References

Adams V, Linke A, Kränkel N, Erbs S, Gielen S, Möbius-Winkler S, Gummert JF, Mohr FW, Schuler G, Hambrecht R. (2005) Impact of regular physical activity on the NAD(P)H oxidase and angiotensin receptor system in patients with coronary artery disease. Circulation. Feb 8;111(5):555-62.

Ahmad, F. U., M. A. Sattar, H. A. Rathore, M. H. Abdullah, S. Tan, N. A. Abdullah and E. J. Johns (2012). "Exogenous hydrogen sulfide (H2S) reduces blood pressure and prevents the progression of diabetic nephropathy in spontaneously hypertensive rats." Ren Fail 34(2): 203-210.

Bedard K, Lardy B, Krause KH. (2007) NOX family NADPH oxidases: not just in mammals. Biochimie. Sep;89(9):1107-12.

Berchner-Pfannschmidt U, Yamac H, Trinidad B, Fandrey J.(2007) Nitric oxide modulates oxygen sensing by hypoxia-inducible factor 1-dependent induction of prolyl hydroxylase 2. J Biol Chem. 2007 Jan 19;282(3):1788-96.

Boros, M., M. Ghyczy, D. Erces, G. Varga, T. Tokes, K. Kupai, C. Torday and J. Kaszaki (2012). "The anti-inflammatory effects of methane." Crit Care Med 40(4): 1269-1278.

Chen, S. J., X. H. Yan, X. Y. Zhu, M. Hu, S. G. Hu and W. J. Yuan (2010). "[Effect of hydrogen sulfide on antiatherosclerosis in rats]." Zhongguo Ying Yong Sheng Li Xue Za Zhi 26(1): 1-7.

Superoxide Production and Expression of Nox Family Proteins in Human Atherosclerosis (2002) Dan Sorescu, MD; Daiana Weiss, MD; Bernard Lassègue, PhD; Roza E. Clempus, MD; Katalin Szöcs, MD; George P. Sorescu, MD; Liisa Valppu, BS; Mark T. Quinn, PhD; J. David Lambeth, MD; J. David Vega, MD; W. Robert Taylor, MD, PhD; Kathy K. Griendling, PhD; Circulation. 105:1429-1435.)

Deinega, V. G. (1968). "[On some peculiarities of reation of the body of albino rats to hypoxia during inhalation of methane-oxygen mixtures]." Farmakol Toksikol 31(4): 494-497.

Di Filippo, C., F. Rossi and M. D'Amico (2007). Targeting polymorphonuclear leukocytes in acute myocardial infarction. ScientificWorldJournal 7: 121-134.

Dillard CJ, Litov RE, Savin WM, Dumelin EE, Tappel AL. (1978) Effects of exercise, vitamin E, and ozone on pulmonary function and lipid peroxidation. J Appl Physiol Respir Environ Exerc Physiol. Dec;45(6):927-32.

Drummond GR, Selemidis S, Griendling KK, Sobey CG.(2011) Combating oxidative stress in vascular disease: NADPH oxidases as therapeutic targets. Nat Rev Drug Discov. 2011 Jun;10(6):453-71.
Elrod, J. W., J. W. Calvert, J. Morrison, J. E. Doeller, D. W. Kraus, L. Tao, X. Jiao, R. Scalia, L. Kiss, C. Szabo, H. Kimura, C. W. Chow and D. J. Lefer (2007). "Hydrogen sulfide attenuates myocardial ischemia-reperfusion injury by preservation of mitochondrial function." Proc Natl Acad Sci U S A 104(39): 15560-15565.

Fukai T, Siegfried MR, Ushio-Fukai M, Cheng Y, Kojda G, Harrison DG. (2000) Regulation of the vascular extracellular superoxide dismutase by nitric oxide and exercise training. J Clin Invest. Jun;105(11):1631-9.

Ghyczy, M., C. Torday, J. Kaszaki, A. Szabo, M. Czobel and M. Boros (2008). "Hypoxia-induced generation of methane in mitochondria and eukaryotic cells: an alternative approach to methanogenesis." Cell Physiol Biochem 21(1-3): 251-258.

