Reactive Nitrogen Species and the Role of NO in Abiotic Stress

Emerging Technologies and Management of Crop Stress Tolerance

Volumn 2, Issue , 2014, Pages 249-266

  Procházková, Dagmar ^a   Sumaira, Jan ^b   Wilhelmová, Nad'a ^a   Pavlíková, Daniela ^c   Száková, Jiřina ^c  

^a INSTITUTE OF EXPERIMENTAL BOTANY   (Czech Republic)

^b HAMDARD UNIVERSITY   (India)

^c CZECH UNIVERSITY OF LIFE SCIENCES PRAGUE   (Czech Republic)

Author keywords

Air pollutants; Cold; Drought; Heavy metals; High light; High temperature; Salinity; UV B radiation; Waterlogging

Indexed keywords

DROUGHT; HEAVY METALS; NITRIC OXIDE; WATER POLLUTION;

AIR POLLUTANTS; COLD; HIGH LIGHTS; HIGH TEMPERATURE; SALINITY; UVB RADIATION; WATERLOGGING;

NITROGEN;

EID: 84942107846     PISSN: None     EISSN: None     Source Type: Book    
DOI: 10.1016/B978-0-12-800875-1.00011-9     Document Type: Chapter

References (150)

1. Arasimowicz-Jelonek M., Floryszak-Wieczorek J., Kubiš J. Interaction between polyamine and nitric oxide signaling in adaptive responses to drought in cucumber. J. Plant Growth Regul. 2009, 28:177-186.
2. Asada K. Production and scavenging of reactive oxygen species in chloroplasts and their functions. Plant Physiol. 2006, 141:391-396.
3. Barrosso J.B., Corpas F.J., Carreras A., Rodríguez-Serrano M., Esteban F.J., Fernández-Ocaña A., et al. Localization of S-nitrosoglutathione and expression of S-nitrosoglutathione reductase in pea plants under cadmium stress. J. Exp. Bot. 2006, 57:1785-1793.
4. Bartha B., Kolbert Z., Erdei L. Nitric oxide production induced by heavy metals in Brassica juncea L. Czern. and Pisum sativum L. Acta Biol. Szeged. 2005, 49:9-12.
5. Beard R.A., Anderson D.J., Bufford J.L., Tallman G. Heat reduces nitric oxide production required for auxin-mediated gene expression and fate determination in Nicotiana glauca guard cell protoplasts. Plant Physiol. 2012, 159:1608-1623.
6. Belenghi B., Romero-Puertas M.C., Vercammen D., Brackenier A., Inze D., Delledonne M., et al. Metacaspase activity of Arabidopsis thaliana is regulated by S-nitrosylation of a critical cysteine residue. J. Biol. Chem. 2007, 282:1352-1358.
7. Besson-Bard A., Gravot A., Richaud P., Auroy P., Duc C., Gaymard F., et al. Nitric oxide contributes to cadmium toxicity in Arabidopsis by promoting cadmium accumulation in roots and by up-regulation genes related to iron uptake. Plant Physiol. 2009, 149:1302-1315.
8. Boldizsár Á., Simon-Sarkadi L., Szirtes K., Soltéy A., Szalai G., Keyster M., et al. Nitric oxide affects salt-induced changes in free amino acid levels in maize. J. Plant Physiol. 2013, 170:1020-1027.
9. Botrel A., Kaiser W.M. Nitrate reductase activation state in barley roots in relation to the energy and carbohydrate status. Planta 1997, 201:496-501.
10. Bouchard J.N., Yamasaki H. Heat stress stimulates nitric oxide production in Symbiodinium microadriaticum: a possible linkage between nitric oxide and the coral bleaching phenomenon. Plant Cell Physiol. 2008, 49:641-652.
11. Bouchard J.N., Yamasaki H. Implicaton of nitric oxide in the heat-stress-induced cell death of the symbiotic alga Symbiodinium microadriaticum. Mar. Biol. 2009, 156:2209-2220.
12. Broniowska K.A., Diers A.R., Hogg N. S-Nitrosoglutathione. Biochim. Biophys. Acta 2013, 1830:3173-3181.
13. 2 concentrations on net photosynthesis and stomatal resistence of tomato (Lycopersicon lycopersicum L. cv. Abunda). New Phytol. 1988, 110:185-191.
