Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg

Dilek Ünal; İnci Tüney Kızılkaya

doi:10.18466/cbayarfbe.410546

Araştırma Makalesi

Yıl 2018, Cilt: 14 Sayı: 4, 399 - 404, 28.12.2018

Dilek Ünal İnci Tüney Kızılkaya

https://doi.org/10.18466/cbayarfbe.410546

Öz

Kaynakça

1. Strid, AW, Chow, WS, Anderson, JM, UV-B damage and protection at the molecular level in plants, Photosynthesis Research, 1994, 39, 475-489.
2. Riegger, L, Robinson, D, Photoinduction of UV-absorbing compounds in Antarctic diatoms and Phaeocystis antartica. Marine Ecology Progress Series, 1997 160, 13-25.
3. Bouchereau, A, Aziz, A, Larher, F, Martin-Tanguy, J, Polyamines and environmental challenges, recent development, Plant Science, 1999 140, 103–125.
4. Kramer, GF, Norman, HA, Krizek, DT, Mirecki, RM, Influence of UV-B radiation on polyamines, lipid peroxidation and membrane lipids in cucumber, Phytochemistry, 1991, 30, 2101–2108.
5. Kotzabasis, K, Fotinou, C, Roubelakis-Angelakis, KA, Ghanotakis, D, Polyamines in the photosynthetic apparatus, Photosystem II highly resolved subcomplexes are enriched in spermine, Photosynthesis Research, 1993, 38, 83–88.
6. Bates, LS, Waldren, RP, Tear, ID, Rapid determination of free proline for water-stress studies, Plant Soil, 1973, 39, 205–207.
7. Unal, D, Tuney, I, Sukatar, A, The role of external polyamines on photosynthetic responses, lipid peroxidation, protein and chlorophyll a content under the UV-A (352 nm) stress in Physcia semipinnata, Journal of Photochemistry and Photobiology B, 2008, 90, 64-68.
8. Lütz, C, Navakoudis, E, Seidlitz, HK, Kotzabasis, K, Simulated solar irradiation with enhanced UV-B adjust plastid-and thylakoid-associated polyamine changes for UV-B protection, Biochimica et Biophysica Acta-Bioenergetics, 2005, 1710, 24-33.
9. Demir, Y, Growth and proline content of germinating wheat genotypes under ultraviolet light, Turkish Journal of Botany, 2000, 24, 67-70.
10. Alia, P, Mohanty, P, Matysik, J, Effect of proline on the production of singlet oxygen, Amino Acids, 2001, 21, 195-200.
11. Smirnoff, N, Cumbes, QJ, Hydroxyl radical scavenging activity of compatible solute, Phytochemistry, 1989, 28, 1057–1060.
12. Wang, X, Shi, G, Xu, Q, Hu, J, Exogenous polyamines enhance copper tolerance of Nymphoides peltatum, Journal of Plant Physiology, 2007, 164, 1062-70.
13. Duan, JJ, Li, J, Guo, SR, Kang, YY, Exogenous Spermidine affects polyamine metabolism in salinity-stressed Cucumis sativus roots and enhances short-term salinity tolerance, Journal of Plant Physiology, 2008, 165, 1620-35.
14. Aziz, A, Martin-Tanguy, J, Larher, F, Stress-induced changes in polyamine and tyramine levels can regulate proline accumulation in tomato leaf discs treated with sodiumchloride, Physiologia Plantarum, 1998, 104, 195-202.
15. Tanou, G, Ziogas, V, Belghazi, M, Christou, A, Filippou, P, Job, D, Fotopoulos, V, Molassiotis, A, Polyamines reprogram oxidative and nitrosative status and the proteome of citrus plants exposed to salinity stress, Plant Cell and Environment, 2014, 37,864-885.
16. Kumar, SG, Mattareddy, A, Sudhakar, C, NaCl effects on proline metabolism in two high yielding genotypes of mulberry (Marus alba L.) with contrasting salt tolerance, Plant Science, 2003, 165, 1245-1251.
17. Hoerter, ID, Arnold, AA, Kuczynska, DA, Shibuya, A, Ward, CS, Sauer, MG, Effects of sublethal UVA irradiation on activity levels of oxidative defense enzymes and protein oxidation in Escherichia coli, Journal of Journal of Photochemistry and Photobiology B, 2005, 81, 171–180.
18. Unal, D, Tuney, I, Esiz-Dereboylu, A, Sukatar, A, The effect of UV-A (352 nm) stress on chlorophyll fluorescence, chlorophyll a content, thickness of upper cortex and determinate DNA damage in Physcia semipinnata, Photochemistry and Photobiology, 2009, 94, 71-76.
19. Oh, TJ, Kim, IG, Polyamines protect against DNA strand breaks and aid cell survival against irradiation in Escherichia coli, Biotechnology Techniques, 1998, 12, 755–758.
20. Solheim, B, Zielke, M, Bjerke, JW, Rozema, J, Effects of enhanced UV-B radiation on nitrogen fixation in arctic ecosystems, Plant Ecol, 2006, 182, 109-118.

Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg

Yıl 2018, Cilt: 14 Sayı: 4, 399 - 404, 28.12.2018

Dilek Ünal İnci Tüney Kızılkaya

https://doi.org/10.18466/cbayarfbe.410546

Öz

In this study the protection ability of polyamines on
Photosystem II (PSII), the proline content of the cells and necrosis formation
induced by Ultraviolet-A irradiation were studied. Although 24 h Ultraviolet-A
exposure decreased the photosynthetic quantum yield (Fv/Fm) ratio in Physcia semipinnata (J. F. Gmel.) Moberg,
thalli that treated with 1 mM polyamine, especially spermidine and spermine,
were slightly influenced by the UV-A exposure. It was also found that spd and
spm treated samples had lower proline content than putrescine (put)-treated samples.
Moreover, It was found that the samples that were treated with spd and spm had
lower percentage of DNA damage than put-treated samples and non-treated groups.
In this study, Ultraviolet-A induced DNA damage detected by acridine
orange/ethidium bromide staining assay. The DNA damage in thalli of P. semipinnata
was detected in situ in phycobiont layer after 24 h of Ultraviolet-A exposure,
in contrast, polyamine-treated samples had a lower rate of necrotic cells.

Anahtar Kelimeler

polyamine, photosystem II, proline, UV-A, lichen

Kaynakça

1. Strid, AW, Chow, WS, Anderson, JM, UV-B damage and protection at the molecular level in plants, Photosynthesis Research, 1994, 39, 475-489.
2. Riegger, L, Robinson, D, Photoinduction of UV-absorbing compounds in Antarctic diatoms and Phaeocystis antartica. Marine Ecology Progress Series, 1997 160, 13-25.
3. Bouchereau, A, Aziz, A, Larher, F, Martin-Tanguy, J, Polyamines and environmental challenges, recent development, Plant Science, 1999 140, 103–125.
4. Kramer, GF, Norman, HA, Krizek, DT, Mirecki, RM, Influence of UV-B radiation on polyamines, lipid peroxidation and membrane lipids in cucumber, Phytochemistry, 1991, 30, 2101–2108.
5. Kotzabasis, K, Fotinou, C, Roubelakis-Angelakis, KA, Ghanotakis, D, Polyamines in the photosynthetic apparatus, Photosystem II highly resolved subcomplexes are enriched in spermine, Photosynthesis Research, 1993, 38, 83–88.
6. Bates, LS, Waldren, RP, Tear, ID, Rapid determination of free proline for water-stress studies, Plant Soil, 1973, 39, 205–207.
7. Unal, D, Tuney, I, Sukatar, A, The role of external polyamines on photosynthetic responses, lipid peroxidation, protein and chlorophyll a content under the UV-A (352 nm) stress in Physcia semipinnata, Journal of Photochemistry and Photobiology B, 2008, 90, 64-68.
8. Lütz, C, Navakoudis, E, Seidlitz, HK, Kotzabasis, K, Simulated solar irradiation with enhanced UV-B adjust plastid-and thylakoid-associated polyamine changes for UV-B protection, Biochimica et Biophysica Acta-Bioenergetics, 2005, 1710, 24-33.
9. Demir, Y, Growth and proline content of germinating wheat genotypes under ultraviolet light, Turkish Journal of Botany, 2000, 24, 67-70.
10. Alia, P, Mohanty, P, Matysik, J, Effect of proline on the production of singlet oxygen, Amino Acids, 2001, 21, 195-200.
11. Smirnoff, N, Cumbes, QJ, Hydroxyl radical scavenging activity of compatible solute, Phytochemistry, 1989, 28, 1057–1060.
12. Wang, X, Shi, G, Xu, Q, Hu, J, Exogenous polyamines enhance copper tolerance of Nymphoides peltatum, Journal of Plant Physiology, 2007, 164, 1062-70.
13. Duan, JJ, Li, J, Guo, SR, Kang, YY, Exogenous Spermidine affects polyamine metabolism in salinity-stressed Cucumis sativus roots and enhances short-term salinity tolerance, Journal of Plant Physiology, 2008, 165, 1620-35.
14. Aziz, A, Martin-Tanguy, J, Larher, F, Stress-induced changes in polyamine and tyramine levels can regulate proline accumulation in tomato leaf discs treated with sodiumchloride, Physiologia Plantarum, 1998, 104, 195-202.
15. Tanou, G, Ziogas, V, Belghazi, M, Christou, A, Filippou, P, Job, D, Fotopoulos, V, Molassiotis, A, Polyamines reprogram oxidative and nitrosative status and the proteome of citrus plants exposed to salinity stress, Plant Cell and Environment, 2014, 37,864-885.
16. Kumar, SG, Mattareddy, A, Sudhakar, C, NaCl effects on proline metabolism in two high yielding genotypes of mulberry (Marus alba L.) with contrasting salt tolerance, Plant Science, 2003, 165, 1245-1251.
17. Hoerter, ID, Arnold, AA, Kuczynska, DA, Shibuya, A, Ward, CS, Sauer, MG, Effects of sublethal UVA irradiation on activity levels of oxidative defense enzymes and protein oxidation in Escherichia coli, Journal of Journal of Photochemistry and Photobiology B, 2005, 81, 171–180.
18. Unal, D, Tuney, I, Esiz-Dereboylu, A, Sukatar, A, The effect of UV-A (352 nm) stress on chlorophyll fluorescence, chlorophyll a content, thickness of upper cortex and determinate DNA damage in Physcia semipinnata, Photochemistry and Photobiology, 2009, 94, 71-76.
19. Oh, TJ, Kim, IG, Polyamines protect against DNA strand breaks and aid cell survival against irradiation in Escherichia coli, Biotechnology Techniques, 1998, 12, 755–758.
20. Solheim, B, Zielke, M, Bjerke, JW, Rozema, J, Effects of enhanced UV-B radiation on nitrogen fixation in arctic ecosystems, Plant Ecol, 2006, 182, 109-118.

Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Mühendislik
Bölüm	Makaleler
Yazarlar	Dilek Ünal İnci Tüney Kızılkaya
Yayımlanma Tarihi	28 Aralık 2018
Yayımlandığı Sayı	Yıl 2018 Cilt: 14 Sayı: 4

Kaynak Göster

APA	Ünal, D., & Tüney Kızılkaya, İ. (2018). Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg. Celal Bayar University Journal of Science, 14(4), 399-404. https://doi.org/10.18466/cbayarfbe.410546
AMA	Ünal D, Tüney Kızılkaya İ. Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg. CBUJOS. Aralık 2018;14(4):399-404. doi:10.18466/cbayarfbe.410546
Chicago	Ünal, Dilek, ve İnci Tüney Kızılkaya. “Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia Semipinnata (J. F. Gmel.) Moberg”. Celal Bayar University Journal of Science 14, sy. 4 (Aralık 2018): 399-404. https://doi.org/10.18466/cbayarfbe.410546.
EndNote	Ünal D, Tüney Kızılkaya İ (01 Aralık 2018) Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg. Celal Bayar University Journal of Science 14 4 399–404.
IEEE	D. Ünal ve İ. Tüney Kızılkaya, “Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg”, CBUJOS, c. 14, sy. 4, ss. 399–404, 2018, doi: 10.18466/cbayarfbe.410546.
ISNAD	Ünal, Dilek - Tüney Kızılkaya, İnci. “Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia Semipinnata (J. F. Gmel.) Moberg”. Celal Bayar University Journal of Science 14/4 (Aralık 2018), 399-404. https://doi.org/10.18466/cbayarfbe.410546.
JAMA	Ünal D, Tüney Kızılkaya İ. Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg. CBUJOS. 2018;14:399–404.
MLA	Ünal, Dilek ve İnci Tüney Kızılkaya. “Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia Semipinnata (J. F. Gmel.) Moberg”. Celal Bayar University Journal of Science, c. 14, sy. 4, 2018, ss. 399-04, doi:10.18466/cbayarfbe.410546.
Vancouver	Ünal D, Tüney Kızılkaya İ. Exogenous Polyamine Treatment Prevents UV-A Induced Cellular Damage and Photoinhibition of Photosystem II in Lichen Physcia semipinnata (J. F. Gmel.) Moberg. CBUJOS. 2018;14(4):399-404.

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