Givvimani, S., C. Munjal, R. Gargoum, U. Sen, N. Tyagi, J. C. Vacek and S. C. Tyagi (2011). "Hydrogen sulfide mitigates transition from compensatory hypertrophy to heart failure." J Appl Physiol (1985) 110(4): 1093-1100.

Goel K, Shen J, Wolter AD, Beck KM, Leth SE, Thomas RJ, Squires RW, Perez-Terzic CM. (2010) Prevalence of musculoskeletal and balance disorders in patients enrolled in phase II cardiac rehabilitation. J Cardiopulm Rehabil Prev. Jul-Aug;30(4):235-9.

Gross GJ, Peart JN. (2003) KATP channels and myocardial preconditioning: an update. Am J Physiol Heart Circ Physiol. Sep;285(3):H921-30.

Hambrecht R, Adams V, Erbs S, Linke A, Kränkel N, Shu Y, Baither Y, Gielen S, Thiele H, Gummert JF, Mohr FW, Schuler G. (2003) Regular physical activity improves endothelial function in patients with coronary artery disease by increasing phosphorylation of endothelial nitric oxide synthase. Circulation. Jul 1;107(25):3152-8.

Harold D Schultz , Rodrigo Del Rio, Yanfeng Ding, and Noah J Marcus (2012) Role of Neurotransmitter Gases in the Control of the Carotid Body in Heart Failure. Respir Physiol Neurobiol. November 15; 184(2): 197–203.

Heyworth PG, Knaus UG, Settleman J, Curnutte JT, Bokoch GM. (1993) Regulation of NADPH oxidase activity by Rac GTPase activating protein(s). Mol Biol Cell. Nov;4(11):1217-23.

Jackson-Weaver, O., J. M. Osmond, M. A. Riddle, J. S. Naik, L. V. Gonzalez Bosc, B. R. Walker and N. L. Kanagy (2013). "Hydrogen sulfide dilates rat mesenteric arteries by activating endothelial large-conductance Ca(2)(+)-activated K(+) channels and smooth muscle Ca(2)(+) sparks." Am J Physiol Heart Circ Physiol 304(11): H1446-1454.

Jenkins NT, Witkowski S, Spangenburg EE, Hagberg JM (2009). Effects of acute and chronic endurance exercise on intracellular nitric oxide in putative endothelial progenitor cells: role of NAPDH oxidase. Am J Physiol Heart Circ Physiol. Nov;297(5):H1798-805.

Jiang, B., G. Tang, K. Cao, L. Wu and R. Wang (2010). "Molecular mechanism for H(2)S-induced activation of K(ATP) channels." Antioxid Redox Signal 12(10): 1167-1178.

King, A. L., D. J. Polhemus, S. Bhushan, H. Otsuka, K. Kondo, C. K. Nicholson, J. M. Bradley, K. N. Islam, J. W. Calvert, Y. X. Tao, T. R. Dugas, E. E. Kelley, J. W. Elrod, P. L. Huang, R. Wang and D. J. Lefer (2014). "Hydrogen sulfide cytoprotective signaling is endothelial nitric oxide synthase-nitric oxide dependent." Proc Natl Acad Sci U S A 111(8): 3182-3187.

K K Griendling (2004) Novel NAD(P)H oxidases in the cardiovascular system Heart. May; 90(5): 491–493.

Laggner, H., M. K. Muellner, S. Schreier, B. Sturm, M. Hermann, M. Exner, B. M. Gmeiner and S. Kapiotis (2007). "Hydrogen sulphide: a novel physiological inhibitor of LDL atherogenic modification by HOCl." Free Radic Res 41(7): 741-747.

Li JM, Shah AM.(2002) Intracellular localization and preassembly of the NADPH oxidase complex in cultured endothelial cells. J Biol Chem.May 31;277(22):19952-60.

Lu, F., J. Xing, X. Zhang, S. Dong, Y. Zhao, L. Wang, H. Li, F. Yang, C. Xu and W. Zhang (2013). "Exogenous hydrogen sulfide prevents cardiomyocyte apoptosis from cardiac hypertrophy induced by isoproterenol." Mol Cell Biochem 381(1-2): 41-50.

