A metal binding in the polypeptide chain improves the folding efficiency of a denatured and reduced protein

Takatoshi Ohkuri, Tadashi Ueda, Yuichiro Yoshida, Yoshito Abe, Naotaka Hamasaki, Taiji Imoto

Research output: Contribution to journalArticlepeer-review

Abstract

In order to examine the effect of a metal binding to the polypeptide chain on the aggregation of a protein in the refolding process, we prepared a mutant hen lysozyme possessing the same Ca2+ binding site as in human a-lactalbumin by Escherichia coli expression system (Ser-1 CaB lysozyme). In the presence of 2 mM CaCl2, the refolding yield of Ser-1 CaB lysozyme at a low protein concentration (25 μg/mL) was similar to that of the wild-type lysozyme (80%), but that at high protein concentration (200 μg/mL) decreased (15%) due to aggregation comparing to that of the wild-type lysozyme (45%). However, the refolding yield of Ser-1 CaB lysozyme in the presence of 100 mM CaCl2 even at a protein concentration of 200 μg/mL was 80% and was higher than that of the wild-type lysozyme. From analysis of chemical shift changes of the cross peaks in the backbone region of total correlated spectroscopy (TOCSY) spectra of a decapeptide possessing the same calcium binding site as in Ser-1 CaB lysozyme in the presence of various concentrations of Ca2+, it was suggested that the dissociation constant of Ca2+-peptide complex was estimated to be 20-36 mM. Moreover, the solubility of the denatured Ser-1 CaB lysozyme in the presence of 100 mM CaCl2 was higher than that in the presence of 2 mM CaCl2 whereas the solubility of the denatured Ser-1 lysozyme in the presence of 100 mM CaCl2 was not higher than that in the presence of 2 mM CaCl2. Therefore, it was concluded that the reduced lysozyme possessing the Ca2+ binding site was efficiently folded in the presence of high concentration of Ca2+ (100 mM) even at high protein concentration due to depression of aggregation by the binding of Ca2+ to the polypeptide chain in Ser-1 CaB lysozyme.

Original languageEnglish
Pages (from-to)106-114
Number of pages9
JournalBiopolymers
Volume64
Issue number2
DOIs
Publication statusPublished - Jul 5 2002

All Science Journal Classification (ASJC) codes

  • Biophysics
  • Biochemistry
  • Biomaterials
  • Organic Chemistry

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