Reversible blocking of half-cystine residues of proteins and an irreversible specific deamidation of asparagine-67 of S-sulforibonuclease under mild conditions

For use in protein-folding studies, a rapid procedure for the preparation of octa-S-sulforibonuclease A (SO3-RNase A) with 2-nitro-5-(sulfothio)benzoate is described. The modification is specific for thiols and disulfide bonds. The modified protein was characterized and found to be enzymatically ina...

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Bibliographic Details
Published in:Biochemistry (Easton) 1985-12, Vol.24 (26), p.7681-7688
Main Authors: Thannhauser, Theodore W, Scheraga, Harold A
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Analytical, structural and metabolic biochemistry
Animals
Asparagine
Biological and medical sciences
Cattle
Chromatography, Ion Exchange
Cystine
Enzymes and enzyme inhibitors
Fundamental and applied biological sciences. Psychology
Hydrogen-Ion Concentration
Hydrolases
In Vitro Techniques
Molecular Weight
Protein Conformation
Ribonucleases - antagonists & inhibitors
Ribonucleases - isolation & purification
Ribonucleases - metabolism
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Summary:For use in protein-folding studies, a rapid procedure for the preparation of octa-S-sulforibonuclease A (SO3-RNase A) with 2-nitro-5-(sulfothio)benzoate is described. The modification is specific for thiols and disulfide bonds. The modified protein was characterized and found to be enzymatically inactive and predominantly conformationally disordered. In the absence of thiols, the modified sulfhydryl groups were found to be stable over the pH range of 2-9. However, when the modified protein is incubated at neutral to slightly alkaline conditions for prolonged periods of time or at elevated temperatures, it undergoes a further (irreversible) modification that decreases its net charge at pH 8.0. Evidence is presented that demonstrates that this additional modification is due to the specific deamidation of asparagine-67. When incubated with an excess of reduced and oxidized glutathiones for 24 h at pH 8.2 and 25 degrees C, the reversible sulfo blocking group was removed, and essentially quantitative (94%) native enzymatic activity was regenerated from both SO3-RNase A and its deamidated derivative (SO3-RNase B). Although the two fully active refolded species differ in their elution behavior on ion-exchange chromatography, they are indistinguishable by many other methods. The significance of this finding for studies of the folding of RNase A is discussed.
ISSN:0006-2960
1520-4995
DOI:10.1021/bi00347a027