Lambeth JD, Kawahara T, Diebold B. (2007)Regulation of Nox and Duox enzymatic activity and expression. Free Radic Biol Med. Aug 1;43(3):319-31.

Luan, H. F., Z. B. Zhao, Q. H. Zhao, P. Zhu, M. Y. Xiu and Y. Ji (2012). "Hydrogen sulfide postconditioning protects isolated rat hearts against ischemia and reperfusion injury mediated by the JAK2/STAT3 survival pathway." Braz J Med Biol Res 45(10): 898-905.

Mani, S., H. Li, A. Untereiner, L. Wu, G. Yang, R. C. Austin, J. G. Dickhout, S. Lhotak, Q. H. Meng and R. Wang (2013). "Decreased endogenous production of hydrogen sulfide accelerates atherosclerosis." Circulation 127(25): 2523-2534.

Matute JD1, Arias AA, Dinauer MC, Patiño PJ. (2005) p40phox: the last NADPH oxidase subunit. Blood Cells Mol Dis. Sep-Oct;35(2):291-302.

Marczin, N., N. El-Habashi, G. S. Hoare, R. E. Bundy and M. Yacoub (2003). "Antioxidants in myocardial ischemia-reperfusion injury: therapeutic potential and basic mechanisms." Arch Biochem Biophys 420(2): 222-236.

McCann SK, Roulston CL. (2013) NADPH Oxidase as a Therapeutic Target for Neuroprotection against Ischaemic Stroke: Future Perspectives. Brain Sci. Apr 22;3(2):561-98.

Meng-Ling Wu,Yen-Chun Ho, Chen-Yu Lin, Shaw-Fang Yet (2011) Heme oxygenase-1 in inflammation and cardiovascular disease; Am J Cardiovasc Dis. 2011; 1(2): 150–158.

Meyer, M., U. Tebbe and J. Piiper (1980). "Solubility of inert gases in dog blood and skeletal muscle." Pflugers Arch 384(2): 131-134.
Ahmad, F. U., M. A. Sattar, H. A. Rathore, M. H. Abdullah, S. Tan, N. A. Abdullah and E. J. Johns (2012). "Exogenous hydrogen sulfide (H2S) reduces blood pressure and prevents the progression of diabetic nephropathy in spontaneously hypertensive rats." Ren Fail 34(2): 203-210.

Bedard K, Lardy B, Krause KH. (2007) NOX family NADPH oxidases: not just in mammals. Biochimie. Sep;89(9):1107-12.

Boros, M., M. Ghyczy, D. Erces, G. Varga, T. Tokes, K. Kupai, C. Torday and J. Kaszaki (2012). "The anti-inflammatory effects of methane." Crit Care Med 40(4): 1269-1278.

Chen, S. J., X. H. Yan, X. Y. Zhu, M. Hu, S. G. Hu and W. J. Yuan (2010). "[Effect of hydrogen sulfide on antiatherosclerosis in rats]." Zhongguo Ying Yong Sheng Li Xue Za Zhi 26(1): 1-7.

Deinega, V. G. (1968). "[On some peculiarities of reation of the body of albino rats to hypoxia during inhalation of methane-oxygen mixtures]." Farmakol Toksikol 31(4): 494-497.

Di Filippo, C., F. Rossi and M. D'Amico (2007). Targeting polymorphonuclear leukocytes in acute myocardial infarction. ScientificWorldJournal 7: 121-134.

Elrod, J. W., J. W. Calvert, J. Morrison, J. E. Doeller, D. W. Kraus, L. Tao, X. Jiao, R. Scalia, L. Kiss, C. Szabo, H. Kimura, C. W. Chow and D. J. Lefer (2007). "Hydrogen sulfide attenuates myocardial ischemia-reperfusion injury by preservation of mitochondrial function." Proc Natl Acad Sci U S A 104(39): 15560-15565.

Forman HJ, Torres M.(2002)Reactive oxygen species and cell signaling: respiratory burst in macrophage signaling. Am J Respir Crit Care Med. Dec 15;166(12 Pt 2):S4-8.

