The mechanochemistry of copper reports on the directionality of unfolding in model cupredoxin proteins

Understanding the directionality and sequence of protein unfolding is crucial to elucidate the underlying folding free energy landscape. An extra layer of complexity is added in metalloproteins, where a metal cofactor participates in the correct, functional fold of the protein. However, the precise mechanisms by which organometallic interactions are dynamically broken and reformed on (un)folding are largely unknown. Here we use single molecule force spectroscopy AFM combined with protein engineering and MD simulations to study the individual unfolding pathways of the blue-copper proteins azurin and plastocyanin. Using the nanomechanical properties of the native copper centre as a structurally embedded molecular reporter, we demonstrate that both proteins unfold via two independent, competing pathways. Our results provide experimental evidence of a novel kinetic partitioning scenario whereby the protein can stochastically unfold through two distinct main transition states placed at the N and C termini that dictate the direction in which unfolding occurs. In metalloproteins, a metal cofactor participates in the formation of the correct fold. Here the authors demonstrate—using single molecule force spectroscopy and the native copper centre as an embedded internal reporter—that the blue-copper proteins azurin and plastocyanin unfold via two independent competing pathways under force.

• Publication year

  2015

• Venue

  Nature Communications

• Publication date

  2015-08-03

• Fields of study

  Medicine, Chemistry

• Identifiers
  DOI 10.1038/ncomms8894PMID 26235284PMCID 4532836
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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