Hydrogen exchange studies of the Arc repressor: Evidence for a monomeric folding intermediate

M.J.M. Burgering, M. Hald, R. Boelens, J.N. Breg, R. Kaptein

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

The hydrogen exchange rates of the backbone amide and labile side-chain protons of the dimeric Arc repressor have been measured. For the slowly exchanging amides in the α-helical regions, these rates show a concentration dependence. To account for this dependence, the role of the monomer-dimer equilibrium was considered. Extrapolating the observed exchange rates to zero dimer concentration provides estimates of these rates in the monomer and shows that they are significantly retarded compared to those of an unfolded polypeptide. This suggests that the monomer is in a structured 'molten globule' like state. In particular, the two helices of Arc retain a high degree of their secondary structure and it is proposed that the two amphiphilic helices are packed together with their hydrophobic faces. Evidence for a partially folded structure at the Arc monomer was reported earlier in two other studies [J. L. Silva, C. F. Silveira, A., Correia Jr. and L. Pontes (1992) Journal of Molecular Biology, Vol. 223, pp., 545-555: X. Peng, J. Jonas, and J. L. Silva (1993) Proceedings of the National Academy of Science USA. Vol 90, pp. 1776-1780]. By combining the results of these studies and ours, a folding pathway of the dimeric Arc repressor involving four different stages is proposed. Due to the low concentration of Arc repressor in the cell, the protein is present either as a free monomer or it is bound to DNA presumably as a tetramer. Therefore the folding pathway can be regarded as an integral part of the overall DNA binding process.
Original languageEnglish
Pages (from-to)217-226
Number of pages10
JournalBiopolymers
Volume35
Issue number2
DOIs
Publication statusPublished - 29 Jan 1995

Keywords

  • article
  • concentration response
  • Escherichia coli
  • ion exchange
  • nonhuman
  • protein folding
  • protein secondary structure
  • proton transport

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