Gross GJ, Peart JN. (2003) KATP channels and myocardial preconditioning: an update. Am J Physiol Heart Circ Physiol. Sep;285(3):H921-30.

Heyworth PG, Knaus UG, Settleman J, Curnutte JT, Bokoch GM. (1993) Regulation of NADPH oxidase activity by Rac GTPase activating protein(s). Mol Biol Cell. Nov;4(11):1217-23.

Jiang, B., G. Tang, K. Cao, L. Wu and R. Wang (2010). "Molecular mechanism for H(2)S-induced activation of K(ATP) channels." Antioxid Redox Signal 12(10): 1167-1178.

Kazim Husain, Stephen R. Hazelrigg. (2002) Oxidative injury due to chronic nitric oxide synthas e inhibition in rat:effect of regular exercis e on the heart. Biochimica et Biophysica Acta 1587, 75– 82.
Karimi G, Houée Levin C, Dagher MC, Baciou L, Bizouarn T.(2014) Assembly of phagocyte NADPH oxidase: A concerted binding process? Biochim Biophys Acta.Nov;1840(11):3277-83. doi: 10.1016/j.bbagen.2014.07.022. Epub 2014 Aug 7.

Krause KH (2004) Tissue distribution and putative physiological function of NOX family NADPH oxidases. Jpn J Infect Dis. Oct;57(5):S28-9.

Li JM, Shah AM.(2002) Intracellular localization and preassembly of the NADPH oxidase complex in cultured endothelial cells. J Biol Chem.May 31;277(22):19952-60.

Lambeth JD, Kawahara T, Diebold B. (2007)Regulation of Nox and Duox enzymatic activity and expression. Free Radic Biol Med. Aug 1;43(3):319-31.

Lassègue B, San Martín A, Griendling KK.(2012) Biochemistry, physiology, and pathophysiology of NADPH oxidases in the cardiovascular system. Circ Res. 2012 May 11;110(10):1364-90.

Loria, V., I. Dato, F. Graziani and L. M. Biasucci (2008). "Myeloperoxidase: a new biomarker of inflammation in ischemic heart disease and acute coronary syndromes." Mediators Inflamm 2008: 135625.

Matute JD1, Arias AA, Dinauer MC, Patiño PJ. (2005) p40phox: the last NADPH oxidase subunit. Blood Cells Mol Dis. Sep-Oct;35(2):291-302.

Maejima Y, Kuroda J, Matsushima S, Ago T, Sadoshima J.Regulation of myocardial growth and death by NADPH oxidase. J Mol Cell Cardiol. 2011 Mar;50(3):408-16. doi: 10.1016/j.yjmcc.2010.12.018. Epub 2011 Jan 6.

McCann SK, Roulston CL. (2013) NADPH Oxidase as a Therapeutic Target for Neuroprotection against Ischaemic Stroke: Future Perspectives. Brain Sci. Apr 22;3(2):561-98.

Meng-Ling Wu,Yen-Chun Ho, Chen-Yu Lin, Shaw-Fang Yet (2011) Heme oxygenase-1 in inflammation and cardiovascular disease; Am J Cardiovasc Dis. 2011; 1(2): 150–158.

Meyer, M., U. Tebbe and J. Piiper (1980). "Solubility of inert gases in dog blood and skeletal muscle." Pflugers Arch 384(2): 131-134.

Miyachi M1, Yazawa H, Furukawa M, Tsuboi K, Ohtake M, Nishizawa T, Hashimoto K, Yokoi T, Kojima T, Murate T, Yokota M, Murohara T, Koike Y, Nagata K. (2009)
Exercise training alters left ventricular geometry and attenuates heart failure in dahl salt-sensitive hypertensive rats. Hypertension. Apr;53(4):701-7.

Mok, Y. Y., M. S. Atan, C. Yoke Ping, W. Zhong Jing, M. Bhatia, S. Moochhala and P. K. Moore (2004). "Role of hydrogen sulphide in haemorrhagic shock in the rat: protective effect of inhibitors of hydrogen sulphide biosynthesis." Br J Pharmacol 143(7): 881-889.

