[1]Fudan University, Department of Chemistry,Shanghai,China
[2]Fudan University Shanghai Medical College, Institutes of Biomedical Sciences,Shanghai,China
[3]Shanghai Institute for Biological Sciences Chinese Academy of Sciences, Shanghai Center for Plant Stress Biology,Shanghai,China
Soluble guanylate cyclase (sGC) is a heme-containing metalloprotein in NO-sGC-cGMP signaling. NO binds to the heme of sGC to catalyze the synthesis of the second messenger cGMP, which plays a critical role in several physiological processes. However, the molecular mechanism for sGC to mediate the NO signaling remains unclear. Here fluorophore FlAsH-EDT2 and fluorescent proteins were employed to study the NO-induced sGC activation. FlAsH-EDT2 labeling study revealed that NO binding to the H-NOX domain of sGC increased the distance between H-NOX and PAS domain and the separation between H-NOX and coiled-coil domain. The heme pocket conformation changed from "closed" to "open" upon NO binding. In addition, the NO-induced conformational change of sGC was firstly investigated in vivo through fluorescence lifetime imaging microscopy. The results both in vitro and in vivo indicated the conformational change of the catalytic domain of sGC from "open" to "closed" upon NO binding. NO binding to the heme of H-NOX domain caused breaking of Fe-N coordination bond, initiated the domain moving and conformational change, induced the allosteric effect of sGC to trigger the NO-signaling from H-NOX via PAS and coiled-coil to the catalytic domain, and ultimately stimulates the cyclase activity of sGC. © 2017 The Author(s).
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