Product Details of 61-82-5. Silva, EN; Silveira, JAG; Aragao, RM; Vieira, CF; Carvalho, FEL in [Silva, Evandro Nascimento] Univ Estadual Ceara, Fac Educ Ciencias & Letras Sertao Cent, BR-63900000 Quixada, Ceara, Brazil; [Silveira, Joaquim A. G.; Vieira, Cinthya F.; Carvalho, Fabricio E. L.] Univ Fed Ceara, Dept Bioquim & Biol Mol, Lab Metab Plantas, Campus Pici,CP 6020, BR-60451970 Fortaleza, Ceara, Brazil; [Aragao, Rafael M.] UFRA, Campus Capanema, BR-68700030 Capanema, Para, Brazil published Photosynthesis impairment and oxidative stress in Jatropha curcas exposed to drought are partially dependent on decreased catalase activity in 2019.0, Cited 58.0. The Name is 1H-1,2,4-Triazol-5-amine. Through research, I have a further understanding and discovery of 61-82-5.
Catalase (CAT) is a crucial enzyme to control the excess peroxisomal H2O2 produced during photorespiration. In many plant species, this enzymatic activity decreases in response to drought but its specific role in photosynthesis and redox metabolism is still poorly understood. In this study was tested the hypothesis that photosynthetic and oxidative changes induced by drought are dependent on CAT activity. For this, Jatropha curcas, a drought-tolerant species, was subjected to water deficit and CAT inhibition by a specific pharmacological inhibitor (3-AT), in order to decrease the activity of this enzyme to a similar level as compared to that exhibited by water deficit-treated plants. The CO2 assimilation and other photosynthetic-related parameters were decreased more intensively by drought as compared to plants exposed to 3-AT, whereas the photochemical efficiency of PSII remained unchanged in both conditions. Non-photochemical quenching was strongly increased in drought-treated plants, but only slightly increased in 3-AT treatment. Membrane integrity and lipid peroxidation were strongly increased in both treatments, while H2O2 content was increased only by drought imposition. Ascorbate peroxidase and superoxide dismutase activities were increased in both drought and 3-AT treatments, but glycolate oxidase was strongly increased only in drought-stressed plants. The obtained results evidence that CO2 assimilation and oxidative protection in leaves of Jatropha curcas plants exposed to water deficit are greatly dependent on drought-induced CAT activity deficiency.
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Reference:
Article; Safari, Niloufar; Shirini, Farhad; Tajik, Hassan; Journal of Molecular Structure; vol. 1201; (2020);,
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