14. Carver J., Doctor A., Zaman K., Gaston B. S-nitrosothiol formation. Methods Enzymol. 2005, 396:95-105.
15. Catarecha P., Segura M.D., Franco-Zorrilla J.M., García-Ponce B., Lanza M., Solano R., et al. A mutant of the Arabidopsis phosphate transporter PHT1;1 displays enhanced arsenic accumulation. Plant Cell 2007, 19:1123-1133.
16. Chaki M., Fernández-Ocaña A.M., Valderrama R., Carreras A., Esteban F.J., Luque F., et al. Involvement of reactive nitrogen and oxygen species (RNS and ROS) in sunflower-mildew interaction. Plant Cell Physiol. 2009, 50:265-279.
17. Chen F., Wang F., Sun H., Cai Y., Mao W., Zhang G., et al. Genotype dependent effect of exogenous nitric oxide on Cd-induced changes in antioxidative metabolism. Growth Regul. 2010, 29:394-408.
18. Corpas F.J. The two sides of nitric oxide (NO). How a pollutant becomes a good friend for plants and animals. EnviroNews 2011, 17.
19. Corpas F.J., del Río L.A., Barroso J.B. Post-translational modifications mediated by reactive nitrogen species. Plant Signal. Behav. 2008, 3:301-303.
20. Corpas F.J., Chaki M., Fernández-Ocaña A., Valderrama R., Palma J.M., Carreras A., et al. Metabolism of reactive nitrogen species in pea plants under abiotic stress conditions. Plant Cell Physiol. 2008, 49:1711-1722.
21. Corpas F.J., Chaki M., Leterrier M., Barroso J.B. Protein tyrosine nitration. A new challenge in plants. Plant Signal. Behav. 2009, 10:920-923.
22. Corpas F.J., Alché J.D., Barroso J.B. Current overview of S-nitrosoglutathione (GSNO) in higher plants. Trends Plant Sci. 2013, 4:1-3.
23. Cui X.M., Zhang Y.K., Wu X.B., Liu C.S. The investigation of the alleviated effect of copper toxicity by exogenous nitric oxide in tomato plants. Plant Soil Environ. 2010, 56:274-281.
24. Dahm C.C., Moore K., Murphy M.P. Persistent S-nitrosilation of complex I and the other mitochondrial membrane proteins by nitrosothiols but not nitric oxide of peroxinitrite: implication for the interaction of nitric oxide with mitochondria. J. Biol. Chem. 2006, 281:10056-10065.
25. De Michele R., Vurro E., Rigo C., Costa A., Elviri L., Di Valentino M., et al. Nitric oxide is involved in cadmium-induced programmed cell death in Arabidopsis suspension cultures. Plant Physiol. 2009, 150:217-228.
26. Desikan R., Cheung M.-K., Bright J., Henson D., Hancock J.T., Neill S.J. ABA, hydrogen peroxide and nitric oxide signalling in stomatal guard cells. J. Exp. Bot. 2004, 55:205-212.
27. Dordas C., Hasinoff B.B., Igamberdiev A.U., Manach N., Rivoal J., Hill R.D. Expression of stress-induced hemoglobin affects NO levels produced by alfalfa root cultures under hypoxic stress. Plant J. 2003, 35:763-770.
28. Dordas C., Rivoal J., Hill R.D. Plant hemoglobins, nitric oxide and hypoxic stress. Ann. Bot. 2003, 91:173-178.
29. Dordas C., Hasinoff B.B., Rivoal J., Hill R.D. Class-I hemoglobins, nitrate and NO levels in anoxic maize cell-suspension cultures. Planta 2004, 219:66-72.
30. Durner J., Klessig D.F. Nitric oxide as a signal in plants. Curr. Opin. Plant Biol. 1999, 2:369-374.
31. Durner J., Wendenhenne D., Klessig D.F. Defence gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose. Proc. Natl. Acad. Sci. USA 1998, 95:10328-10333.
32. Farooq M., Wahid A., Kobayashi N., Fujita D., Basr S.M.A. Plant drought stress: effects, mechanisms and management. Agron. Sustain. Dev. 2009, 29:185-212.
