4CD4 | pdb_00004cd4

The structure of GH26 beta-mannanase CjMan26C from Cellvibrio japonicus in complex with ManIFG

Experimental Data Snapshot

  • Method: X-RAY DIFFRACTION
  • Resolution: 1.20 Å
  • R-Value Free: 
    0.134 (Depositor), 0.150 (DCC) 
  • R-Value Work: 
    0.111 (Depositor), 0.130 (DCC) 
  • R-Value Observed: 
    0.112 (Depositor) 

Starting Model: experimental
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Ligand Structure Quality Assessment 

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This is version 1.3 of the entry. See complete history


Literature

Combined Inhibitor Free-Energy Landscape and Structural Analysis Reports on the Mannosidase Conformational Coordinate.

Williams, R.J.Iglesias-Fernandez, J.Stepper, J.Jackson, A.Thompson, A.J.Lowe, E.C.White, J.M.Gilbert, H.J.Rovira, C.Davies, G.J.Williams, S.J.

(2014) Angew Chem Int Ed Engl 53: 1087

  • DOI: https://doi.org/10.1002/anie.201308334
  • Primary Citation of Related Structures:  
    4CD4, 4CD5, 4CD6, 4CD7, 4CD8

  • PubMed Abstract: 

    Mannosidases catalyze the hydrolysis of a diverse range of polysaccharides and glycoconjugates, and the various sequence-based mannosidase families have evolved ingenious strategies to overcome the stereoelectronic challenges of mannoside chemistry. Using a combination of computational chemistry, inhibitor design and synthesis, and X-ray crystallography of inhibitor/enzyme complexes, it is demonstrated that mannoimidazole-type inhibitors are energetically poised to report faithfully on mannosidase transition-state conformation, and provide direct evidence for the conformational itinerary used by diverse mannosidases, including β-mannanases from families GH26 and GH113. Isofagomine-type inhibitors are poor mimics of transition-state conformation, owing to the high energy barriers that must be crossed to attain mechanistically relevant conformations, however, these sugar-shaped heterocycles allow the acquisition of ternary complexes that span the active site, thus providing valuable insight into active-site residues involved in substrate recognition.

    • Organizational Affiliation

    School of Chemistry and Bio21 Molecular Science and Biotechnology Institute, University of Melbourne, Parkville, Vic 3010 (Australia).


Macromolecules
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(by identity cutoff)  |  3D Structure
Entity ID: 1
MoleculeChains Sequence LengthOrganismDetailsImage
ENDO-1,4-BETA MANNANASE, PUTATIVE, MAN26C419Cellvibrio japonicus Ueda107Mutation(s): 0 
EC: 3.2.1.78
UniProt
Find proteins for B3PGI1 (Cellvibrio japonicus (strain Ueda107))
Explore B3PGI1 
Go to UniProtKB:  B3PGI1
Entity Groups  
Sequence Clusters30% Identity50% Identity70% Identity90% Identity95% Identity100% Identity
UniProt GroupB3PGI1
Sequence Annotations
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  • Reference Sequence
Experimental Data & Validation

Experimental Data

  • Method: X-RAY DIFFRACTION
  • Resolution: 1.20 Å
  • R-Value Free:  0.134 (Depositor), 0.150 (DCC) 
  • R-Value Work:  0.111 (Depositor), 0.130 (DCC) 
  • R-Value Observed: 0.112 (Depositor) 
Space Group: P 61 2 2
Unit Cell:
Length ( Å )Angle ( ˚ )
a = 84.518α = 90
b = 84.518β = 90
c = 244.491γ = 120
Software Package:
Software NamePurpose
REFMACrefinement
xia2data reduction
Aimlessdata scaling
MOLREPphasing

Structure Validation

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Ligand Structure Quality Assessment 

Created with Raphaël 2.3.0Worse 01 BetterLigand structure goodness of fit to experimental dataBest fitted BMAClick on this verticalbar to view details

View more in-depth experimental data
Entry History 

Deposition Data

Revision History  (Full details and data files)

  • Version 1.0: 2014-04-02
    Type: Initial release
  • Version 1.1: 2015-07-15
    Changes: Non-polymer description
  • Version 1.2: 2020-07-29
    Type: Remediation
    Reason: Carbohydrate remediation
    Changes: Data collection, Derived calculations, Other, Structure summary
  • Version 1.3: 2023-12-20
    Changes: Data collection, Database references, Refinement description, Structure summary