biologia plantarum

International journal on Plant Life established by Bohumil Němec in 1959

Biologia plantarum 61:702-708, 2017 | DOI: 10.1007/s10535-016-0699-y

Non-thermal plasma modified growth and physiology in Triticum aestivum via generated signaling molecules and UV radiation

A. Iranbakhsh1,*, M. Ghoranneviss1, Z. Oraghi Ardebili3, N. Oraghi Ardebili4, S. Hesami Tackallou5, H. Nikmaram2
1 Department of Biology, Science and Research Branch, Islamic Azad University, Tehran, Iran
2 Physics Research Center, Science and Research Branch, Islamic Azad University, Tehran, Iran
3 Department of Biology, Garmsar Branch, Islamic Azad University, Garmsar, Iran
4 Department of Biology, Islamshahr Branch, Islamic Azad University, Islamshahr, Iran
5 Department of Biology, Tehran Central Branch, Islamic Azad University, Tehran, Iran

The current research was carried out to reveal the possible impacts of cold plasma on growth and physiology of wheat, as a new approach in plant science. Short and long-term impacts of different types of plasma (nitrogen and helium) with surface power density of 0.4 W cm-2, exposure times (15, 30, 60, and 120 s), and repetitions (1, 2, and 4 times with 24 h intervals) were evaluated. Single-time applied helium or nitrogen derived plasma significantly promoted total root and shoot lengths, in contrast to four times application, and the root system was more sensitive than the shoot one. In addition, seedlings were more sensitive to nitrogen derived plasma, compared with helium. The physiological responses to plasma treatment were analyzed via protein assay and peroxidase or phenylalanine ammonia lyase (PAL) activities measurements. Plasma generated signaling molecules, especially ozone, nitric oxide, and/or UV radiation induced promotions in the peroxidase and PAL activities as well as increase in protein content in leaves, especially when times and/or repetitions increased. Plants were perished by the nitrogen derived plasma at the highest exposure time and number of repetitions. However, the seedlings with inhibited growth not only caught up control one month after, but even the growth rate and biomass accumulation in the shoot and leaves were accelerated. Increased leaf soluble phenol content was recorded in plasma treated seedlings, especially at longer times and more repetitions.

Keywords: cold plasma; helium; nitrogen; nitric oxide; ozone; phenylalanine ammonia lyase; peroxidase; proteins; wheat
Subjects: non-thermal plasma; UV radiation; helium; nitrogen; phenylalanineammonia lyase; peroxidase; proteins; wheat

Received: April 3, 2016; Revised: November 3, 2016; Accepted: November 4, 2016; Published: December 1, 2017  Show citation