33. Ferrarini A., De Stefano M., Baudouin E., Pucciariello C., Polverari A., Puppo A., et al. Expression of Medicago truncatula genes responsive to nitric oxide in pathogenic and symbiotic conditions. Mol. Plant Microbe Inter. 2008, 21:781-790.
34. Foyer C.H., Valadier M.H., Migge A., Becker T.W. Drought-induced effects on nitrate reductase activity and mRNA and on the coordination of nitrogen and carbon metabolism in maize leaves. Plant Physiol. 1998, 117:283-292.
35. Frohnmeyer H., Staiger D. Ultraviolet-B radiation-mediated responses in plants. Balancing damage and protection. Plant Physiol. 2003, 133:1420-1428.
36. Galetskiy D., Lohscheide J.N., Kononikhin A.S., Popov I.A., Nikolaev E.N., Adamska I. Phosphorylation and nitration levels of photosynthetic proteins are conversely regulated by light stress. Plant Mol. Biol. 2011, 77:461-473.
37. García-Mata C., Lamattina L. Nitric oxide induces stomatal closure and enhances the adaptive plant responses against drought stress. Plant Physiol. 2001, 126:1196-1204.
38. García-Mata C., Lamattina L. Abscisic acid, nitric oxide and stomatal closure-is nitrate reductase one of the missing links?. Trends Plant Sci. 2003, 8:20-26.
39. Gill S.S., Hasanuzzaman M., Nahar K., Macovei A., Tuteja N. Importance of nitric oxide in cadmium stress tolerance in crop plants. Plant Physiol. Biochem. 2013, 63:254-261.
40. Goldbold D.L., Huttermann A. Effect of zinc, cadmium and mercury on root elongation of Picea abies (Karst) seedlings and the significance of these metals to forest die-back. Environ. Pollut. 1985, 38:375-381.
41. Gould K.S., Lamotte O., Klinguer A., Pugin A., Wendehenne D. Nitric oxide production in tobacco leaf cells: a generalized stress response?. Plant Cell Environ. 2003, 26:1851-1862.
42. Guo F.Q., Okamoto M., Crawford N.M. Identification of a plant nitric oxide synthase gene involved in hormonal signaling. Science 2003, 302:100-103.
43. Guo J., Xu W., Ma M. The assembly of metals chelation by thiols and vacuolar compartmentalization conferred increased tolerance to and accumulation of cadmium and arsenic in transgenic Arabidopsis thaliana. J. Hazard. Mater. 2012, 199-200:309-313.
44. Hao G., Xing Y., Zhang J. Role of nitric oxide dependence on nitric oxide synthase-like activity in the water stress signaling of maize seedling. J. Integr. Plant Biol. 2008, 50:435-442.
45. Hara M.R., Agrawal N., Kim S.F., Cascio M.B., Fujimuro M., Ozeki Y., et al. S-nitrosylated GAPDH initiates apoptotic cell death by nuclear translocation following Siah1 binding. Nat. Cell Biol. 2005, 7:665-674.
46. Hasanuzzaman M., Nahar K., Alam M.M., Roychowdhury R., Fujita M. Physiological, biochemical, and molecular mechanisms of heat stress tolerance in plants. Int. J. Mol. Sci. 2013, 14:9643-9684.
47. Hasegawa P.M., Bressan R.A., Zhu J.-K., Bohnert H.J. Plant cellular and molecular responses to high salinity. Annu. Rev. Plant Physiol. Plant Mol. Biol. 2000, 51:463-499.
48. Hernández L.E., Garate A., Carpena-Rviz R. Effect of cadmium on the uptake, distribution and assimilation of nitrate in Pisum sativum. Plant Soil 1997, 189:97-106.
49. Hess D.T., Matsumoto A., Kim S.O., Marshall H.E., Stamler J.S. Protein S-nitrosylation: purview and parameters. Nat. Rev. Mol. Cell Biol. 2005, 6:150-166.
50. Hill A.C., Bennett J.H. Inhibition of apparent photosynthesis by nitrogen oxides. Atmos. Environ. 1970, 4:341-348.
