CaO and Graphene Oxide Enhances Drought Stress from Callus Tissues of Medicago Sativa L. Cultivars

Authors : Büşra YAZICILAR, İsmail BEZİRGANOGLU, Yen Ling CHANG, Muthukumar NADAR
Pages : 2450-2458
Doi:10.21597/jist.1125699
View : 43 | Download : 15
Publication Date : 2022-12-01
Article Type : Research Paper
Abstract :Drought stress can be described as multidimensional stress factors affecting plants’ growth, development, and productivity. In order to reduce the adverse impact of drought stress, a plethora of attempts have been employed. Among those attempts, nano-engineered particles have gained a remarkable attention. Of the relevant particles, calcium oxide insert ignore into journalissuearticles values(CaO); and graphene oxide insert ignore into journalissuearticles values(GO); have been well-documented to positively regulate and mediate the plant growth system through shifting physiological biochemical and molecular aspects of the plant. The solo impacts of the nanoparticles are well-known but their interactions were not assayed for Medicago sativa L. cultivars. For that reason, the present study investigates the impact of CaO NPs and GO on the response and regulation of the defensive mechanism in alfalfa insert ignore into journalissuearticles values(Medicago sativa L.); callus in drought stress-suffered cultivars. The activation of CaO-GO can be induced with mannitol in the callus of alfalfa cultivars. Dry and fresh weight values were determined in callus samples. There were significant differences between cultivars and concentration. In terms of MDA, H2O2, proline content, it was observed that the Ca2+ NPs application was important, and it showed a strong link with the resistance degree of cultivars. Erzurum cultivar was observed for better proline content with 1.5 ppm GO. MDA activities demonstrated an increasing trend concerning concentrations of mannitol and nanoparticles. The MDA highest activity was observed with 1/2 ppm CaO+0.5/1.5 ppm GO insert ignore into journalissuearticles values(0.1849 mg/g FW); in the Erzurum. However, the Erzurum cultivar responded with better H2O2 content with 100 mM mannitol +0.5 ppm insert ignore into journalissuearticles values(0.1017 mg/g FW);. This result has presented, under in vitro conditions, that the supplementation of CaO and GO can importantly reduce the negative impacts of drought stress on alfalfa callus; additionally, it has been seen that the dosages of nanoparticle and mannitol are also important.
Keywords : Alfalfa, nanoparticules, mannitol, in vitro culture

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