ACS AIP APA ASA Harvard Chicago IEEE ISO690 MLA NLM Turabian Vancouver
Iranbakhsh, A., Ghoranneviss, M., Oraghi Ardebili, Z., Oraghi Ardebili, N., Hesami Tackallou, S., & Nikmaram, H. (2017). Non-thermal plasma modified growth and physiology in Triticum aestivum via generated signaling molecules and UV radiation. Biologia plantarum61(4), 702-708. doi: 10.1007/s10535-016-0699-y
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. Alekseev, O., Donovan, K., Limonnik, V. Azizkhan-Clifford, J.: Nonthermal dielectric barrier discharge (DBD) plasma suppresses herpes simplex virus type 1 (HSV-1) replication in corneal epithelium. - Trans. Visual. Sci. Technol. 3: 1-14, 2014. Go to original source...
    2. Beaudoin-Eagan, L.D., Thorpe, T.A.: Tyrosine and phenylalanine ammonia lyase activities during shoot initiation in tobacco callus cultures. - Plant Physiol. 78: 438-441, 1985. Go to original source...
    3. Benjamins, R., Scheres, B.: Auxin: the looping star in plant development. - Annu. Rev. Plant Biol. 59: 443-465, 2008. Go to original source...
    4. Biles, C.L., Abeles, F.B.: Xylem sap proteins. - Plant Physiol. 96: 597-601, 1991. Go to original source...
    5. Bradford, M. M.: A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. - Anal. Biochem. 72: 248-254, 1976. Go to original source...
    6. Bußler, S., Herppich, W.B., Neugart, S., Schreiner, M., Ehlbeck, J., Rohn, S., Schlüter, O.: Impact of cold atmospheric pressure plasma on physiology and flavonol glycoside profile of peas (Pisum sativum 'Salamanca). - Food Res. Int. 76: 132-141, 2015a.
    7. Bußler, S., Steins, V., Ehlbeck, J., Schlüter, O.: Impact of thermal treatment versus cold atmospheric plasma processing on the techno-functional protein properties from Pisum sativum 'Salamanca'. - J. Food Eng. 167: 166-174, 2015b.
    8. Chen, H.H., Chen, Y.K., Chang, H.C.: Evaluation of physicochemical properties of plasma treated brown rice. - Food Chem. 135: 74-79, 2012. Go to original source...
    9. Corpas, F.J., Leterrier, M., Valderrama, R., Airaki, M., Chaki, M., Palma, J.M., Barroso, J.B.: Nitric oxide imbalance provokes a nitrosative response in plants under abiotic stress. - Plant Sci. 181: 604-611, 2011. Go to original source...
    10. Correa-Aragunde, N., Graziano, M., Lamattina, L.: Nitric oxide plays a central role in determining lateral root development in tomato. - Planta 218: 900-905, 2004. Go to original source...
    11. Domingos, P., Prado, A.M., Wong, A., Gehring, C., Feijo, J.A.: Nitric oxide: a multitasked signaling gas in plants. - Mol. Plant. 8: 506-520, 2015. Go to original source...
    12. Fan, C., Hu, H., Wang, L., Zhou, Q., Huang, X.: Enzymological mechanism for the regulation of lanthanum chloride on flavonoid synthesis of soybean seedlings under enhanced ultraviolet-B radiation. - Environ. Sci. Pollut. Res. 21: 8792-8800, 2014. Go to original source...
    13. Farooq, M., Siddique, K.H., Schubert, S.: Role of nitric oxide in improving plant resistance against salt stress. - In: Ahmad, P. (ed.): Ecophysiology and Responses of Plants under Salt Stress. Pp. 413-424. Springer, Dordrecht 2013. Go to original source...
    14. Fernández-Marcos, M., Sanz, L., Lewis, D.R., Muday, G.K., Lorenzo, O.: Nitric oxide causes root apical meristem defects and growth inhibition while reducing PINFORMED 1 (PIN1)-dependent acropetal auxin transport. - Proc. nat. Acad. Sci. USA 108: 18506-18511, 2011. Go to original source...
    15. Filatova, I., Azharonok, V., Kadyrov, M., Beljavsky, V., Gvozdov, A., Shik, A., Antonuk, A.: The effect of plasma treatment of seeds of some grains and legumes on their sowing quality and productivity. - Rom. J. Phys. 56: 139-143, 2011.
    16. Fridman, A.: Plasma Chemistry. - Cambridge University Press, Cambridge 2008
    17. Goldwasser, Y., Hershenhorn, J., Plakhine, D., Kleifeld, Y., Rubin, B.: Biochemical factors involved in vetch resistance to Orobanche aegyptiaca. - Physiol. mol. Plant Pathol. 54: 87-96, 1999. Go to original source...
    18. Groß, F., Durner, J., Gaupels, F.: Nitric oxide, antioxidants and prooxidants in plant defence responses. - Front. Plant Sci. 4: 419, 2013.
    19. Grzegorzewski, F., Ehlbeck, J., Schlüter, O., Kroh, L.W., Rohn, S.: Treating lamb's lettuce with a cold plasma-influence of atmospheric pressure Ar plasma immanent species on the phenolic profile of Valerianella locusta. - LWT-Food Sci. Technol. 44: 2285-2289, 2011. Go to original source...
    20. Hasanuzzaman, M., Hossain, M.A., Da Silva, J.A.T., Fujita, M.: Plant response and tolerance to abiotic oxidative stress: antioxidant defense is a key factor. - In: Venkateswarlu, B. (ed.): Crop Stress and Its Management: Perspectives and Strategies. P. 261-315. Springer, Dordrecht 2012. Go to original source...
    21. Ibrahim, M., Srour, H.: Effect of solar UV radiation on antioxidant enzymes and phenols biosynthesis in lettuce (Lactuca sativa). - Arab. Univ. J. agr. Sci. 23: 101-108, 2015. Go to original source...
    22. Jia, X., Ren, L., Chen, Q. J., Li, R., Tang, G.: UV-B-responsive microRNAs in Populus tremula. - J. Plant Physiol. 166: 2046-2057, 2009. Go to original source...
