248
Views
10
CrossRef citations to date
0
Altmetric
Articles

Variation in temperature and light but not salinity invokes antioxidant enzyme activities in germinating seeds of Salsola drummondii

, , &

References

  • AbediT, PakniyatH. 2010. Antioxidant enzyme changes in response to drought stress in ten cultivars of oilseed rape (Brassica napus L.). Czech J Genet Plant Breed46: 27–34.
  • AlscherRG, ErturkN, HeathLS. 2002. Role of superoxide dismutases (SODs) in controlling oxidative stress in plants. J Exp Bot53: 1331–1341.
  • ApelK, HirtH. 2004. Reactive oxygen species: Metabolism, oxidative stress, and signal transduction. Annu Rev Plant Bio55: 373–399.
  • AsadaK. 1992. Ascorbate peroxidase – A hydrogen peroxide scavenging enzyme in plants. Physiol Plantarum85: 235–241.
  • BaillyC. 2004. Active oxygen species and antioxidants in seed biology. Seed Sci Res14: 93–107.
  • BaillyC, AudigeirC, LadonneF, WagnerMH, CosteF, CorbeneauF, et al. 2001. Changes in oligosaccharide content and antioxidant enzyme activities in developing bean seeds as related to acquisition of drying tolerance and seed quality. J Exp Bot52: 701–708.
  • BaillyC, BenamarA, CorbineauF, CômeD. 1996. Changes in malondialdehyde content and in superoxide dismutase, catalase and glutathione reductase activities in sunflower seeds as related to deterioration during accelerated aging. Physiol Plantarum97: 104–110.
  • BartoszG. 1997. Oxidative stress in plants. Acta Physiol Plant19: 47–64.
  • BewleyJD, BlackM. 1994. Seeds: Physiology of development and germination. 2nd ed., New York and London: Plenum Press.
  • BhattacharjeeS. 2013. Heat and chilling induced disruption of redox homeostasis and its regulation by hydrogen peroxide in germinating rice seeds (Oryza sativa L., Cultivar Ratna). Physiol Mol Biol Plants19: 199–207.
  • BogdanovićJ, RadotićK, MitrovićA. 2008. Changes in activities of antioxidant enzymes during Chenopodium murale seed germination. Biol Plantarum52: 396–400.
  • ChaitanyaKV, SundarD, ReddyAR. 2001. Mulberry leaf metabolism under high temperature stress. Biol Plantarum44: 379–384.
  • CroweJH, CroweLM. 1992. Membrane integrity in anhydrobiotic organisms: Towards a mechanism for stabilizing dry cells. In: SomeroGN, OsmondCB, BolisCL, editors. Water and life. Berlin: Springer. pp. 87–103.
  • De GaraL, De PintoMC, ArrigoniO. 1997. Ascorbate synthesis and ascorbate peroxidase activity during the early stage of wheat germination. Physiol Plantarum100: 894–900.
  • De GaraL, de PintoMC, MoliterniVM, D'EgidioMG. 2003. Redox regulation and storage processes during maturation in kernels of Triticum durum. J Exp Bot54: 249–258.
  • De TullioMC, ArrigoniO. 2003. The ascorbic acid system in seeds: To protect and to serve. Seed Sci Res13: 249–260.
  • De TullioMC, PaciollaC, VecchiaFD, RascioN, D'EmericoS, De GaraL, LisoR, ArrigoniO. 1999. Changes in onion root development induced by the inhibition of peptidyl-proyl hydroxylase and influence of the ascorbate system on cell division and elongation. Planta209: 424–434.
  • DuČićT, Lirić-RajlićI, MitrovićA, RadotićK. 2003. Activities of antioxidant systems during germination of Chenopodium rubrum seeds. Biol Plant47: 527–533.
  • FoyerCH, NoctorG. 2011. Ascorbate and glutathione: The heart of the redox hub. Plant Physiol155: 2–18.
