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Internal (His)?-tagging delivers a fully functional hetero-oligomeric class II chaperonin in high yield.


ABSTRACT: Group II chaperonins are ATP-ases indispensable for the folding of many proteins that play a crucial role in Archaea and Eukarya. They display a conserved two-ringed assembly enclosing an internal chamber where newly translated or misfolded polypeptides can fold to their native structure. They are mainly hexadecamers, with each eight-membered ring composed of one or two (in Archaea) or eight (in Eukarya) different subunits. A major recurring problem within group II chaperonin research, especially with the hetero-oligomeric forms, is to establish an efficient recombinant system for the expression of large amounts of wild-type as well as mutated variants. Herein we show how we can produce, in E. coli cells, unprecedented amounts of correctly assembled and active ??-thermosome, the class II chaperonin from Thermoplasma acidophilum, by introducing a (His)6-tag within a loop in the ? subunit of the complex. The specific location was identified via a rational approach and proved not to disturb the structure of the chaperonin, as demonstrated by size-exclusion chromatography, native gel electrophoresis and electron microscopy. Likewise, the tagged protein showed an ATP-ase activity and an ability to refold substrates identical to the wild type. This tagging strategy might be employed for the overexpression of other recombinant chaperonins.

SUBMITTER: Paul DM 

PROVIDER: S-EPMC4746591 | biostudies-literature | 2016 Feb

REPOSITORIES: biostudies-literature

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Internal (His)₆-tagging delivers a fully functional hetero-oligomeric class II chaperonin in high yield.

Paul Danielle M DM   Beuron Fabienne F   Sessions Richard B RB   Brancaccio Andrea A   Bigotti Maria Giulia MG  

Scientific reports 20160209


Group II chaperonins are ATP-ases indispensable for the folding of many proteins that play a crucial role in Archaea and Eukarya. They display a conserved two-ringed assembly enclosing an internal chamber where newly translated or misfolded polypeptides can fold to their native structure. They are mainly hexadecamers, with each eight-membered ring composed of one or two (in Archaea) or eight (in Eukarya) different subunits. A major recurring problem within group II chaperonin research, especiall  ...[more]

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