51. Hogg N. Biological chemistry and clinical potential of S-nitrosothiols. Free Radic. Biol. Med. 2000, 28:1478-1486.
52. Holtgrefe S., Gohlke J., Starmann J., Druce S., Klocke S., Altmann B., et al. Regulation of plant cytosolic glyceraldehyde 3-phosphate dehydrogenase isoforms by thiol modifications. Physiol. Plant 2008, 133:211-228.
53. Hsu Y.T., Kao C.H. Cd toxicity is reduced by nitric oxide in rice leaves. Plant Growth Regul. 2004, 42:227-238.
54. Hu K.D., Hu L.Y., Li Y.H., Zhang F.Q., Zhang H. Protective roles of nitric oxide on germination and antioxidant metabolism in wheat seeds under copper stress. Plant Growth Regul. 2007, 53:173-183.
55. Igamberdiev A.U., Hill R.D. Nitrate, NO and haemoglobin in plant adaptation to hypoxia: an alternative to classic fermentation pathway. J. Exp. Bot. 2004, 55:2473-2482.
56. Igamberdiev A.U., Bykova N.V., Shah J.K., Hill R.D. Anoxic nitric oxide cycling in plants: participating reactions and possible mechanisms. Physiol. Plant 2010, 138:393-404.
57. Jin J.W., Xu Y.F., Huang Y.F. Protective effect of nitric oxide against arsenic-induced oxidative damage in tall fescue leaves. Afr. J. Biotech. 2010, 9:1619-1627.
58. Kim P.K., Zamora R., Petrosko P., Billiar T.R. The regulatory role of nitric oxide in apoptosis. Int. Immunopharmacol. 2001, 1:1421-1441.
59. Kissner R., Nauser T., Bugnon P., Lye P.G., Koppenol W.H. Formation and properties of peroxynitrite as studied by laser flash photolysis. Chem. Res. Toxicol. 1997, 10:1285-1292.
60. Klepper L.A. Nitric oxide (NO) and nitrogen dioxide emissions from herbicide-treated soybean plants. Atmos. Environ. 1979, 13:537-542.
61. Klok E.J., Wilson I.W., Wilson D., Chapman S.C., Ewing R.M., Somerville S.C., et al. Expression profile analysis of the low-oxygen response in Arabidopsis root cultures. Plant Cell 2002, 14:2481-2494.
62. Knowles R.G., Moncada S. Nitric oxide synthases in mammals. Biochem. J. 1994, 298:249-258.
63. Kolbert Y., Bartha B., Erdei L. Generation of nitric oxide in roots of Pisum sativum, Triticum aestivum and Petroselium crispum plants under osmotic and drought stress. Acta Biol. Szegend. 2005, 49:13-16.
64. Kopyra M., Gwózdz, E.A. Nitric oxide stimulates seed germination and counteracts the inhibitory effect of heavy metals and salinity on root growth of Lupinus luteus. Plant Physiol. Biochem. 2003, 41:1011-1017.
65. Kopyra M., Stachoń-Wilk M., Gwózdz; E.A. Effects of exogenous nitric oxide on the antioxidant capacity of cadmium-treated soybean cell suspension. Acta Physiol. Plant 2006, 28:525-536.
66. Krasylenko Y.A., Yemets A.I., Sheremet Y.A., Blume Y.B. Nitric oxide as a critical factor for perception of UV-B irradiation by microtubules in Arabidopsis. Plant Physiol. 2012, 145:505-515.
67. Kröek M., Slamka P., Olšovská K., Brestič M., Benčíková M. Reduction of drought stress effect in spring barley (Hordeum vulgare L.) by nitrogen fertilization. Plant Soil Environ. 2008, 54:7-13.
68. Lamotte O., Courtois C., Barnavon L., Pugin A., Wendehenne D. Nitric oxide in plants: the biosynthesis and cell signalling properties of a fascinating molecule. Planta 2005, 221:1-4.
69. Laspina N.V., Groppa M.D., Tomaro M.L., Benavides M.P. Nitric oxide protect sunflower leaves against Cd-induced oxidative stress. Plant Sci. 2005, 169:323-330.
70. Leshem Y.Y. Nitric Oxide in Plants 2001, Kluwer Academic Publishers, London, UK.
