4wo7
From Proteopedia
Crystal Structure of PrsA from Bacillus subtilis
Structural highlights
FunctionPRSA_BACSU Essential protein that plays a major role in protein secretion by helping the post-translocational extracellular folding of several secreted proteins. Has PPIase activity but it is not essential for its function in vivo.[1] Publication Abstract from PubMedSecretion of proteins into the membrane-cell wall space is essential for cell wall biosynthesis and pathogenicity in Gram-positive bacteria. Folding and maturation of many secreted proteins depend on a single extracellular foldase, the PrsA protein. PrsA is a 30 kDa protein, lipid-anchored to the outer leaflet of the cell membrane. The crystal structure of Bacillus subtilis PrsA reveals a central catalytic parvulin-type prolyl isomerase domain, which is inserted into a larger composite NC domain formed by the N- and C-terminal regions. This domain architecture resembles, despite a lack of sequence conservation, both trigger factor, a ribosome-binding bacterial chaperone, and SurA, a periplasmic chaperone in Gram-negative bacteria. Two main structural differences are observed in that the N-terminal arm of PrsA is substantially shortened relative to trigger factor and SurA and in that PrsA is found to dimerize in a unique fashion via its NC domain. Dimerization leads to a large, bowl-shaped crevice, which might be involved in vivo in protecting substrate proteins from aggregation. NMR experiments reveal a direct, dynamic interaction of both the parvulin and the NC domain with secretion propeptides, which have been implicated in substrate targeting to PrsA. Dimeric Structure of the Bacterial Extracellular Foldase PrsA.,Jakob RP, Koch JR, Burmann BM, Schmidpeter PA, Hunkeler M, Hiller S, Schmid FX, Maier T J Biol Chem. 2014 Dec 17. pii: jbc.M114.622910. PMID:25525259[2] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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