جلد 14، شماره 67 - ( جلد 14، شماره 67، مرداد و شهریور 1404 )
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Mottaki Z, Ghader H, Gholipour A, Lohrasebi T. Changes in chloroplast ultrastructure, specific and phenomenological energy flux, and proline content in the Dracocephalum kotschyi plants during acclimation to combined UVB radiation and high light stress. Plant Process and Function 2025; 14 (67) : 1
URL: http://jispp.iut.ac.ir/article-1-2019-fa.html
URL: http://jispp.iut.ac.ir/article-1-2019-fa.html
Mottaki Zahra، Habibi Ghader، Gholipour Abbas، Lohrasebi Tahmineh. Changes in chloroplast ultrastructure, specific and phenomenological energy flux, and proline content in the Dracocephalum kotschyi plants during acclimation to combined UVB radiation and high light stress. فرآیند و کارکرد گیاهی. 1404; 14 (67) :1-10
1- Department of Biology, Payame Noor University (PNU), PO BOX 19395-3697 Tehran, Iran
2- Department of Biology, Payame Noor University (PNU), PO BOX 19395-3697 Tehran, Iran ،ghabibi@pnu.ac.ir
3- Plant Molecular Genetics, Plant Bioproducts Department, National Institute for Genetic Engineering, Tehran, Iran
2- Department of Biology, Payame Noor University (PNU), PO BOX 19395-3697 Tehran, Iran ،
3- Plant Molecular Genetics, Plant Bioproducts Department, National Institute for Genetic Engineering, Tehran, Iran
چکیده: (65 مشاهده)
High light (HL) and enhanced ultraviolet-B (UVB) radiation are major abiotic constraints affecting plant growth worldwide. We studied the effect of HL and UVB on chloroplast ultrastructure, specific and phenomenological energy flux, and proline content in low and high-altitude Dracocephalum kotschyi plants. Plants were treated with two levels of light intensity, including 400 and high light (HL, 800 µmol m-2 s-1), as well as with two levels of ultraviolet-B irradiation (control, UVB, 15 and 30 kJ m-2 d-1) for a further 10 days. We observed that the exposure of high-altitude plants to combined stress (HL+UVB) caused an increase in proline content; however, after exposure of low-altitude plants to stress combination, proline content decreased significantly. Based on present results, trapped energy flux (TRO/CSm) and electron transport flux (ETO/CSm) decreased with UVB15+HL because active reaction centers (RCs) are converted into inactive or closed RCs consequently decreasing the trapping efficiency and electron transport from PSII. Interestingly, in high-altitude plants exposed to UVB30+HL, the ratio of total dissipation to the number of active RCs (DIO/RC) is not very influenced, due to the effective utilization of energy by the active RCs. Ultrastructural analyses of chloroplasts revealed an accumulation of plastoglobules only in high-altitude plants leaves under control conditions. In both low and high-altitude plants, UVB30 alone and combined UVB30+HL treatments caused a significant increase in starch granules in chloroplasts, and those chloroplasts tended to be round, especially in high-altitude plants. Thus, significant variation in chloroplast ultrastructure, specific and phenomenological energy flux, and proline content exists between low and high-altitude Dracocephalum kotschyi plants, which is apparently due to their altitudinal distributions.
شمارهی مقاله: 1
نوع مطالعه: پژوهشي |
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دریافت: 1402/10/21 | پذیرش: 1403/4/12 | انتشار: 1404/6/15
دریافت: 1402/10/21 | پذیرش: 1403/4/12 | انتشار: 1404/6/15
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