4.4 Article

A Difference between In Vitro and In-Cell Protein Dimer Formation

Journal

BIOCHEMISTRY
Volume 61, Issue 6, Pages 409-412

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acs.biochem.1c00780

Keywords

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Funding

  1. National Science Foundation [MCB-1909664]
  2. United States-Israel Binational Science Foundation [BSF 2017063]
  3. Government Scholarship to Study Abroad (Taiwan)

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The chemical interactions in cells play a crucial role in the stability of proteins and protein complexes. Research found that these interactions can unfold the molten globule form of proteins and alter the species present in cells.
The high concentration of macromolecules in cells affects the stability of proteins and protein complexes via hard repulsions and chemical interactions, yet few studies have focused on chemical interactions. We characterized the domain-swapped dimer of the B1 domain of protein G in buffer and Escherichia coli cells by using heteronuclear, multidimensional nuclear magnetic resonance spectroscopy. In buffer, the monomer is a partially folded molten globule, but that species is not observed in cells. Experiments using urea suggest that the monomer is unfolded in cells, but again, the molten-globule form of the monomer is absent. The data suggest that attractive chemical interactions in the cytoplasm unfold the molten globule. We conclude that the intracellular environment not only modulates the stability of protein complexes but also can change the species present, reinforcing the idea that chemical interactions are more important than hard repulsions in cells.

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