Nature Communications (Jul 2022)

Nanoscale regulation of Ca2+ dependent phase transitions and real-time dynamics of SAP97/hDLG

  • Premchand Rajeev,
  • Nivedita Singh,
  • Adel Kechkar,
  • Cory Butler,
  • Narendrakumar Ramanan,
  • Jean-Baptiste Sibarita,
  • Mini Jose,
  • Deepak Nair

DOI
https://doi.org/10.1038/s41467-022-31912-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 18

Abstract

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SAP97/hDLG is a ubiquitous, alternatively spliced, and conserved modular scaffolding protein involved in the organization cell junctions and excitatory synapses. Here, authors confirm that SAP97/hDLG condenses in to nanosized molecular domains in both heterologous cells and hippocampal pyramidal neurons. Authors demonstrate that in vivo and in vitro condensation, molecular signatures of nanoscale condensates and exchange kinetics of SAP97/hDLG is modulated by the local availability of alternatively spliced isoforms. Additionally, SAP97/hDLG isoforms exhibits a differential sensitivity to Ca2+ bound Calmodulin, resulting in altered properties of nanocondensates and their real-time regulation