However, unlike Gsp and Exe, a pilotin, OutS, is required for sec

However, unlike Gsp and Exe, a pilotin, OutS, is required for secretion (Condemine et al., 1992), as well as stability and efficient outer membrane localization of OutD (Shevchik et al., 1997; Shevchik & Condemine, 1998). selleck Shigella flexneri MxiD similarly requires both a pilotin, MxiM, and accessory protein, MxiJ. However, MxiJ has no sequence similarity to GspB. Expression of either MxiM or MxiJ prevents MxiD from degradation (Schuch & Maurelli, 2001). Secretins in Class 4 are able to reach the outer membrane but are unable to form stable assemblies in the absence of their accessory proteins. BfpB from E. coli T4bP falls into this

category, as multimers of BfpB cannot form without BfpG (Schmidt et al., 2001). Despite being part of a T4bP system, TcpC in V. cholerae behaves differently. TcpC and its accessory protein, TcpQ, are mutually stabilizing, and each is completely degraded in the absence of the other (Bose & Taylor, 2005). Another example of a Class 4 secretin is PilQ from N. meningitidis T4aP. In the absence of PilW, PilQ remains monomeric in the outer membrane – or does not form stable multimers – and does not support T4P activity (Carbonnelle

et al., 2005). The inner membrane protein PilP has been reported to affect PilQ stability in Neisseria, but published results are inconsistent (Drake et al., 1997; Carbonnelle et al., 2005, 2006; Balasingham et al., 2007). Pilotins are required for both proper localization and assembly of Class learn more 5 secretins. PilQ in P. aeruginosa, unlike its homolog in N. meningitidis, is retained in the inner membrane without the PilF pilotin (Koo et al., 2008). Untethering of PilF from the membrane by mutation of its lipidation site causes PilQ assembly in both membranes and shows that secretin assembly mediated by PilF is a separate function from localization. Given the variation in the requirements for secretin assembly, the mode of interaction between pilotins and accessory proteins with their cognate secretin has Branched chain aminotransferase been the focus of much study. Biophysical techniques and functional characterization of mutants have begun

to pinpoint the region(s) of the secretin subunit involved and the stoichiometry of the interaction. The majority of pilotins have been found to interact with the C-terminus of the secretin subunit, whereas accessory proteins bind in the N-terminal region. Protein chimeras between secretin C-termini and several different proteins have been used to show an interaction between the secretin and pilotin. Attachment of the C-terminal 65 amino acids of PulD or 43 amino acids of InvG to the filamentous phage protein pIV rendered the chimeras dependent on the pilotins, PulS and InvH, respectively, for phage assembly and allowed the chimera–pilotin complex to be co-immunoprecipitated (Daefler et al., 1997; Daefler & Russel, 1998).

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