Crystal Structures and Enzyme Mechanisms of a Dual Fucose Mutarotase/Ribose Pyranase

Kwang Hoon Lee, Kyoung Seok Ryu, Min Sung Kim, Hye Young Suh, Bonsu Ku, Young Lan Song, Sunggeon Ko, Weontae Lee, Byung Ha Oh

Research output: Contribution to journalArticlepeer-review

7 Citations (Scopus)

Abstract

Escherichia coli FucU (Fucose Unknown) is a dual fucose mutarotase and ribose pyranase, which shares 44% sequence identity with its human counterpart. Herein, we report the structures of E. coli FucU and mouse FucU bound to l-fucose and delineate the catalytic mechanisms underlying the interconversion between stereoisomers of fucose and ribose. E. coli FucU forms a decameric toroid with each active site formed by two adjacent subunits. While one subunit provides most of the fucose-interacting residues including a catalytic tyrosine residue, the other subunit provides a catalytic His-Asp dyad. This active-site feature is critical not only for the mutarotase activity toward l-fucose but also for the pyranase activity toward d-ribose. Structural and biochemical analyses pointed that mouse FucU assembles into four different oligomeric forms, among which the smallest homodimeric form is most abundant and would be the predominant species under physiological conditions. This homodimer has two fucose-binding sites that are devoid of the His-Asp dyad and catalytically inactive, indicating that the mutarotase and the pyranase activities appear dispensable in vertebrates. The defective assembly of the mouse FucU homodimer into the decameric form is due to an insertion of two residues at the N-terminal extreme, which is a common aspect of all the known vertebrate FucU proteins. Therefore, vertebrate FucU appears to serve for as yet unknown function through the quaternary structural alteration. Crown

Original languageEnglish
Pages (from-to)178-191
Number of pages14
JournalJournal of Molecular Biology
Volume391
Issue number1
DOIs
Publication statusPublished - 2009 Aug 7

Bibliographical note

Funding Information:
This study made use of beamline 4A at the Pohang Accelerator Laboratory in Korea and of NMR facility at the Korea Basic Science Institute. This work was supported by the GRL Program (K20815000001) to B.-H.O. and by the R01-2007-000-10161-0 grant to W.L. from National Research Foundation of Korea.

All Science Journal Classification (ASJC) codes

  • Structural Biology
  • Molecular Biology

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