2014
DOI: 10.1074/jbc.m114.564005
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Architecture of the Nitric-oxide Synthase Holoenzyme Reveals Large Conformational Changes and a Calmodulin-driven Release of the FMN Domain

Abstract: Background: NOS enzymes are large, dimeric complexes essential in mammalian physiology. Results: EM structural analysis and three-dimensional models reveal nNOS reductase-oxygenase arrangements and a CaMdependent rotation of the FMN domain. Conclusion: Coordinated conformational changes act to reposition the FMN domain for electron transfer. Significance: This work captures structural states of the NOS holoenzyme that drive the NO synthesis cycle.

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Cited by 41 publications
(70 citation statements)
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“…Furthermore, the enforcement of C2 symmetry during the reconstruction steps may bias the analysis. It is notable that the 2D class averages obtained by Yokom et al (13) for the nNOS-CaM complex in the absence of chemical cross-linking are in complete agreement with those reported here.…”
Section: Discussionsupporting
confidence: 81%
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“…Furthermore, the enforcement of C2 symmetry during the reconstruction steps may bias the analysis. It is notable that the 2D class averages obtained by Yokom et al (13) for the nNOS-CaM complex in the absence of chemical cross-linking are in complete agreement with those reported here.…”
Section: Discussionsupporting
confidence: 81%
“…Each of these linkers could adopt a variety of orientations, providing significant conformational flexibility between the reductase and oxidase domains. The observed conformational flexibility was consistent with the 2D class averages of a recent nNOS EM study (13). This conformational flexibility allowed us to examine snapshots of the NOS holoenzyme in the input and the output state as well as many intermediate states.…”
Section: Discussionsupporting
confidence: 55%
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“…Although several structures of isolated domains of the NOS isoforms have been determined (Li et al, 2001; Raman et al, 1998; Zhang et al, 2001; Crane et al, 1997; Crane et al, 1998; Garcin et al, 2004), currently there is no full-length atomic structure available for any of the NOS isoforms, as multiple attempts to determine the X-ray structures have met with failure. A recent electron microscopy study employing negative staining of chemically cross-linked nNOS holoenzymes (Yokom et al, 2014) is not only of a different isoform, it also suffers from potential sample preparation artifacts and an electron cryo-microscopy study of eNOS holoenzymes only shows incomplete density that only accommodates the oxygenase domains (Persechini et al, 2013), leaving the conformations of the eNOS holoenzyme an open question.…”
Section: Introductionmentioning
confidence: 99%