Abstract
AbstractBacterial small heat shock proteins, IbpA and IbpB, co-aggregate with denatured proteins and recruit other chaperones for the processing of aggregates, thereby assisting in their refolding. In addition, as a recently revealed uncommon feature,Escherichia coliIbpA self-represses its own translation through interaction with the 5’ untranslated region (UTR) of theibpAmRNA, enabling IbpA to act as a mediator of negative feedback regulation. Although IbpA also suppresses the expression of IbpB, IbpB does not have the self-repression activity despite the two Ibps being highly homologous. This study demonstrates that the self-repression function of IbpA is conserved in other bacterial IbpAs. Moreover, a cationic residue-rich region in the α-crystallin domain (ACD) of IbpA, which is not conserved in IbpB, is critical for the self-suppression activity. Notably, arginine 93 (R93) located within the ACD is an essential residue that cannot be replaced by the other 19 amino acids, including lysine. IbpA-R93 mutants completely lost the interaction with the 5’ UTR of theibpAmRNA but retained almost all of the chaperone activity to sequester denatured proteins. Taken together, the conserved Arg93-mediated translational control of IbpA through RNA binding would be beneficial for a rapid and massive supply of the chaperone on demand.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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