71. Leterrier M., Airaki M., Palma J.M., Chaki M., Barroso J.B., Corpas F.J. Arsenic triggers the nitric oxide (NO) and S-nitrosoglutathione (GSNO) metabolism in Arabidopsis. Environ. Pollut. 2012, 166:136-143.
72. Liao W.B., Huang G.B., Yu J.H., Zhang M.L. Nitric oxide and hydrogen peroxide alleviate drought stress in marigold explants and promote its adventitious root development. Plant Physiol. Biochem. 2012, 58:6-15.
73. Lindermayr C., Durner J. S-Nitrosylation in plants: pattern and function. J. Proteomics 2009, 73:1-9.
74. Liu L., Hausladen A., Zeng M., Que L., Heitman J., Stamler J.S. A metabolic enzyme for S-nitrosothiols conserved from bacteria to humans. Nature 2001, 410:490-494.
75. Liu L., Zeng M., Zhang J., Hanes M.A., Ahearn G., McMahon T.J., et al. Essential roles of S-nitrosothiols in vascular homeostasis and endotoxic shock. Cell 2004, 116:617-628.
76. Mackerness S.A.-H., John C.F., Jordan B., Thomas B. Early signalling components in ultraviolet-B responses: distinct roles for different reactive oxygen species and nitric oxide. FEBS Lett. 2001, 489:237-242.
77. Mahmood T., Gupta K.J., Kaiser W.M. Cadmium stress stimulates nitric oxide production by wheat roots. Pak. J. Bot. 2009, 41:1285-1290.
78. Melotto M., Underwood W., Koczan J., Nomura K., He S.Y. Plant stomata function in innate immunity against bacterial invasion. Cell 2006, 126:969-980.
79. Neill S.J., Desikan R., Clarke A., Hurst R.D., Hancock J.T. Hydrogen peroxide and nitric oxide as signalling molecules in plants. J. Exp. Bot. 2002, 53:1237-1247.
80. Neill S.J., Desikan R., Hancock J.T. Nitric oxide signalling in plants. New Phytol. 2003, 159:11-35.
81. Nies D.H. Microbial heavy-metal resistence. Appl. Microbiol. Biotechnol. 1999, 51:730-750.
82. Pagnussat G., Simontacchi M., Puntarulo S., Lamattina L. Nitric oxide is required for root organogenesis. Plant Physiol. 2002, 129:954-956.
83. Pagnussat G.C., Lanteri M.L., Lamattina L. Nitric oxide and cyclic GMP are messengers in the indole acetic acid-induced adventitious rooting process. Plant Physiol. 2003, 132:1241-1248.
84. Palmieri M.C., Sell S., Huang X., Scherf M., Werner T., Durner J., et al. Nitric oxide-responsive genes and promoters in Arabidopsis thaliana: a bioinformatics approach. J. Exp. Bot. 2008, 59:177-186.
85. Parent C., Capelli N., Berger A., Crevecoeur M., Dat J.F. An overview of plant responses to soil waterlogging. Plant Stress 2008, 2:20-27.
86. Patakas A.A., Zotos A., Beis A.S. Production, localisation and possible roles of nitric oxide in drought stressed grapevines. Aust. J. Grape Wine Res. 2010, 16:203-209.
87. Perazzolli M., Dominici P., Romero-Puertas M.C., Zago E.D., Zeier J., Sonoda M., et al. Arabidopsis non-symbiotic haemoglogin AHb1 modulates nitric oxide bioactivity. Plant Cell 2004, 16:1-10.
88. Perazzolli M., Romero-Puertas M.C., Delledonne M. Modulation of nitric oxide bioactivity by plant haemoglobins. J. Exp. Bot. 2006, 57:479-488.
89. Radi R. Nitric oxide, oxidants, and protein tyrosine nitratin. Proc. Natl. Acad. Sci. USA 2004, 101:4003-4008.
90. Rockel P., Strube F., Rockel A., Wildt J., Kaiser W.M. Regulation of nitric (NO) production by plant nitrate reductase in vivo and in vitro. J. Exp. Bot. 2002, 53:103-110.
91. Ryan K.G., Swinny E.F., Markham K.R., Winefield C. Flavonoid gene expression and UV photoprotection in transgenic and mutant Petunia leaves. Phytochemistry 2002, 59:23-32.
92. Sairam R.K., Kumutha D., Ezhilmathi K., Desmukh P.S., Srivastava G.C. Physiology and biochemistry of waterlogging tolerance in plants. Biol. Plant 2008, 52:401-412.