Moody BF1, Calvert JW. (2011)Emergent role of gasotransmitters in ischemia-reperfusion injury Med Gas Res. Apr 27;1(1):3

Moody BF1, Calvert JW. (2011)Emergent role of gasotransmitters in ischemia-reperfusion injury Med Gas Res. Apr 27;1(1):3
Montezano AC, Burger D, Ceravolo GS, Yusuf H, Montero M, Touyz RM. Novel Nox homologues in the vasculature: focusing on Nox4 and Nox5. Clin Sci (Lond). 2011 Feb;120(4):131-41.

Muellner, M. K., S. M. Schreier, H. Laggner, M. Hermann, H. Esterbauer, M. Exner, B. M. Gmeiner and S. Kapiotis (2009). "Hydrogen sulfide destroys lipid hydroperoxides in oxidized LDL." Biochem J 420(2): 277-281.
Montezano AC, Burger D, Paravicini TM, Chignalia AZ, Yusuf H, Almasri M, He Y, Callera GE, He G, Krause KH, Lambeth D, Quinn MT, Touyz RM. (2010)
Nicotinamide adenine dinucleotide phosphate reduced oxidase 5 (Nox5) regulation by angiotensin II and endothelin-1 is mediated via calcium/calmodulin-dependent, rac-1-independent pathways in human endothelial cells. Circ Res. Apr 30;106(8):1363-73.

Nauseef WM (2004)Assembly of the phagocyte NADPH oxidase. Histochem Cell Biol. Oct;122(4):277-91.

Osipov, R. M., M. P. Robich, J. Feng, Y. Liu, R. T. Clements, H. P. Glazer, N. R. Sodha, C. Szabo, C. Bianchi and F. W. Sellke (2009). "Effect of hydrogen sulfide in a porcine model of myocardial ischemia-reperfusion: comparison of different administration regimens and characterization of the cellular mechanisms of protection." J Cardiovasc Pharmacol 54(4): 287-297.

Papapetropoulos, A., A. Pyriochou, Z. Altaany, G. Yang, A. Marazioti, Z. Zhou, M. G. Jeschke, L. K. Branski, D. N. Herndon, R. Wang and C. Szabo (2009). "Hydrogen sulfide is an endogenous stimulator of angiogenesis." Proc Natl Acad Sci U S A 106(51): 21972-21977.

Polhemus, D. J., K. Kondo, S. Bhushan, S. C. Bir, C. G. Kevil, T. Murohara, D. J. Lefer and J. W. Calvert (2013). "Hydrogen sulfide attenuates cardiac dysfunction after heart failure via induction of angiogenesis." Circ Heart Fail 6(5): 1077-1086.

Punate Weerateerangkul, Siriporn Chattipakorn, Nipon Chattipakorn (2011) Roles of the nitric oxide signaling pathway in cardiac ischemic preconditioning against myocardial ischemia-reperfusion injury. Med Sci Monit, 17(2): RA44-52.

Qipshidze, N., N. Metreveli, P. K. Mishra, D. Lominadze and S. C. Tyagi (2012). Hydrogen sulfide mitigates cardiac remodeling during myocardial infarction via improvement of angiogenesis. Int J Biol Sci 8(4): 430-441.

Pchejetski D, Kunduzova O, Dayon A, Calise D, Seguelas MH, Leducq N, Seif I, Parini A, Cuvillier O. (2007) Oxidative stress-dependent sphingosine kinase-1 inhibition mediates monoamine oxidase A-associated cardiac cell apoptosis. Circ Res. 2007 Jan 5;100(1):41-9.

Penelope J. Andrew, Bernd Mayer. (1998)Enzymatic function of nitric oxide synthases. Cardiovascular Research; 43 (1999) 521–531.

Ray R, Murdoch CE, Wang M, Santos CX, Zhang M, Alom-Ruiz S, Anilkumar N, Ouattara A, Cave AC, Walker SJ, Grieve DJ, Charles RL, Eaton P, Brewer AC, Shah AM. (2011) Endothelial Nox4 NADPH oxidase enhances vasodilatation and reduces blood pressure in vivo. Arterioscler Thromb Vasc Biol. Jun;31(6):1368-76.

