Loading
PDBj
MenuPDBj@FacebookPDBj@TwitterPDBj@YouTubewwPDB FoundationwwPDB
RCSB PDBPDBeBMRBAdv. SearchSearch help

2RV9

Solution structure of chitosan-binding module 1 derived from chitosanase/glucanase from Paenibacillus sp. IK-5

Summary for 2RV9
Entry DOI10.2210/pdb2rv9/pdb
Related2RVA
NMR InformationBMRB: 11591
DescriptorGlucanase (1 entity in total)
Functional Keywordscarbohydrate-binding module, cbm, chitosanase, hydrolase
Biological sourcePaenibacillus fukuinensis
Total number of polymer chains1
Total formula weight14922.10
Authors
Shinya, S.,Nishimura, S.,Fukamizo, T. (deposition date: 2015-05-12, release date: 2016-04-06, Last modification date: 2024-05-15)
Primary citationShinya, S.,Nishimura, S.,Kitaoku, Y.,Numata, T.,Kimoto, H.,Kusaoke, H.,Ohnuma, T.,Fukamizo, T.
Mechanism of chitosan recognition by CBM32 carbohydrate-binding modules from a Paenibacillus sp. IK-5 chitosanase/glucanase.
Biochem.J., 473:1085-1095, 2016
Cited by
PubMed Abstract: An antifungal chitosanase/glucanase isolated from the soil bacterium Paenibacillus sp. IK-5 has two CBM32 chitosan-binding modules (DD1 and DD2) linked in tandem at the C-terminus. In order to obtain insights into the mechanism of chitosan recognition, the structures of DD1 and DD2 were solved by NMR spectroscopy and crystallography. DD1 and DD2 both adopted a β-sandwich fold with several loops in solution as well as in crystals. On the basis of chemical shift perturbations in(1)H-(15)N-HSQC resonances, the chitosan tetramer (GlcN)4 was found to bind to the loop region extruded from the core β-sandwich of DD1 and DD2. The binding site defined by NMR in solution was consistent with the crystal structure of DD2 in complex with (GlcN)3, in which the bound (GlcN)3 stood upright on its non-reducing end at the binding site. Glu(14)of DD2 appeared to make an electrostatic interaction with the amino group of the non-reducing end GlcN, and Arg(31), Tyr(36)and Glu(61)formed several hydrogen bonds predominantly with the non-reducing end GlcN. No interaction was detected with the reducing end GlcN. Since Tyr(36)of DD2 is replaced by glutamic acid in DD1, the mutation of Tyr(36)to glutamic acid was conducted in DD2 (DD2-Y36E), and the reverse mutation was conducted in DD1 (DD1-E36Y). Ligand-binding experiments using the mutant proteins revealed that this substitution of the 36th amino acid differentiates the binding properties of DD1 and DD2, probably enhancing total affinity of the chitosanase/glucanase toward the fungal cell wall.
PubMed: 26936968
DOI: 10.1042/BCJ20160045
PDB entries with the same primary citation
Experimental method
SOLUTION NMR
Structure validation

226707

数据于2024-10-30公开中

PDB statisticsPDBj update infoContact PDBjnumon