Three-point amino acid substitutions, chosen on the basis of publ

Three-point amino acid substitutions, chosen on the basis of published data of HspH of B. japonicum (Lentze et al., 2003), were generated. Genetic manipulations involving O. oeni are unavailable, and so we produced

and studied all the proteins in E. coli. Among the three proteins analysed (Y107A, V113A and A123S), only A123S showed defective chaperone activity, as it prevented only around 60% of temperature-induced aggregation of the E. coli cellular proteins compared with native Lo18 WT. The results obtained for A123S www.selleckchem.com/products/E7080.html are in accordance with those reported for A109S by Lentze et al. (2003). By contrast, the results obtained for the two other proteins with amino acid substitutions were different from those obtained for HspH proteins. Y107A and V113A presented no significant modification in chaperone activity, in contrast to F94A/D and L100A, for which a lower activity was reported. Delmas et al. (2001) have shown that the native smHsp Lo18 is able to form dimeric, trimeric and oligomeric forms. These three multimeric structures were obtained after cross-linking experiments

either in vitro on purified Lo18 or in vivo Sotrastaurin using cells expressing Lo18 from O. oeni and E. coli. Our results showed no differences between the forms of the WT or Lo18 amino acid substitutions with monomeric, oligomeric and intermediate structures. Moreover, a relationship between the oligomerization process and chaperone activity has been suggested (Giese & Vierling, 2002; Gu et al., 2002). However, concerning the decreased chaperone activity Unoprostone of the A123S, no structural modification was demonstrated. Biochemical analysis of purified proteins may

provide information about differences in structural characteristics. Previous studies have shown that Lo18 WT is localized in the cytoplasmic and membrane fractions of heat-shocked cells of O. oeni (Jobin et al., 1997; Delmas et al., 2001). A similar distribution in both the cytoplasm and the membrane fractions was observed in E. coli expressing Lo18 WT and proteins with amino acid substitutions. The proportion of these heterologous proteins in the various fractions of the E. coli envelope was not explored. However, localization in the outer membrane fraction has been shown for the smHsp18 from Mycobacterium leprae expressed in E. coli (Lini et al., 2008). Our results obtained for membrane fluidity regulation in E. coli lead us to suggest that a major part of Lo18 is associated with the cytoplasmic membrane, even if we cannot exclude localization in other extracytoplasmic compartments. Among membrane-associated smHsp, those from the Mycobacterium genus (Cunningham & Spreadbury, 1998) are surface antigens, whereas Lo18, like smHsps from Synechocystis, shares a membrane-stabilizing activity in vitro (Török et al., 2001).

Comments are closed.