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Journal Abstract Search

224 related items for PubMed ID: 19805284

  • 1. NO formation by a catalytically self-sufficient bacterial nitric oxide synthase from Sorangium cellulosum.
    Agapie T, Suseno S, Woodward JJ, Stoll S, Britt RD, Marletta MA.
    Proc Natl Acad Sci U S A; 2009 Sep 22; 106(38):16221-6. PubMed ID: 19805284
    [Abstract] [Full Text] [Related]

  • 2. A tryptophan that modulates tetrahydrobiopterin-dependent electron transfer in nitric oxide synthase regulates enzyme catalysis by additional mechanisms.
    Wang ZQ, Wei CC, Santolini J, Panda K, Wang Q, Stuehr DJ.
    Biochemistry; 2005 Mar 29; 44(12):4676-90. PubMed ID: 15779894
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  • 3. A nitric oxide synthase-like protein from Synechococcus produces NO/NO3- from l-arginine and NADPH in a tetrahydrobiopterin- and Ca2+-dependent manner.
    Picciano AL, Crane BR.
    J Biol Chem; 2019 Jul 05; 294(27):10708-10719. PubMed ID: 31113865
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  • 4. Domain swapping in inducible nitric-oxide synthase. Electron transfer occurs between flavin and heme groups located on adjacent subunits in the dimer.
    Siddhanta U, Presta A, Fan B, Wolan D, Rousseau DL, Stuehr DJ.
    J Biol Chem; 1998 Jul 24; 273(30):18950-8. PubMed ID: 9668073
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  • 8. Electron transfer, oxygen binding, and nitric oxide feedback inhibition in endothelial nitric-oxide synthase.
    Abu-Soud HM, Ichimori K, Presta A, Stuehr DJ.
    J Biol Chem; 2000 Jun 09; 275(23):17349-57. PubMed ID: 10749853
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  • 9. A conserved aspartate (Asp-1393) regulates NADPH reduction of neuronal nitric-oxide synthase: implications for catalysis.
    Panda K, Adak S, Konas D, Sharma M, Stuehr DJ.
    J Biol Chem; 2004 Apr 30; 279(18):18323-33. PubMed ID: 14966111
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  • 10. Influence of heme-thiolate in shaping the catalytic properties of a bacterial nitric-oxide synthase.
    Hannibal L, Somasundaram R, Tejero J, Wilson A, Stuehr DJ.
    J Biol Chem; 2011 Nov 11; 286(45):39224-35. PubMed ID: 21921039
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  • 11. Catalytically functional flavocytochrome chimeras of P450 BM3 and nitric oxide synthase.
    Fuziwara S, Sagami I, Rozhkova E, Craig D, Noble MA, Munro AW, Chapman SK, Shimizu T.
    J Inorg Biochem; 2002 Sep 20; 91(4):515-26. PubMed ID: 12237219
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  • 15. Site and mechanism of uncoupling of nitric-oxide synthase: Uncoupling by monomerization and other misconceptions.
    Gebhart V, Reiß K, Kollau A, Mayer B, Gorren ACF.
    Nitric Oxide; 2019 Aug 01; 89():14-21. PubMed ID: 31022534
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  • 16. Chimeric enzymes of cytochrome P450 oxidoreductase and neuronal nitric-oxide synthase reductase domain reveal structural and functional differences.
    Roman LJ, McLain J, Masters BS.
    J Biol Chem; 2003 Jul 11; 278(28):25700-7. PubMed ID: 12730215
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  • 17. Macrophage nitric oxide synthase subunits. Purification, characterization, and role of prosthetic groups and substrate in regulating their association into a dimeric enzyme.
    Baek KJ, Thiel BA, Lucas S, Stuehr DJ.
    J Biol Chem; 1993 Oct 05; 268(28):21120-9. PubMed ID: 7691806
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  • 18. Calmodulin activates intersubunit electron transfer in the neuronal nitric-oxide synthase dimer.
    Panda K, Ghosh S, Stuehr DJ.
    J Biol Chem; 2001 Jun 29; 276(26):23349-56. PubMed ID: 11325964
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  • 19. Electron transfer is activated by calmodulin in the flavin domain of human neuronal nitric oxide synthase.
    Guan ZW, Iyanagi T.
    Arch Biochem Biophys; 2003 Apr 01; 412(1):65-76. PubMed ID: 12646269
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  • 20. Direct evidence for nitric oxide production by a nitric-oxide synthase-like protein from Bacillus subtilis.
    Adak S, Aulak KS, Stuehr DJ.
    J Biol Chem; 2002 May 03; 277(18):16167-71. PubMed ID: 11856757
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