93. Sairam R.K., Dharmar K., Chinnusamy V., Lekshmy S., Joshi R., Bhattacharya P. The role of non-symbiotic haemeglobin and nitric oxide homeostasis in waterlogging tolerance in Vigna species. Biol. Plant 2012, 56:528-536.
94. Sakamoto A., Ueda M., Morikawa H. Arabidopsis glutathione-dependent formaldehyde dehydrogenase is an S-nitrosoglutathione reductase. FEBS Lett. 2002, 515:20-24.
95. Santa-Cruz D., Pacienza N., Polizio A., Balestrasse K., Tomaro M., Yannarelli G. Nitric oxide synthase-like dependent NO production enhances heme oxygenase up-regulation in ultraviolet-B-irradiated soybean plants. Phytochemistry 2010, 71:1700-1707.
96. Saxena I., Shekhawat G.S. Nitric oxide (NO) in alleviation of heavy metal induced phytotoxicity and its role in protein nitration. Nitric Oxide 2013, 32:13-20.
97. Schmidt H.W., Walter U. NO at work. Cell 1994, 78:919-925.
98. Seregélyes C., Mustardy L., Ayaydin F., Sass L., Kovacs L., Endre G., et al. Nuclear localization of a hypoxia-inducible novel non-symbiotic hemoglobin in cultured alfalfa cells. FEBS Lett. 2000, 482:125-130.
99. Serpa V., Vernal J., Lamattina L., Grotewold E., Cassia R., Terenzi H. Inhibition of AtMYB2 DNA-binding by nitric oxide involves cysteine S-nitrosylation. Biochem. Biophys. Res. Commun. 2007, 361:1048-1053.
100. Shi S., Wang G., Wang Y., Zhang L., Zhang L. Protective effect of nitric oxide against oxidative stress under ultraviolet-B radiation. Nitric Oxide 2005, 13:1-9.
101. Siddiqui M.H., Al-Whaibi M.H., Basalah M.O. Role of nitric oxide in tolerance of plants to abiotic stress. Protoplasma 2011, 248(3):447-455.
102. Singh A.K., Sharma L., Mallick N. Antioxidative role of nitric oxide on copper toxicity to a chlorophycean alga Chlorella. Ecotoxicol. Environ. Saf. 2004, 59:223-227.
103. Singh H.P., Batish D.R., Kaur G., Arora K., Kohli R.H. Nitric oxide (as sodium nitroprusside) supplementation ameliorates Cd toxicity in hydroponically grown wheat roots. Environ. Exp. Bot. 2008, 63:158-167.
104. Singh H.P., Kaur S., Batish D.R., Sharma V.P., Sharma N., Kohli R.K. Nitric oxide alleviates arsenic toxicity by reducing oxidative damage in the roots of Orysa sativa (Rice). Nitric Oxide 2009, 20:289-297.
105. Singh R.J., Hogg N., Joseph J., Kalyanaraman B. Mechanisms of nitric oxide release from S-nitrosothiols. J. Biol. Chem. 1996, 271:18596-18603.
106. Singh S.P., Wishnok J.S., Keshive M., Dee W.M., Tannenbaum S.R. The chemistry of the S-nitrosoglutathione/glutathione system. Proc. Natl. Acad. Sci. USA 1996, 93:14428-14433.
107. Song L., Ding W., Zhao M.G., Sun B.T., Zhang L.X. Nitric oxide protects against oxidative stress under heat stress in the calluses from two ecotypes of reed. Plant Sci. 2006, 171:449-458.
108. Stamler J.S., Lamas S., Fang F.C. Nitrosylation: the prototypic redox-based signaling mechanism. Cell 2001, 106:675-683.
109. Stöhr C., Mäck G. Diurnal changes in nitrogen metabolism of tobacco roots. J. Exp. Bot. 2001, 52:1283-1289.
110. Stöhr C., Ullrich W.R. A succinate-oxidizing nitrate reductase is located at the plasma membrane of plant roots. Planta 1997, 203:129-132.
111. 3 on this production. Ying Yong Sheng Tai Xue Bao 2010, 21:1395-1399.
112. Sun J., Steenbergen C., Murphy E. S-Nitrosylation. NO-related redox signalling to protect against oxidative stress. Antioxid Redox Signal. 2006, 8:1693-1705.
