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Literature DB >> 20370423

Bacterial nitric oxide synthases.

Brian R Crane¹, Jawahar Sudhamsu, Bhumit A Patel.

Abstract

Nitric oxide synthases (NOSs) are multidomain metalloproteins first identified in mammals as being responsible for the synthesis of the wide-spread signaling and protective agent nitric oxide (NO). Over the past 10 years, prokaryotic proteins that are homologous to animal NOSs have been identified and characterized, both in terms of enzymology and biological function. Despite some interesting differences in cofactor utilization and redox partners, the bacterial enzymes are in many ways similar to their mammalian NOS (mNOS) counterparts and, as such, have provided insight into the structural and catalytic properties of the NOS family. In particular, spectroscopic studies of thermostable bacterial NOSs have revealed key oxyheme intermediates involved in the oxidation of substrate L-arginine (Arg) to product NO. The biological functions of some bacterial NOSs have only more recently come to light. These studies disclose new roles for NO in biology, such as taking part in toxin biosynthesis, protection against oxidative stress, and regulation of recovery from radiation damage.

Entities: Chemical Species

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Year: 2010 PMID： 20370423 DOI： 10.1146/annurev-biochem-062608-103436

Source DB: PubMed Journal: Annu Rev Biochem ISSN： 0066-4154 Impact factor: 23.643

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Cited

70 in total

1. Pulsed ENDOR determination of the arginine location in the ferrous-NO form of neuronal NOS.

Authors: Andrei V Astashkin; Bradley O Elmore; Li Chen; Weihong Fan; J Guy Guillemette; Changjian Feng
Journal: J Phys Chem A Date: 2012-06-15 Impact factor: 2.781

2. Gating NO release from nitric oxide synthase.

Authors: Charlotte A Whited; Jeffrey J Warren; Katherine D Lavoie; Emily E Weinert; Theodor Agapie; Jay R Winkler; Harry B Gray
Journal: J Am Chem Soc Date: 2011-12-07 Impact factor: 15.419

3. Characterization of a nitric oxide synthase from the plant kingdom: NO generation from the green alga Ostreococcus tauri is light irradiance and growth phase dependent.

Authors: Noelia Foresi; Natalia Correa-Aragunde; Gustavo Parisi; Gonzalo Caló; Graciela Salerno; Lorenzo Lamattina
Journal: Plant Cell Date: 2010-11-30 Impact factor: 11.277

10. Methylated N(ω)-hydroxy-L-arginine analogues as mechanistic probes for the second step of the nitric oxide synthase-catalyzed reaction.

Authors: Kristin Jansen Labby; Huiying Li; Linda J Roman; Pavel Martásek; Thomas L Poulos; Richard B Silverman
Journal: Biochemistry Date: 2013-04-26 Impact factor: 3.162

Bacterial nitric oxide synthases.

1. Pulsed ENDOR determination of the arginine location in the ferrous-NO form of neuronal NOS.

2. Gating NO release from nitric oxide synthase.

3. Characterization of a nitric oxide synthase from the plant kingdom: NO generation from the green alga Ostreococcus tauri is light irradiance and growth phase dependent.

4. Malaria and the Microbiome: A Systematic Review.

5. Host Nitric Oxide Disrupts Microbial Cell-to-Cell Communication to Inhibit Staphylococcal Virulence.

6. Distinct Nitrite and Nitric Oxide Physiologies in Escherichia coli and Shewanella oneidensis.

Review 7. Heteroatom-Heteroatom Bond Formation in Natural Product Biosynthesis.

8. Inhibitor Bound Crystal Structures of Bacterial Nitric Oxide Synthase.

9. Staphylococcus aureus nitric oxide synthase (saNOS) modulates aerobic respiratory metabolism and cell physiology.

10. Methylated N(ω)-hydroxy-L-arginine analogues as mechanistic probes for the second step of the nitric oxide synthase-catalyzed reaction.