    23. Jiang, J., Lu, Y., Li, J., Li, L., He, X., Shao, H., Dong, Y.: Effect of seed treatment by cold plasma on the resistance of tomato to Ralstonia solanacearum (bacterial wilt). - Plos ONE 9: e97753, 2014. Go to original source...
    24. Kashyap, P., Sehrawat, A., Deswal, R.: Nitric oxide modulates Lycopersicon esculentum C-repeat binding factor 1 (LeCBF1) transcriptionally as well as post-translationally by nitrosylation. - Plant Physiol. Biochem. 96: 115-123, 2015. Go to original source...
    25. Kumari, R., Singh, S., Agrawal, S.: Response of ultraviolet-B induced antioxidant defense system in a medicinal plant, Acorus calamus. - J. environ. Biol. 31: 907-911, 2010.
    26. Labanowska, M., Kurdziel, M., Filek, M.: Changes of paramagnetic species in cereal grains upon short-term ozone action as a marker of oxidative stress tolerance. - J. Plant Physiol. 190: 54-66, 2016. Go to original source...
    27. Lamattina, L., Polacco, J.C.: Nitric Oxide in Plant Growth, Development and Stress Physiology. - Springer Science & Business Media, Nuremburg 2007. Go to original source...
    28. Li, L., Zhao, J., Tang, X.: Ultraviolet irradiation induced oxidative stress and response of antioxidant system in an intertidal macroalgae Corallina officinalis L. - J. environ. Sci. 22: 716-722, 2010. Go to original source...
    29. Ling, L., Jiafeng, J., Jiangang, L., Minchong, S., Xin, H., Hanliang, S., Yuanhua, D.: Effects of cold plasma treatment on seed germination and seedling growth of soybean. - Sci. Rep. 4: 112-116, 2014. Go to original source...
    30. Louste, C., Artana, G., Moreau, E., Touchard, G.: Sliding discharge in air at atmospheric pressure: electrical properties. - J. Electrostatics. 63: 615-620, 2005. Go to original source...
    31. Martínez-Lüscher, J., Morales, F., Delrot, S., Sánchez-Díaz, M., Gomès, E., Aguirreolea, J., Pascual, I.: Short-and long-term physiological responses of grapevine leaves to UV-B radiation. - Plant Sci. 213: 114-122, 2013. Go to original source...
    32. Méndez-Bravo, A., Raya-González, J., Herrera-Estrella, L., López-Bucio, J.: Nitric oxide is involved in alkamideinduced lateral root development in Arabidopsis. - Plant Cell Physiol. 51: 1612-1626, 2010. Go to original source...
    33. Mihai, A., Dobrin, D., Magurenau, M., Popa M.: Positive effect of non-thermal plasma treatment in radish seeds. - Rom. Rep. Phys. 66: 1110-1117, 2014.
    34. Mitra, A., Li, Y.F., Klämpfl, T.G., Shimizu, T., Jeon, J., Morfill, G.E., Zimmermann, J.L.: Inactivation of surfaceborne microorganisms and increased germination of seed specimen by cold atmospheric plasma. - Food Bioproces. Technol. 7: 645-653, 2014. Go to original source...
    35. Park, D.P., Davis, K., Gilani, S., Alonzo, C-A., Dobrynin, D., Friedman, G., Fridman, A., Rabinovich, A., Fridman, G.: Reactive nitrogen species produced in water by nonequilibrium plasma increase plant growth rate and nutritional yield. - Curr. appl. Phys. 13: S19-S29, 2013. Go to original source...
    36. Santisree, P., Bhatnagar-Mathur, P., Sharma, K.K.: NO to drought - multifunctional role of nitric oxide in plant drought: do we have all the answers?. - Plant Sci. 239: 44-55, 2015. Go to original source...
    37. Sera, B., Spatenka, P., Sery, M., Vrchotova, N., Hruskova, I.: Influence of plasma treatment on wheat and oat germination and early growth. - IEEE Trans. Plasma Sci. 38: 2963-2968, 2010. Go to original source...
    38. Será, B., Stranák, V., Serý, M., Tichý, M., Spatenka, P.: Germination of Chenopodium album in response to microwave plasma treatment. - Plasma Sci. Technol. 10: 506, 2008. Go to original source...
    39. Shi, J., Kong, M.G.: Mechanisms of the α and γ modes in radiofrequency atmospheric glow discharges. - J. appl. Phys. 97: 023306, 2005. Go to original source...
    40. Siddiqui, M.H., Al-Whaibi, M.H., Basalah, M.O.: Interactive effect of calcium and gibberellin on nickel tolerance in relation to antioxidant systems in Triticum aestivum L. - Protoplasma 248: 503-511, 2011. Go to original source...
    41. Stolárik, T., Henselová, M., Martinka, M., Novák, O., Zahoranová, A., Cernák, M.: Effect of low-temperature plasma on the structure of seeds, growth and metabolism of endogenous phytohormones in pea (Pisum sativum L.). - Plasma Chem. Plasma Proc. 35: 659-676, 2015. Go to original source...
    42. Torsethaugen, G., Pitcher, L.H., Zilinskas, B.A., Pell, E.J.: Overproduction of ascorbate peroxidase in the tobacco chloroplast does not provide protection against ozone. - Plant Physiol. 114: 529-537, 1997. Go to original source...
    43. Wang, Y., Loake, G.J. Chu, C.: Cross-talk of nitric oxide and reactive oxygen species in plant programed cell death. - Front. Plant Sci. 4: 314, 2013. Go to original source...
    44. Welch, R.M., Graham, R.D.: Breeding for micronutrients in staple food crops from a human nutrition perspective. - J. exp. Bot. 55: 353-364, 2004. Go to original source...
    45. Wu, Z., Chi, L., Bian, S., Xu, K.: Effects of plasma treatment on maize seedling resistance. - J. Maize Sci. 15: 111-113, 2007.

    Return to the content