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  • Conformational Priming of RepA-WH1 for Functional Amyloid Conversion Detected by NMR Spectroscopy.

Conformational Priming of RepA-WH1 for Functional Amyloid Conversion Detected by NMR Spectroscopy.

Structure (London, England : 1993) (2020-01-11)
David Pantoja-Uceda, Javier Oroz, Cristina Fernández, Eva de Alba, Rafael Giraldo, Douglas V Laurents
ABSTRACT

How proteins with a stable globular fold acquire the amyloid state is still largely unknown. RepA, a versatile plasmidic DNA binding protein from Pseudomonas savastanoi, is functional as a transcriptional repressor or as an initiator or inhibitor of DNA replication, the latter via assembly of an amyloidogenic oligomer. Its N-terminal domain (WH1) is responsible for discrimination between these functional abilities by undergoing insufficiently understood structural changes. RepA-WH1 is a stable dimer whose conformational dynamics had not been explored. Here, we have studied it through NMR {1H}-15N relaxation and H/D exchange kinetics measurements. The N- and the C-terminal α-helices, and the internal amyloidogenic loop, are partially unfolded in solution. S4-indigo, a small inhibitor of RepA-WH1 amyloidogenesis, binds to and tethers the N-terminal α-helix to a β-hairpin that is involved in dimerization, thus providing evidence for a priming role of fraying ends and dimerization switches in the amyloidogenesis of folded proteins.

MATERIALS
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Sigma-Aldrich
Potassium indigotetrasulfonate, Dye content 85 %