Productive and Nonproductive Intermediates in the Folding of Denatured Rhodanese

The competition between protein aggregation and folding has been investigated using rhodanese (thiosulfate:cyanide sulfurtransferase, EC 2.8.1.1 ) as a model. During folding from a urea-denatured state, rhodanese rapidly forms associated species or intermediates, some of which are large and/or stick...

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Bibliographic Details
Published in:The Journal of biological chemistry 2000-01, Vol.275 (1), p.63-70
Main Authors: Panda, M, Gorovits, B M, Horowitz, P M
Format: Article
Language:English
Subjects:
Animals
Cattle
Glycerol - pharmacology
Hydrostatic Pressure
Light
Models, Chemical
Protein Denaturation
Protein Folding
Recombinant Proteins - metabolism
Scattering, Radiation
Sodium Dodecyl Sulfate - pharmacology
Thiosulfate Sulfurtransferase - genetics
Thiosulfate Sulfurtransferase - metabolism
Urea - pharmacology
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Summary:The competition between protein aggregation and folding has been investigated using rhodanese (thiosulfate:cyanide sulfurtransferase, EC 2.8.1.1 ) as a model. During folding from a urea-denatured state, rhodanese rapidly forms associated species or intermediates, some of which are large and/or sticky. The early removal of such particles by filtration results in a decreased refolding yield. With time, a portion of the smaller aggregates can partition back first to intermediates and then to refolded protein, while a fraction of these irreversibly form unproductive higher aggregates. Dynamic light scattering measurements indicate that the average sizes of the aggregates formed during rhodanese folding increase from 225 to 325 nm over 45 min and they become increasingly heterogeneous. Glycerol addition or the application of high hydrostatic pressure improved the final refolding yields by stabilizing smaller particles. Although addition of glycerol into the refolding mixture blocks the formation of unproductive aggregates, it cannot dissociate them back to productive intermediates. The presence of 3.9 m urea keeps the aggregates small, and they can be dissociated to monomers by high hydrostatic pressure even after 1 h of incubation. These studies suggest that early associated intermediates formed during folding can be reversed to give active species.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.275.1.63