  • GestN, GautierH, StevensR. 2013. Ascorbate as seen through plant evolution: The rise of a successful molecule?J Exp Bot64: 33–53.
  • GidrolX, LinWS, DegouseeN, YipSF, KushA. 1994. Accumulation of reactive oxygen species and oxidation of cytokinin in germinating soybean seeds. Eur J Biochem224: 21–28.
  • GilaniSA, FujiiY, ShinwariZK, AdnanM, KikuchiA, WatanabeKN. 2010. Phytotoxic studies of medicinal plant species of Pakistan. Pak J Bot42: 987–996.
  • GillSS, AnjumNA, HasanuzzamanM, GillR, TrivediDK, AhmadI, et al. 2013. Glutathione and glutathione reductase: A boon in disguise for plant abiotic stress defense operations. Plant Physiol Biochem70: 204–212.
  • GongM, ChenSN, SongYQ, LiZG. 1997. Effect of calcium and calmodulin on intrinsic heat tolerance in relation to antioxidant systems in maize seedlings. Aust J Plant Physiol24: 371–379.
  • GreneR. 2002. Oxidative stress and acclimation mechanisms in plants. The Arabidopsis Book1: e0036. 10.1199/tab.0036.1.
  • GuanL, ScandaliosJG. 1995. Developmentally related responses of maize catalase genes to salicylic acid. Proc Nat Acad Sci USA92: 5930–5934.
  • GulB, AnsariR, FlowersTJ, KhanMA. 2013. Germination strategies of halophyte seeds under salinity. Environ Exp Bot92: 4–18.
  • GuoY, ZhangW, HeJ, ZhouJ, YuH. 2012. Effects of water stress and seed mass on germination and antioxidative enzymes of Xanthoceras sorbifolia. Afr J Biotechnol11: 4187–4195.
  • GuriA. 1983. Variation in glutathion and ascorbic acid content among selected cultivars of Phaseolus vulgaris prior to and after exposure to ozone. Can J Plant Sci63: 733–737.
  • HameedA, HussainT, GulzarS, AzizI, GulB, KhanMA. 2012. Salt tolerance of a cash crop halophyte Suaeda fruticosa: Biochemical responses to salt and exogenous chemical treatments. Acta Physiol Plant34: 2331–2340.
  • HameedA, RasheedA, GulB, KhanMA. 2014. Salinity inhibits seed germination of perennial halophytes Limonium stocksii and Suaeda fruticosa by reducing water uptake and ascorbate dependent antioxidant system. Environ Exp Bot107: 32–38.
  • HeathRL, PackerL. 1968. Photoperoxidation in isolated chloroplasts: I. Kinetics and stoichiometry of fatty acid peroxidation. Arch Biochem Biophys125: 189–198.
  • JitheshMN, PrashanthSR, SivaprakashKR, ParidaA. 2006. Monitoring expression profiles of antioxidant genes to salinity, iron, oxidative, light and hyperosmotic stresses in the highly salt tolerant grey mangrove, Avicennia marina (Forsk.) Vierh. by mRNA analysis. Plant Cell Rep25: 865–876.
  • JouiliH, BouaziziH, El FerjaniE. 2011. Plant peroxidases: Biomarkers of metallic stress. Acta Physiol Plant33: 2075–2082.
  • KhanMA, AhmedMZ, HameedA. 2006. Effect of sea salt and L-ascorbic acid on the seed germination of halophytes. J Arid Environ67: 535–540.
  • KhanMA, UngarIA. 1984. Effects of salinity and temperature on the germination and growth of Atriplex triangularis Willd. Am J Bot71: 481–489.
  • KliebensteinD, MondeR, LastR. 1998. Superoxide dismutase in arabidopsis: An electic enzyme family with disparate regulation and protein localisation. Plant Physiol118: 637–650.
  • KrannerI, SealCE. 2013. Salt stress, signalling and redox control in seeds. Func Plant Biol40: 848–859.
