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3D30

Structure of an expansin like protein from Bacillus Subtilis at 1.9A resolution

Summary for 3D30
Entry DOI10.2210/pdb3d30/pdb
Related2BH0
DescriptorExpansin like protein, GLYCEROL, FORMIC ACID, ... (4 entities in total)
Functional Keywordsbacillus subtilis, expansin, peptidoglycan associated protein, unknown function, mlta, bacteria autolysis, peptidoglycan-binding protein
Biological sourceBacillus subtilis
Cellular locationSecreted, cell wall: O34918
Total number of polymer chains1
Total formula weight23326.49
Authors
Kerff, F.,Petrella, S.,Herman, R.,Sauvage, E.,Joris, B.,Charlier, P. (deposition date: 2008-05-09, release date: 2008-10-14, Last modification date: 2023-08-30)
Primary citationKerff, F.,Amoroso, A.,Herman, R.,Sauvage, E.,Petrella, S.,Filee, P.,Charlier, P.,Joris, B.,Tabuchi, A.,Nikolaidis, N.,Cosgrove, D.J.
Crystal structure and activity of Bacillus subtilis YoaJ (EXLX1), a bacterial expansin that promotes root colonization.
Proc.Natl.Acad.Sci.USA, 105:16876-16881, 2008
Cited by
PubMed Abstract: We solved the crystal structure of a secreted protein, EXLX1, encoded by the yoaJ gene of Bacillus subtilis. Its structure is remarkably similar to that of plant beta-expansins (group 1 grass pollen allergens), consisting of 2 tightly packed domains (D1, D2) with a potential polysaccharide-binding surface spanning the 2 domains. Domain D1 has a double-psi beta-barrel fold with partial conservation of the catalytic site found in family 45 glycosyl hydrolases and in the MltA family of lytic transglycosylases. Domain D2 has an Ig-like fold similar to group 2/3 grass pollen allergens, with structural features similar to a type A carbohydrate-binding domain. EXLX1 bound to plant cell walls, cellulose, and peptidoglycan, but it lacked lytic activity against a variety of plant cell wall polysaccharides and peptidoglycan. EXLX1 promoted plant cell wall extension similar to, but 10 times weaker than, plant beta-expansins, which synergistically enhanced EXLX1 activity. Deletion of the gene encoding EXLX1 did not affect growth or peptidoglycan composition of B. subtilis in liquid medium, but slowed lysis upon osmotic shock and greatly reduced the ability of the bacterium to colonize maize roots. The presence of EXLX1 homologs in a small but diverse set of plant pathogens further supports a role in plant-bacterial interactions. Because plant expansins have proved difficult to express in active form in heterologous systems, the discovery of a bacterial homolog opens the door for detailed structural studies of expansin function.
PubMed: 18971341
DOI: 10.1073/pnas.0809382105
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.9 Å)
Structure validation

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