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Micellar TIA1 with folded RNA binding domains as a model for reversible stress granule formation.

Keith J FritzschingYizhuo YangEmily M PogueJoseph B RaymanEric R KandelAnn E McDermott
Published in: Proceedings of the National Academy of Sciences of the United States of America (2020)
TIA1, a protein critical for eukaryotic stress response and stress granule formation, is structurally characterized in full-length form. TIA1 contains three RNA recognition motifs (RRMs) and a C-terminal low-complexity domain, sometimes referred to as a "prion-related domain" or associated with amyloid formation. Under mild conditions, full-length (fl) mouse TIA1 spontaneously oligomerizes to form a metastable colloid-like suspension. RRM2 and RRM3, known to be critical for function, are folded similarly in excised domains and this oligomeric form of apo fl TIA1, based on NMR chemical shifts. By contrast, the termini were not detected by NMR and are unlikely to be amyloid-like. We were able to assign the NMR shifts with the aid of previously assigned solution-state shifts for the RRM2,3 isolated domains and homology modeling. We present a micellar model of fl TIA1 wherein RRM2 and RRM3 are colocalized, ordered, hydrated, and available for nucleotide binding. At the same time, the termini are disordered and phase separated, reminiscent of stress granule substructure or nanoscale liquid droplets.
Keyphrases
  • magnetic resonance
  • high resolution
  • solid state
  • stress induced
  • mass spectrometry
  • computed tomography
  • dna binding
  • transcription factor
  • amino acid
  • contrast enhanced