Backbone H, N, and C resonance assignments of the FF1 domain from P190A RhoGAP in 5 and 8 M urea.

The Rho GTPase (Ras homolog GTPases) system is a crucial signal transducer that regulates various cellular processes, including cell cycle and migration, genetic transcription, and apoptosis. In this study, we investigated the unfolded state of the first FF domain (FF1) of P190A RhoGAP, which features four tandem FF domains. For signal transduction, FF1 is phosphorylated at tyrosine 308 (Y308), which is buried in the hydrophobic core and is inaccessible to kinases in the folded domain. It was proposed, therefore, that the phosphorylation occurs in a transiently populated unfolded state of FF1. To probe the folding pathway of the RhoGAP FF1 domain, here we have performed a nearly complete backbone resonance assignments of a putative partially unfolded state of FF1 in 5 M urea and its fully unfolded state in 8 M urea.