Ionic interactions at both inter-ring contact sites of GroEL are involved in transmission of the allosteric signal: A time-resolved infrared difference study.

The biological activity of the double-ring chaperonin GroEL is regulated by complex allosteric interactions, which include positive intra-ring and negative inter-ring cooperativity. To further characterize inter-ring communication, the nucleotide-induced absorbance changes in the vibrational spectrum of the chaperonin GroEL, of two single-point mutants suppressing one inter-ring ionic contact (E461K and E434K) and of a single-ring version of this protein, were investigated by time-resolved infrared difference spectroscopy. Interaction of the nucleotide with the proteins was triggered by its photochemical release from a biologically inactive caged precursor [P³-1-(2-nitro) phenylethyl nucleotide]. The results indicate that (1) ATP binding to the protein induces a conformational change that affects concomitantly both intra-ring and inter-ring communication, and (2) the experimental absorbance changes are sensitive to the double-ring structure of the protein. The characterization of the single-point, inter-ring mutants demonstrates that ionic interactions at both contact sites are involved in the transmission of the allosteric signal. However, both mutations have different effects on the inter-ring interface. While that of E461K still retains ionic contacts sensitive to ATP binding, E434K shows spectroscopic features similar to those of the single-ring version of the protein, therefore suggesting that electrostatic interactions at these contact sites contribute differently to the stability of the inter-ring interface. [ABSTRACT FROM AUTHOR]