Title: Effective ATPase activity and moderate chaperonin–cochaperonin interaction are important for the functional single-ring chaperonin system
Abstract: Escherichia coli chaperonin GroEL and its cochaperonin GroES are essential for cell growth as they assist folding of cellular proteins. The double-ring assembly of GroEL is required for the chaperone function, and a single-ring variant GroELSR is inactive with GroES. Mutations in GroELSR (A92T, D115N, E191G, and A399T) have been shown to render GroELSR–GroES functional, but the molecular mechanism of activation is unclear. Here we examined various biochemical properties of these functional GroELSR–GroES variants, including ATP hydrolysis rate, chaperonin–cochaperonin interaction, and in vitro protein folding activity. We found that, unlike the diminished ATPase activity of the inactive GroELSR–GroES, all four single-ring variants hydrolyzed ATP at a level comparable to that of the double-ring GroEL–GroES. The chaperonin–cochaperonin interaction in these single-ring systems was weaker, by at least a 50-fold reduction, than the highly stable inactive GroELSR–GroES. Strikingly, only GroELSRD115N–GroES and GroELSRA399T–GroES assisted folding of malate dehydrogenase (MDH), a commonly used folding substrate. These in vitro results are interesting considering that all four of the single-ring systems were able to substitute GroEL–GroES to support cell growth, suggesting that the precise action of chaperonin on MDH folding may not represent that on the intrinsic cellular substrates. Our findings that both effective ATP hydrolysis rate and moderate chaperonin–cochaperonin interaction are important factors for functional single-ring GroELSR–GroES are reminiscent of the naturally occurring single-ring human mitochondrial chaperonin mtHsp60–mtHsp10. Differences in biochemical properties between the single- and double-ring chaperonin systems may be exploited in designing molecules for selective targeting.
Publication Year: 2015
Publication Date: 2015-10-01
Language: en
Type: article
Indexed In: ['crossref', 'pubmed']
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Cited By Count: 8
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