Literature DB >> 19124470

The crystal structure of galacto-N-biose/lacto-N-biose I phosphorylase: a large deformation of a TIM barrel scaffold.

Masafumi Hidaka1, Mamoru Nishimoto, Motomitsu Kitaoka, Takayoshi Wakagi, Hirofumi Shoun, Shinya Fushinobu.   

Abstract

Galacto-N-biose/lacto-N-biose I phosphorylase (GLNBP) from Bifidobacterium longum, a key enzyme for intestinal growth, phosphorolyses galacto-N-biose and lacto-N-biose I with anomeric inversion. GLNBP homologues are often found in human pathogenic and commensal bacteria, and their substrate specificities potentially define the nutritional acquisition ability of these microbes in their habitat. We report the crystal structures of GLNBP in five different ligand-binding forms. This is the first three-dimensional structure of glycoside hydrolase (GH) family 112. The GlcNAc- and GalNAc-bound forms provide structural insights into distinct substrate preferences of GLNBP and its homologues from pathogens. The catalytic domain consists of a partially broken TIM barrel fold that is structurally similar to a thermophilic beta-galactosidase, strongly supporting the current classification of GLNBP homologues as one of the GH families. Anion binding induces a large conformational change by rotating a half-unit of the barrel. This is an unusual example of molecular adaptation of a TIM barrel scaffold to substrates.

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Year:  2009        PMID: 19124470      PMCID: PMC2652316          DOI: 10.1074/jbc.M808525200

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  59 in total

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Journal:  J Pediatr Gastroenterol Nutr       Date:  2000-01       Impact factor: 2.839

2.  Structural evidence for evolution of the beta/alpha barrel scaffold by gene duplication and fusion.

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Journal:  Science       Date:  2000-09-01       Impact factor: 47.728

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Journal:  Chem Biol       Date:  2002-12

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Journal:  Trends Microbiol       Date:  1999-03       Impact factor: 17.079

Review 5.  Immunomodulatory function of lactic acid bacteria.

Authors:  H Yasui; K Shida; T Matsuzaki; T Yokokura
Journal:  Antonie Van Leeuwenhoek       Date:  1999 Jul-Nov       Impact factor: 2.271

6.  Dissection of a (betaalpha)8-barrel enzyme into two folded halves.

Authors:  B Höcker; S Beismann-Driemeyer; S Hettwer; A Lustig; R Sterner
Journal:  Nat Struct Biol       Date:  2001-01

7.  Variability of human milk neutral oligosaccharides in a diverse population.

Authors:  R M Erney; W T Malone; M B Skelding; A A Marcon; K M Kleman-Leyer; M L O'Ryan; G Ruiz-Palacios; M D Hilty; L K Pickering; P A Prieto
Journal:  J Pediatr Gastroenterol Nutr       Date:  2000-02       Impact factor: 2.839

8.  Automated MAD and MIR structure solution.

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Journal:  Acta Crystallogr D Biol Crystallogr       Date:  1999-04

Review 9.  Mapping the conformational itinerary of beta-glycosidases by X-ray crystallography.

Authors:  G J Davies; V M-A Ducros; A Varrot; D L Zechel
Journal:  Biochem Soc Trans       Date:  2003-06       Impact factor: 5.407

10.  Trimeric crystal structure of the glycoside hydrolase family 42 beta-galactosidase from Thermus thermophilus A4 and the structure of its complex with galactose.

Authors:  Masafumi Hidaka; Shinya Fushinobu; Naomi Ohtsu; Hidemasa Motoshima; Hiroshi Matsuzawa; Hirofumi Shoun; Takayoshi Wakagi
Journal:  J Mol Biol       Date:  2002-09-06       Impact factor: 5.469
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  12 in total

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Journal:  Glycoconj J       Date:  2009-06-27       Impact factor: 2.916

2.  Unraveling the Leloir pathway of Bifidobacterium bifidum: significance of the uridylyltransferases.

Authors:  Frederik De Bruyn; Joeri Beauprez; Jo Maertens; Wim Soetaert; Marjan De Mey
Journal:  Appl Environ Microbiol       Date:  2013-09-06       Impact factor: 4.792

3.  Highly efficient chemoenzymatic synthesis of β1-3-linked galactosides.

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Journal:  Chem Commun (Camb)       Date:  2010-09-10       Impact factor: 6.222

4.  Characterization of three beta-galactoside phosphorylases from Clostridium phytofermentans: discovery of d-galactosyl-beta1->4-l-rhamnose phosphorylase.

Authors:  Masahiro Nakajima; Mamoru Nishimoto; Motomitsu Kitaoka
Journal:  J Biol Chem       Date:  2009-06-02       Impact factor: 5.157

5.  Crystal structures of a glycoside hydrolase family 20 lacto-N-biosidase from Bifidobacterium bifidum.

Authors:  Tasuku Ito; Takane Katayama; Mitchell Hattie; Haruko Sakurama; Jun Wada; Ryuichiro Suzuki; Hisashi Ashida; Takayoshi Wakagi; Kenji Yamamoto; Keith A Stubbs; Shinya Fushinobu
Journal:  J Biol Chem       Date:  2013-03-11       Impact factor: 5.157

Review 6.  Bifidobacterial enzymes involved in the metabolism of human milk oligosaccharides.

Authors:  Motomitsu Kitaoka
Journal:  Adv Nutr       Date:  2012-05-01       Impact factor: 8.701

Review 7.  Structure and evolution of the bifidobacterial carbohydrate metabolism proteins and enzymes.

Authors:  Shinya Fushinobu; Maher Abou Hachem
Journal:  Biochem Soc Trans       Date:  2021-04-30       Impact factor: 5.407

Review 8.  Enzymatic synthesis using glycoside phosphorylases.

Authors:  Ellis C O'Neill; Robert A Field
Journal:  Carbohydr Res       Date:  2014-06-18       Impact factor: 2.104

9.  Structural basis for broad substrate specificity of UDP-glucose 4-epimerase in the human milk oligosaccharide catabolic pathway of Bifidobacterium longum.

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10.  Evidence that GH115 α-glucuronidase activity, which is required to degrade plant biomass, is dependent on conformational flexibility.

Authors:  Artur Rogowski; Arnaud Baslé; Cristiane S Farinas; Alexandra Solovyova; Jennifer C Mortimer; Paul Dupree; Harry J Gilbert; David N Bolam
Journal:  J Biol Chem       Date:  2013-11-08       Impact factor: 5.157
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