  • LeeYP, BaekK, LeeH, KwakS, BangJ, KwonS. 2010. Tobacco seeds simultaneously over-expressing Cu/Zn superoxide dismutase and ascorbate peroxidase display enhanced seed longevity and germination rates under stress conditions. J Exp Bot61: 2499–2506.
  • LiuK, BaskinJM, BaskinCC, DuG. 2013. Very fast-germinating seeds of desert species are cryptoviparous-like. Seed Sci Res23: 163–167.
  • LushchakVI, SemchukNM. 2012. Tocopherol biosynthesis: Chemistry, regulation and effects of environmental factors. Acta Physiol Plant34: 1607–1628.
  • LuweMWF, TakahamaU, HeberU. 1993. Role of ascorbate in detoxifying ozone in the apoplast of spinach (Spinacia oleracea L.) leaves. Plant Physiol101: 969–976.
  • McdonaldMB. 1999. Seed deterioration: Physiology, repair and assessment. Seed Sci Technol27: 177–237.
  • MeiYQ, SongSQ. 2010. Response to temperature stress of reactive oxygen species scavenging enzymes in the cross-tolerance of barley seed germination. J Zhejiang Univ-Sci B11: 965–972.
  • MhamdiA, QuevalG, ChaouchS, VanderauweraS, BreusegemFV, NoctorG. 2010. Catalase function in plants: A focus on Arabidopsis mutants as stress-mimic models. J Exp Bot61: 4197–4220.
  • MillerG, SuzukiN, Ciftci-YilmazS, MittlerR. 2010. Reactive oxygen species homeostasis and signaling during drought and salinity stresses. Plant Cell Environ33: 453–467.
  • MunnsR, TesterM. 2008. Mechanisms of salinity tolerance. Annu Rev Plant Biol59: 651–681.
  • NoctorG, De PaepeR, FoyerCH. 2007. Mitochondrial redox biology and homeostasis in plants. Trends Plant Sci12: 125–134.
  • NoctorG, FoyerCH. 1998. Ascorbate and glutathione: Keeping active oxygen under control. Annu Rev Plant Physiol Plant Mol Biol49: 249–279.
  • NoctorG, MhamdiA, ChaouchS, HanY, NeukermansJ, Marquez-GarciaB, et al. 2012. Glutathione in plants: An integrated overview. Plant Cell Environ35: 454–484.
  • NonogakiH, BasselGW, BewleyJD. 2010. Germination—Still a mystery. Plant Sci179: 574–581.
  • OraczK, El-Maarouf-BouteauH, KrannerI, BogatekR, CorbineauF, BaillyC. 2009. The mechanisms involved in seed dormancy alleviation by hydrogen cyanide unravel the role of reactive oxygen species as key factors of cellular signaling during germination. Plant Physiol150: 494–505.
  • ParsonsFR. 2012. Incidence and ecology of very fast germination. Seed Sci Res22: 161–167.
  • PolidorosAN, ScandaliosJG. 1999. Role of hydrogen peroxide and different classes of antioxidants in the regulation of catalase and glutathione S-transferase gene expression in maize (Zea mays L.). Physiol Plantarum106: 112–120.
  • PolleA, OtterT, SeifertF. 1994. Apoplastic peroxidases and lignification in needles of spruce (Picea abies L.). Plant Physiol106: 53–60.
  • PuntaruloS, GalleanoM, SanchezRA, BoverisA. 1991. Superoxide anion and hydrogen peroxide metabolism in soybean embryonic axes during germination. Biochem Biophys Acta1074: 277–283.
  • QureshiRH, AslamM, RafiqM. 1993. Expension in the use of forage halophytes in Pakistan. In: DavidsonN, GallowayR, editors. Productive use of saline land. ACIAR Proceedings No. 42. Canberra: ACIAR. pp. 12–16.
