Dalila Jacqueline Escudero-Almanza scite author profile

Dalila Jacqueline Escudero-Almanza

2Publications

21Citation Statements Received

117Citation Statements Given

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111

Affiliations

Autonomous University of Chihuahua

Publications

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Carbonic Anhydrase and Zinc in Plant Physiology

Escudero-Almanza

Barrios

Hernández-Rodríguez

et al. 2012

Chilean J. Agric. Res.

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Carbonic anhydrase (CA) (EC: 2.4.1.1) catalyzes the rapid conversion of carbon dioxide plus water into a proton and the bicarbonate ion (HCO3 -) that can be found in prokaryotes and higher organisms; it is represented by four different families. Carbonic anhydrase is a metalloenzyme that requires Zn as a cofactor and is involved in diverse biological processes including pH regulation, CO2 transfer, ionic exchange, respiration, CO2 photosynthetic fixation, and stomatal closure. Therefore, the review includes relevant aspects about CA morphology, oligomerization, and structural differences in the active site. On the other hand, we consider the general characteristics of Zn, its geometry, reactions, and physiology. We then consider the CA catalysis mechanism that is carried out by the metal ion and where Zn acts as a cofactor. Zinc deficiency can inhibit growth and protein synthesis, and there is evidence that it reduces the CA content in some plants, which is a relationship addressed in this review. In leaves, CA represents 20.1% of total soluble protein, while it is the second most abundant in the chloroplast after ribulose 1,5-disphosphate carboxylase/oxygenase (RuBisCO). This facilitates the supply of CO2 to the phosphoenolpyruvate carboxylase in C4 and CAM plants and RuBisCO in C3 plants.

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Proline and Oxidative Metabolism in Young Pecan Trees Associated with Sulphate Accumulation

Escudero-Almanza¹,

Cruz-Álvarez²,

Hern醤dez-Rodr韌uez³

et al. 2022

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Pecan [Carya illinoinensis (Wangenh.) K. Koch.] is a deciduous tree whose fruits (nuts) are of high economic value and offer excellent nutritional benefits. However, soils high in sulphates can limit its growth and development. Working with 5-year-old trees of 'Western Schley' pecan grown in soils high in sulphates, the levels of proline and oxidative metabolism were recorded in the leaflets. Results showed that different levels of visible leaflet damage ('sufficiency' , 'low' , 'moderate' or 'severe') were associated with different levels of leaflet sulphates (mg kg −1 ): 'sufficiency' (≤40), 'low' (41-60), 'moderate' (61-80) and 'severe' (80-100). 'Severe' sulphate damage was associated with significant reductions in chlorophyll (TChl) (17.04 μg g −1 ), relative water content (RWC) (50%) and leaf area (LA), and with increases in the concentrations of total carotenoids (TC) and proline (Prl). Increases were also observed in the activities of the oxidative metabolism enzymes: superoxide dismutase (SOD) (1.82 units min −1 g −1 ), catalase (CAT) (2.86 μmol H 2 O 2 min −1 g −1 ) and antioxidant capacity (AC) (87% DPPH inhibition). However, guaiacol peroxidase (GP) showed a reduction (2.97 nmol GSH min −1 g −1 ). An inverse relationship was found between the sulphate concentration in the leaflets with respect to the evaluated parameters of TChl, TC, RWC, LA, AC, and GP. Proline synthesis and antioxidant enzymatic activity indicate salt stress in pecan leaflets in orchards irrigated with deep-well water high in sulphates.

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