Atia B. Amin scite author profile

Atia B. Amin

2Publications

19Citation Statements Received

157Citation Statements Given

How they've been cited

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157

Affiliations

Université du Québec à Montréal, University of South Dakota

Publications

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Crassulacean Acid Metabolism Abiotic Stress-Responsive Transcription Factors: a Potential Genetic Engineering Approach for Improving Crop Tolerance to Abiotic Stress

et al. 2019

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This perspective paper explores the utilization of abiotic stress-responsive transcription factors (TFs) from crassulacean acid metabolism (CAM) plants to improve abiotic stress tolerance in crop plants. CAM is a specialized type of photosynthetic adaptation that enhances water-use efficiency (WUE) by shifting CO 2 uptake to all or part of the nighttime when evaporative water losses are minimal. Recent studies have shown that TF-based genetic engineering could be a useful approach for improving plant abiotic stress tolerance because of the role of TFs as master regulators of clusters of stress-responsive genes. Here, we explore the use of abiotic stress-responsive TFs from CAM plants to improve abiotic stress tolerance and WUE in crops by controlling the expression of gene cohorts that mediate drought-responsive adaptations. Recent research has revealed several TF families including AP2/ERF , MYB, WRKY, NAC , NF-Y , and bZIP that might regulate water-deficit stress responses and CAM in the inducible CAM plant Mesembryanthemum crystallinum under water-deficit stress-induced CAM and in the obligate CAM plant Kalanchoe fedtschenkoi . Overexpression of genes from these families in Arabidopsis thaliana can improve abiotic stress tolerance in A. thaliana in some instances. Therefore, we propose that TF-based genetic engineering with a small number of CAM abiotic stress-responsive TFs will be a promising strategy for improving abiotic stress tolerance and WUE in crop plants in a projected hotter and drier landscape in the 21st-century and beyond.

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Wireless Sensor Network and Irrigation System to Monitor Wheat Growth under Drought Stress

Amin

Dubois

Thurel

et al. 2021

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Studying drought in a greenhouse setting allows to analyze plant growth under controlled environmental conditions. However, simulating different drought intensities by varying the soil moisture is challenging. This study describes a sensory and control system to simulate drought conditions for wheat, within a framework to study this crop's genetic responses under drought stress. The system uses drip irrigation and allows to maintain the soil moisture within a specified range on potted wheat plants. It allows identifying the amount of water required for irrigation in wheat growth stages, and conducting biological experiments to understand the effects of drought stress on wheat growth.

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Atia B. Amin

Crassulacean Acid Metabolism Abiotic Stress-Responsive Transcription Factors: a Potential Genetic Engineering Approach for Improving Crop Tolerance to Abiotic Stress

Wireless Sensor Network and Irrigation System to Monitor Wheat Growth under Drought Stress

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