113. Suzuki N., Mittler R. Reactive oxygen species and temperature stresses: a delicate balance between signaling and destruction. Physiol. Plant 2006, 126:45-51.
114. Szabó C., Ischiropoulos H., Radi R. Peroxinitrite: biochemistry, pathophysiology and development of therapeutics. Nat. Rev. Drug Discov. 2007, 6:662-680.
115. Tada Y., Spoel S.H., Pajerowska-Mukhtar K., Mou Z., Song J., Wang C., et al. Plant immunity requires conformational changes of NPR1 via S-nitrosylation and thioredoxins. Science 2008, 321:952-956.
116. Takahashi S., Yamasaki H. Reversible inhibition of photophosphorylation in chloroplasts by nitric oxide. FEBS Lett. 2002, 512:145-148.
117. Tan J., Zhao H., Hong J., Han Y., Li H., Zhao W. Effects of exogenous nitric oxide on photosynthesis, antioxidant capacity and proline accumulation in wheat seedlings subjected to osmotic stress. World J. Agric. Sci. 2008, 4:307-313.
118. Tewari R.K., Hahn E.J., Paek K.Y. Modulation of cooper toxicity-induced oxidative damage by nitric oxide supply in the adventitious roots of Panan ginseng. Plant Cell Rep. 2008, 27:563-573.
119. Tossi V., Lamattina L., Cassia R. An increase in the concentration of abscisic acid is critical for nitric oxide-mediated plant adaptive responses to UV-B irradiation. New Phytol. 2009, 181:871-879.
120. Tossi V., Amenta M., Lamattina L., Cassia R. Nitric oxide enhances plant ultraviolet-B protection up-regulating gene expression of the phenylpropanoid biosynthetic pathway. Plant Cell Environ. 2011, 34:909-921.
121. Tossi V., Lombardo C., Cassia R., Lamattina L. Nitric oxide and flavonoids are systematically induced by UV-B in maize leaves. Plant Sci. 2012, 193-194:103-109.
122. Uchida A., Jagendorf A.T., Hibino T., Takabe T. Effects of hydrogen peroxide and nitric oxide on both salt and heat tolerance in rice. Plant Sci. 2002, 163:515-523.
123. Valderrama R., Corpas F.J., Carreras A., Fernández-Ocaña A., Chaki M., Luque F. Nitrosative stress in plants. FEBS Lett. 2007, 581:453-461.
124. Verbruggen N., Hermans C., Schat H. Mechanisms to cope with arsenic or cadmium excess in plants. Curr. Opin. Plant Biol. 2009, 12:364-372.
125. Vital S.A., Fowler R.W., Virgen A., Gossett D.R., Banks S.W., Rodriguez J. Opposing roles for superoxide and nitric oxide in the NaCl stress-induced upregulation of antioxidant enzyme activity in cotton callus tissue. Environ. Exp. Bot. 2008, 62:60-68.
126. Wang G., Moniri N.H., Ozawa K., Stamler J.S., Daaka Y. Nitric oxide regulates endocytosis by S-nitrosylation of dynamin. Proc. Natl. Acad. Sci. USA 2006, 31:1295-1300.
127. Wendehenne D., Pugin A., Klessig D.F., Durner J. Nitric oxide: comparative synthesis and signalling in animal and plant cells. Trends Plant Sci. 2001, 46:177-183.
128. Wilhelmová N., Wilhelm J., Fuksová H., Mýtinová Z., Procházková D., Schwippelová Z., et al. The effect of plant cytokinin hormones on the production of ethylene, nitric oxide, and protein nitrotyrosine in ageing tobacco leaves. Biofactors 2006, 27:203-211.
129. Wilson I.D., Neill S.J., Hancock J.T. Nitric oxide synthesis and signalling in plants. Plant Cell Environ. 2008, 31:622-631.
130. Winkel-Shirley B. Flavonoid biosynthesis. A colourful model for genetics, biochemistry, cell biology, and biotechnology. Plant Physiol. 2001, 126:485-493.
131. Xin Z., Browse J. Eskimol mutants of Arabidopsis are constitutively freezing-tolerant. Proc. Natl. Acad. Sci. USA 1998, 95:7790-7804.