  • RibeiroRC, MatiasJR, PelacaniCR, DantasBF. 2014. Activity of antioxidant enzymes and proline accumulation in Erythrina velutina Willd. seeds subjected to abiotic stresses during germination. J Seed Sci36: 231–239.
  • RosentalL, NonogakiH, FaitA. 2014. Activation and regulation of primary metabolism during seed germination. Seed Sci Res24: 1–15.
  • SekmenAH, TurkanI, TanyolacZO, OzfidanC, DincA. 2012. Different antioxidant defense responses to salt stress during germination and vegetative stages of endemic halophyte Gypsophila oblanceolata Bark. Environ Exp Bot77: 63–76.
  • SharmaP, JhaAB, DubeyRS, PessarakliM. 2012. Reactive oxygen species, oxidative damage, and antioxidative defense mechanism in plants under stressful conditions. J Bot2012: 1–26.
  • SharmaTP, SenDN. 1989. A new report on abnormally fast germinating seeds of Haloxylon spp. – An ecological adaptation to saline habitat. Curr Sci58: 382–385.
  • SiegelBZ. 1993. Plant peroxidases – An organismic perspective. Plant Growth Reg12: 303–312.
  • SmirnoffN. 2000. Ascorbic acid: metabolism and functions of a multi-facetted molecule. Curr Opin Plant Biol3: 229–235.
  • SongJ, FengG, TianC, ZhangF. 2005. Strategies for adaptation of Suaeda physophora, Haloxylon ammodendron and Haloxylon persicum to a saline environment during seed germination stage. Ann Bot London96: 399–405.
  • SPSS. 2007. SPSS: SPSS 11 for windows update. Chicago, IL: SPSS Inc.
  • TegelbergR, Julkunen-TiittoR, VartiainenM, PaunonenR, RousiM, KellomakiS. 2008. Exposures to elevated CO2, elevated temperature and enhanced UV-B radiation modify activities of polyphenol oxidase and guaiacol peroxidase and concentrations of chlorophylls, polyamines and soluble proteins in the leaves of Betula pendula seedlings. Environ Exp Bot62: 308–315.
  • TommasiF, PaciollaC, De PintoMC, De GaraL. 2001. A comparative study of glutathione and ascorbate metabolism during germination of Pinus pinea L. seeds. J Exp Bot52: 1647–1654.
  • WallaceA, RhodsWA, FrolichEF. 1968. Germination behavior of Salsola as influenced by temperature, moisture, depth of planting, and gamma irradiation. Agron J60: 76–78.
  • WangY, LiL, CuiW, XuS, ShenW, WangR. 2012. Hydrogen sulfide enhances alfalfa (Medicago sativa) tolerance against salinity during seed germination by nitric oxide pathway. Plant Soil351: 107–119.
  • WangZ, XingS, BirkenbihlRP, ZachgoS. 2009. Conserved functions of Arabidopsis and rice CC-type glutaredoxins in flower development and pathogen response. Mol Plant2: 323–335.
  • WillekensH, InzèD, Van MontaguM, Van CampW. 1995. Catalases in plants. Mol Breeding1: 207–228.
  • XingJ, CaibM, ChenS, ChenL, LanH. 2013. Seed germination, plant growth and physiological responses of Salsola ikonnikovii to short-term NaCl stress. Plant Biosyst147: 285–297.
  • XuR, YamadaM, FujiyamaH. 2013. Lipid peroxidation and antioxidative enzymes of two turfgrass species under salinity stress. Pedosphere23: 213–222.
  • YildiztugayE, Ozfidan-KonakciC, KucukodukM. 2014. The role of antioxidant responses on the tolerance range of extreme halophyte Salsola crassa grown under toxic salt concentrations. Ecotox Environ Safe110: 21–30.
  • ZhengC, JiangD, LiuF, DaiT, LiuW, JingQ, CaoW. 2009. Exogenous nitric oxide improves seed germination in wheat against mitochondrial oxidative damage induced by high salinity. Environ Exp Bot67: 222–227.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.