajari N. Trehalulose synthase native and carbohydrate complexed structures provide insights into sucrose isomerization. J Biol Chem 2007, 282:28126-28136.
44. Ravaud S., Robert X., Watzlawick H., Haser R., Mattes R., Aghajari N. Structural determinants of product specificity of sucrose isomerases. FEBS Lett 2009, 583:1964-1968.
45. Wu L., Birch R.G. Characterization of Pantoea dispersa UQ68J: producer of a highly efficient sucrose isomerase for isomaltulose biosynthesis. J Appl Microbiol 2004, 97:93-103.
46. Garrity G.M., Lilburn T.G., Cole J.R., Harrison S.H., Euzeby J., Tindall B.J. Taxonomic outline of the bacteria and archaea release 7.7 2007, Michigan State University, East Lansing.
47. Penfold R.J., Pemberton J.M. An improved suicide vector for construction of chromosomal insertion mutations in bacteria. Gene 1992, 118:145-146.
48. Hashimi S., Birch R.G. Functional analysis of genes for benzoate metabolism in the albicidin biosynthetic region of Xanthomonas albilineans. Appl Microbiol Biotechnol 2010, 87:1475-1485.
49. Porter M.C., Kuijpers M.H.M., Mercer G.D., Hartnagel R.E., Koeter H. Safety evaluation of Protaminobacter rubrum: intravenous pathogenicity and toxigenicity study in rabbits and mice. Food Chem Toxicol 1991, 29:685-688.
50. Green P.N., Bousfield I.J. A taxonomic study of some Gram-negative facultatively methylotrophic bacteria. J Gen Microbiol 1982, 128:623-638.
51. Hood D.W., Dow C.S., Green P.N. DNA-DNA hybridization studies on the pink-pigmented facultative methylotrophs. J Gen Microbiol 1987, 133:709-720.
52. Komagata K. Systematics of methanol-utilizing bacteria. FEMS Microbiol Rev 1990, 87:291-295.
53. Green P.N. Methylobacterium. Proteobacteria: alpha and beta subclasses 2006, 257-265. Springer, New York. 3rd ed. M. Dworkin (Ed.).
54. Miyata Y., Sugitani T., Tsuyuki K., Ebashi T., Nakajima Y. Isolation and characterization of Pseudomonas mesoacidophila producing trehalulose. Biosci Biotechnol Biochem 1992, 56:1680-1681.
55. Nagai-Miyata Y., Tsuyuki K., Sugitani T., Ebashi T., Nakajima Y. Isolation and characterization of a trehalulose-producing strain of Agrobacterium. Biosci Biotechnol Biochem 1993, 57:2049-2053.
56. Wang Q., Garrity G.M., Tiedje J.M., Cole J.R. Naive Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxonomy. Appl Environ Microbiol 2007, 73:5261-5267.
57. Kuykendall L.D. Order rhizobiales. Bergy's manual of systematic bacteriology: the proteobacteria, part 3 2005, 324-575. Springer, NY. D.J. Brenner, N.R. Krieg, G.M. Garrity, J.T. Staley (Eds.).
58. Slater S.C., Goldman B.S., Goodner B., Setubal J.C., Farrand S.K., Nester E.W., et al. Genome sequences of three Agrobacterium biovars help elucidate the evolution of multichromosome genomes in bacteria. J Bacteriol 2009, 191:2501-2511.
59. Zhang D.H., Li X.Z., Zhang L.H. Isomaltulose synthase from Klebsiella sp. strain LX3: Gene cloning and characterization and engineering of thermostability. Appl Environ Microbiol 2002, 68:2676-2682.
60. Aroonnual A., Nihira T., Seki T., Panbangred W. Role of several key residues in the catalytic activity of sucrose isomerase from Klebsiella pneumoniae NK33-98-8. Enzyme Microb Technol 2007, 40:1221-1227.
61. Lee H.C., Kim J.H., Kim S.Y., Lee J.K. Isomaltose production by modification of the fructose-binding site on the basis of the predicted structure of sucrose isomerase from Protaminobacter rubrum. Appl Environ Microbiol 2008, 74:5183-5194.
62. Mattes R, Klein K, Stegmaier S. Sucrose metabolism mutants. European Patent Specification EP0751218; 1997.