Journal article
Architecture of the nitric-oxide synthase holoenzyme reveals large conformational changes and a calmodulin-driven release of the FMN domain
AL Yokom, Y Morishima, M Lau, M Su, A Glukhova, Y Osawa, DR Southworth
Journal of Biological Chemistry | AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC | Published : 2014
Abstract
Nitric-oxide synthase (NOS) is required in mammals to generate NO for regulating blood pressure, synaptic response, and immune defense. NOS is a large homodimer with well characterized reductase and oxygenase domains that coordinate a multistep, interdomain electron transfer mechanism to oxidize L-arginine and generate NO. Ca2+-calmodulin (CaM) binds between the reductase and oxygenase domains to activate NO synthesis. Although NOS has long been proposed to adopt distinct conformations that alternate between interflavin and FMN-heme electron transfer steps, structures of the holoenzyme have remained elusive and the CaM-bound arrangement is unknown. Here we have applied single particle electr..
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Awarded by National Institute of General Medical Sciences
Funding Acknowledgements
This work was supported by an American Heart Association Scientist Development Grant, National Institutes of Health Grant GM077430 (to Y. O.), and the University of Michigan Protein Folding Diseases Initiative.