132. Xiong J., Fu G., Tao L., Zhu C. Roles of nitric oxide in alleviating heavy metal toxicity in plants. Arch. Biochem. Biophys. 2010, 497:13-20.
133. Xiong J., Zhang L., Fu G., Yang Y., Zhu C., Tao L. Drought-induced proline accumulation is uninvolved with increased nitric oxide, which alleviates drought stress by decreasing transpiration in rice. J. Plant Res. 2012, 125:155-164.
134. Xu J., Wang W., Yin H., Liu X., Sun H., Mi Q. Exogenous nitric oxide improves antioxidative capacity and reduces auxin degradation in roots of Medicago truncatula seedlings under cadmium stress. Plant Soil 2010, 326:321-330.
135. Xu J., Yin H., Li Y., Liu X. Nitric oxide is associated with long-term zinc tolerance in Solanum nigrum. Plant Physiol. 2010, 154:1319-1334.
136. Xu Y., Sun X., Jin J., Zhou H. Protective effects of nitric oxide on light-induced oxidative damage in leaves of tall fescue. J. Plant Physiol. 2010, 167:512-518.
137. Xue L.G., Li S.W., Xu S.J., An L.Z., Wang X.L. Alleviate effects of nitric oxide on the biological damage of Spirulena platensis induced by enhanced ultraviolet-B. Wei Sheng Wu Xue Bao 2006, 46:561-564.
138. Yadav S.K. Heavy metals toxicity in plants: an overview on the role of glutathione and phytochelatins in heavy metal stress tolerance of plants. S. Afr. J. Bot. 2010, 76:167-179.
139. Yamasaki H., Sakihoma Y. Simulataneous production of nitric oxide and peroxynitrite by plant nitrate reductase: in vitro evidence for the NR-dependent formation of active nitrogen species. FEBS Lett. 2000, 468:89-92.
140. Zhang F., Wang Y., Yang Y., Wu H., Wang D., Liu J. Involvement of hydrogen peroxide and nitric oxide in salt resistence in the calluses from Populus euphratica. Plant Cell Environ. 2007, 30:775-785.
141. Zhang L., Zhao L. Production of nitric oxide under ultraviolet-B irradiation is mediated by hydrogen peroxide through activation of nitric oxide synthase. J. Plant Biol. 2008, 51:395-400.
142. Zhang L.P., Mehta S.K., Liu Z.P., Yang Z.M. Cooper induced proline synthesis is associated with nitric oxide generation in Chlamydomonas reihardtii. Plant Cell Physiol. 2008, 49:411-419.
143. Zhang M., Dong J.F., Jin H.H., Sun L.N., Xu M.J. UV-B-induced flavonoid accumulation in Betula pendula leaves is dependent upon nitrate reductase-mediated nitric oxide signaling. Tree Physiol. 2011, 31:798-807.
144. + antiport in the tonoplast. Planta 2006, 224:545-555.
145. Zhao L., Zhang F., Guo J., Yang Y., Li B., Zhang L. Nitric oxide functions as a signal in salt resistence in the calluses from two ecotypes of reed. Plant Physiol. 2004, 134:849-857.
146. Zhao M.G., Tian Q.Y., Zhang W.H. Nitric oxide synthase-dependent nitric oxide production is associated with salt tolerance in Arabidopsis. Plant Physiol. 2007, 144:206-217.
147. Zhao M.G., Chen L., Zhang L.L., Zhang W.H. Nitric reductase dependent nitric oxide production is involved in cold acclimation and freezing tolerance in Arabidopsis. Plant Physiol. 2009, 151:755-767.
148. Zhao R.X., Zhang Q.B., Wu X.Y., Wang Y. The effects of drought on epidermal cells and stomatal density of wheat leaves. Inner Mongolia Agric. Sci. Technol. 2001, 6:6-7.
149. Zhu J.K. Plant salt tolerance. Trends Plant Sci. 2001, 6:835-840.
150. Zottini M., Formentin E., Scattolin M., Carimi F., Lo Schiavo F., Terzi M. Nitric oxide affects plant mitochondrial functionality in vivo. FEBS Lett. 2002, 515:75-78.