Roy J. Shephard, Gary J. Balady, (1999)Exercise as Cardiovascular Therapy Circulation.; 99: 963-972

Rubattu S, Mennuni S, Testa M, Mennuni M, Pierelli G, Pagliaro B, Gabriele E, Coluccia R, Autore C, Volpe M.(2013)Pathogenesis of chronic cardiorenal syndrome: is there a role for oxidative stress? Int J Mol Sci. Nov 20;14(11):23011-32. doi: 10.3390/ijms141123011.

Rinaldi B, Corbi G, Boccuti S, Filippelli W, Rengo G, Leosco D, Rossi F, Filippelli A, Ferrara N.(2006) Exercise training affects age-induced changes in SOD and heat shock protein expression in rat heart. Exp Gerontol.Aug;41(8):764-70.

Saeid Golbidi and Ismail Laher (2012) Cardiology Research and Practice
Volume 2012 Exercise and the Cardiovascular System

Sang-Ging Ong, Derek J. Hausenloy (2012) Hypoxia-inducible factor as a therapeutic target for cardioprotection. Pharmacology & Therapeutics 136,69-81.

Sodha, N. R., R. T. Clements, J. Feng, Y. Liu, C. Bianchi, E. M. Horvath, C. Szabo, G. L. Stahl and F. W. Sellke (2009). "Hydrogen sulfide therapy attenuates the inflammatory response in a porcine model of myocardial ischemia/reperfusion injury." J Thorac Cardiovasc Surg 138(4): 977-984.

Starnes JW, Barnes BD, Olsen ME (1985) Exercise training decreases rat heart mitochondria free radical generation but does not prevent Ca2+-induced dysfunction. J Appl Physiol. 2007 May;102(5):1793-8.

Sun, W. H., F. Liu, Y. Chen and Y. C. Zhu (2012). "Hydrogen sulfide decreases the levels of ROS by inhibiting mitochondrial complex IV and increasing SOD activities in cardiomyocytes under ischemia/reperfusion." Biochem Biophys Res Commun 421(2): 164-169.

Sumimoto H, Miyano K, Takeya R. (2005)Molecular composition and regulation of the Nox family NAD(P)H oxidases. Biochem Biophys Res Commun. Dec 9;338(1):677-86. Epub 2005 Sep 6.

Szabo, C. (2007). "Hydrogen sulphide and its therapeutic potential." Nat Rev Drug Discov 6(11): 917-935.

Szabo, C. and A. Papapetropoulos (2011). "Hydrogen sulphide and angiogenesis: mechanisms and applications." Br J Pharmacol 164(3): 853-865.

Takeya R, Ueno N, Kami K, Taura M, Kohjima M, Izaki T, Nunoi H, Sumimoto H.(2003) Novel human homologues of p47phox and p67phox participate in activation of superoxide-producing NADPH oxidases. J Biol Chem. Jul 4;278(27):25234-46.

Thomas Michel (2010) NO Way to Relax The Complexities of Coupling Nitric Oxide Synthase Pathways in the Heart. Circulation 121:484-486.

Ton J. Rabelink, Thomas F. Luscher (2006). Endothelial Nitric Oxide Synthase
Host Defense Enzyme of the Endothelium?. Arterioscler Thromb Vasc Biol. 26:267-271).

Touyz RM, Briones AM, Sedeek M, Burger D, Montezano AC.(2011)NOX isoforms and reactive oxygen species in vascular health. Mol Interv. 2011 Feb;11(1):27-35. doi: 10.1124/mi.11.1.5.

Touati S, Montezano AC, Meziri F, Riva C, Touyz RM, Laurant P. (2015)
Exercise training protects against atherosclerotic risk factors through vascular NADPH oxidase, extracellular signal-regulated kinase 1/2 and stress-activated protein kinase/c-Jun N-terminal kinase downregulation in obese rats. Clin Exp Pharmacol Physiol. Feb;42(2):179-85.

