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PLoS One


Title:Hyperthermophile protein behavior: partially-structured conformations of Pyrococcus furiosus rubredoxin monomers generated through forced cold-denaturation and refolding
Author(s):Chandrayan SK; Prakash S; Ahmed S; Guptasarma P;
Address:"Protein Science & Engineering Division, Institute of Microbial Technology, (IMTECH), Council of Scientific & Industrial Research (CSIR), Chandigarh, India. Department of Biological Sciences, Indian Institute of Science Education & Research (IISER) Mohali, Knowledge City, Sector-81, SAS Nagar (Mohali), Punjab, India; Protein Science & Engineering Division, Institute of Microbial Technology, (IMTECH), Council of Scientific & Industrial Research (CSIR), Chandigarh, India"
Journal Title:PLoS One
Year:2014
Volume:20140306
Issue:3
Page Number:e80014 -
DOI: 10.1371/journal.pone.0080014
ISSN/ISBN:1932-6203 (Electronic) 1932-6203 (Linking)
Abstract:"Some years ago, we showed that thermo-chemically denatured, partially-unfolded forms of Pyrococcus furiosus triosephosphateisomerase (PfuTIM) display cold-denaturation upon cooling, and heat-renaturation upon reheating, in proportion with the extent of initial partial unfolding achieved. This was the first time that cold-denaturation was demonstrated for a hyperthermophile protein, following unlocking of surface salt bridges. Here, we describe the behavior of another hyperthermophile protein, the small, monomeric, 53 residues-long rubredoxin from Pyrococcus furiosus (PfRd), which is one of the most thermostable proteins known to man. Like PfuTIM, PfRd too displays cold-denaturation after initial thermo-chemical perturbation, however, with two differences: (i) PfRd requires considerably higher temperatures as well as higher concentrations of guanidium hydrochloride (Gdm.HCl) than PfuTIM; (ii) PfRd's cold-denaturation behavior during cooling after thermo-chemical perturbation is incompletely reversible, unlike PfuTIM's, which was clearly reversible (from each different conformation generated). Differential cold-denaturation treatments allow PfRd to access multiple partially-unfolded states, each of which is clearly highly kinetically-stable. We refer to these as 'Trishanku' unfolding intermediates (or TUIs). Fascinatingly, refolding of TUIs through removal of Gdm.HCl generates multiple partially-refolded, monomeric, kinetically-trapped, non-native 'Trishanku' refolding intermediates (or TRIs), which differ from each other and from native PfRd and TUIs, in structural content and susceptibility to proteolysis. We find that the occurrence of cold denaturation and observations of TUI and TRI states is contingent on the oxidation status of iron, with redox agents managing to modulate the molecule's behavior upon gaining access to PfRd's iron atom. Mass spectrometric examination provides no evidence of the formation of disulfide bonds, but other experiments suggest that the oxidation status of iron (and its extent of burial) together determine whether or not PfRd shows cold denaturation, and also whether redox agents are able to modulate its behavior"
Keywords:"Amino Acid Sequence Archaeal Proteins/*chemistry/genetics/metabolism Base Sequence Circular Dichroism *Cold Temperature Electrophoresis, Polyacrylamide Gel *Hot Temperature Models, Molecular Molecular Sequence Data Oxidation-Reduction *Protein Conformatio;"
Notes:"MedlineChandrayan, Sanjeev Kumar Prakash, Satya Ahmed, Shubbir Guptasarma, Purnananda eng 2014/03/08 PLoS One. 2014 Mar 6; 9(3):e80014. doi: 10.1371/journal.pone.0080014. eCollection 2014"

 
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