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Journal Abstract Search

255 related items for PubMed ID: 12042776

  • 1. Nitric oxide in the human respiratory cycle.
    McMahon TJ, Moon RE, Luschinger BP, Carraway MS, Stone AE, Stolp BW, Gow AJ, Pawloski JR, Watke P, Singel DJ, Piantadosi CA, Stamler JS.
    Nat Med; 2002 Jul; 8(7):711-7. PubMed ID: 12042776
    [Abstract] [Full Text] [Related]

  • 2. Role of Nitric Oxide Carried by Hemoglobin in Cardiovascular Physiology: Developments on a Three-Gas Respiratory Cycle.
    Premont RT, Reynolds JD, Zhang R, Stamler JS.
    Circ Res; 2020 Jan 03; 126(1):129-158. PubMed ID: 31590598
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  • 6. Red Blood Cell-Mediated S-Nitrosohemoglobin-Dependent Vasodilation: Lessons Learned from a β-Globin Cys93 Knock-In Mouse.
    Premont RT, Reynolds JD, Zhang R, Stamler JS.
    Antioxid Redox Signal; 2021 Apr 20; 34(12):936-961. PubMed ID: 32597195
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  • 7. SNO-hemoglobin is not essential for red blood cell-dependent hypoxic vasodilation.
    Isbell TS, Sun CW, Wu LC, Teng X, Vitturi DA, Branch BG, Kevil CG, Peng N, Wyss JM, Ambalavanan N, Schwiebert L, Ren J, Pawlik KM, Renfrow MB, Patel RP, Townes TM.
    Nat Med; 2008 Jul 20; 14(7):773-7. PubMed ID: 18516054
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  • 8. Hemoglobin β93 Cysteine Is Not Required for Export of Nitric Oxide Bioactivity From the Red Blood Cell.
    Sun CW, Yang J, Kleschyov AL, Zhuge Z, Carlström M, Pernow J, Wajih N, Isbell TS, Oh JY, Cabrales P, Tsai AG, Townes T, Kim-Shapiro DB, Patel RP, Lundberg JO.
    Circulation; 2019 Jun 04; 139(23):2654-2663. PubMed ID: 30905171
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  • 10. Optimized S-nitrosohemoglobin Synthesis in Red Blood Cells to Preserve Hypoxic Vasodilation Via βCys93.
    Hausladen A, Qian Z, Zhang R, Premont RT, Stamler JS.
    J Pharmacol Exp Ther; 2022 Jul 04; 382(1):1-10. PubMed ID: 35512801
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  • 12. A nitric oxide processing defect of red blood cells created by hypoxia: deficiency of S-nitrosohemoglobin in pulmonary hypertension.
    McMahon TJ, Ahearn GS, Moya MP, Gow AJ, Huang YC, Luchsinger BP, Nudelman R, Yan Y, Krichman AD, Bashore TM, Califf RM, Singel DJ, Piantadosi CA, Tapson VF, Stamler JS.
    Proc Natl Acad Sci U S A; 2005 Oct 11; 102(41):14801-6. PubMed ID: 16203976
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  • 14. Essential Role of Hemoglobin βCys93 in Cardiovascular Physiology.
    Premont RT, Stamler JS.
    Physiology (Bethesda); 2020 Jul 01; 35(4):234-243. PubMed ID: 32490751
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  • 15. Chemical physiology of blood flow regulation by red blood cells: the role of nitric oxide and S-nitrosohemoglobin.
    Singel DJ, Stamler JS.
    Annu Rev Physiol; 2005 Jul 01; 67():99-145. PubMed ID: 15709954
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  • 16. An S-nitrosothiol (SNO) synthase function of hemoglobin that utilizes nitrite as a substrate.
    Angelo M, Singel DJ, Stamler JS.
    Proc Natl Acad Sci U S A; 2006 May 30; 103(22):8366-71. PubMed ID: 16717191
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  • 17. Vasorelaxation by red blood cells and impairment in diabetes: reduced nitric oxide and oxygen delivery by glycated hemoglobin.
    James PE, Lang D, Tufnell-Barret T, Milsom AB, Frenneaux MP.
    Circ Res; 2004 Apr 16; 94(7):976-83. PubMed ID: 14963010
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  • 18. Hypoxic vasodilatory defect and pulmonary hypertension in mice lacking hemoglobin β-cysteine93 S-nitrosylation.
    Zhang R, Hausladen A, Qian Z, Liao X, Premont RT, Stamler JS.
    JCI Insight; 2022 Feb 08; 7(3):. PubMed ID: 34914637
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  • 19. Effects of S-nitrosation of hemoglobin on hypoxic pulmonary vasoconstriction and nitric oxide flux.
    Deem S, Gladwin MT, Berg JT, Kerr ME, Swenson ER.
    Am J Respir Crit Care Med; 2001 Apr 08; 163(5):1164-70. PubMed ID: 11316654
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  • 20. Extrapulmonary effects of inhaled nitric oxide: role of reversible S-nitrosylation of erythrocytic hemoglobin.
    McMahon TJ, Doctor A.
    Proc Am Thorac Soc; 2006 Apr 08; 3(2):153-60. PubMed ID: 16565424
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