Tsao, P. S., X. L. Ma and A. M. Lefer (1992). "Activated neutrophils aggravate endothelial dysfunction after reperfusion of the ischemic feline myocardium." Am Heart J 123(6): 1464-1471.

Whiteman, M., L. Li, P. Rose, C. H. Tan, D. B. Parkinson and P. K. Moore (2010). "The effect of hydrogen sulfide donors on lipopolysaccharide-induced formation of inflammatory mediators in macrophages." Antioxid Redox Signal 12(10): 1147-1154.
Yang, F., Z. Liu, Y. Wang, Z. Li, H. Yu and Q. Wang (2014). "Hydrogen sulfide endothelin-induced myocardial hypertrophy in rats and the mechanism involved." Cell Biochem Biophys 70(3): 1683-1686.

Vitiello D, Boissière J, Doucende G, Gayrard S, Polge A, Faure P, Goux A, Tanguy S, Obert P, Reboul C, Nottin S. (1985) β-Adrenergic receptors desensitization is not involved in exercise-induced cardiac fatigue: NADPH oxidase-induced oxidative stress as a new trigger. J Appl Physiol. 2011 Nov;111(5):1242-8.

Yang, G., L. Wu, B. Jiang, W. Yang, J. Qi, K. Cao, Q. Meng, A. K. Mustafa, W. Mu, S. Zhang, S. H. Snyder and R. Wang (2008). "H2S as a physiologic vasorelaxant: hypertension in mice with deletion of cystathionine gamma-lyase." Science 322(5901): 587-590.

Victor W.T. Liu and Paul L. Huang (2008) Cardiovascular roles of nitric oxide: A review of insights from nitric oxide synthase gene disrupted mice. Cardiovasc Res. January ; 77(1): 19–29.

Wenyuan Zhao, MD, Ph.D., Dawn Zhao, Ran Yan, and Yao Sun, MD, Ph.D. (2009) CARDIAC OXIDATIVE STRESS AND REMODELING FOLLOWING INFARCTION: Role of NADPH Oxidase Cardiovasc Pathol. 18(3): 156–166.

Zhang, Z., H. Huang, P. Liu, C. Tang and J. Wang (2007). "Hydrogen sulfide contributes to cardioprotection during ischemia-reperfusion injury by opening K ATP channels." Can J Physiol Pharmacol 85(12): 1248-1253.

Zhang, R., M. L. Brennan, X. Fu, R. J. Aviles, G. L. Pearce, M. S. Penn, E. J. Topol, D. L. Sprecher and S. L. Hazen (2001). "Association between myeloperoxidase levels and risk of coronary artery disease." JAMA 286(17): 2136-2142.

Zhang M, Brewer AC, Schröder K, Santos CX, Grieve DJ, Wang M, Anilkumar N, Yu B, Dong X, Walker SJ, Brandes RP, Shah AM. (2010)NADPH oxidase-4 mediates protection against chronic load-induced stress in mouse hearts by enhancing angiogenesis. Proc Natl Acad Sci U S A. 2010 Oct 19;107(42):18121-6.

Zhao, W., J. F. Ndisang and R. Wang (2003). "Modulation of endogenous production of H2S in rat tissues." Can J Physiol Pharmacol 81(9): 848-853.

Zhao, W., J. Zhang, Y. Lu and R. Wang (2001). "The vasorelaxant effect of H(2)S as a novel endogenous gaseous K(ATP) channel opener." EMBO J 20(21): 6008-6016.

Zhu, X., Z. Tang, B. Cong, J. Du, C. Wang, L. Wang, X. Ni and J. Lu (2013). "Estrogens increase cystathionine-gamma-lyase expression and decrease inflammation and oxidative stress in the myocardium of ovariectomized rats." Menopause 20(10): 1084-1091.

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Készült az Új generációs sporttudományi képzés és tartalomfejlesztés, hazai és nemzetközi hálózatfejlesztés és társadalmasítás a Szegedi Tudományegyetemen c. pályázat támogatásával. Pályázati azonosító: TÁMOP-4.1.2.E-15/1/Konv-2015-0002