Noreen Zahra scite author profile

Cadmium (Cd) is one of the most toxic metals in the environment, and has noxious effects on plant growth and production. Cd-accumulating plants showed reduced growth and productivity. Therefore, remediation of this non-essential and toxic pollutant is a prerequisite. Plant-based phytoremediation methodology is considered as one a secure, environmentally friendly, and cost-effective approach for toxic metal remediation. Phytoremediating plants transport and accumulate Cd inside their roots, shoots, leaves, and vacuoles. Phytoremediation of Cd-contaminated sites through hyperaccumulator plants proves a ground-breaking and profitable choice to combat the contaminants. Moreover, the efficiency of Cd phytoremediation and Cd bioavailability can be improved by using plant growth-promoting bacteria (PGPB). Emerging modern molecular technologies have augmented our insight into the metabolic processes involved in Cd tolerance in regular cultivated crops and hyperaccumulator plants. Plants’ development via genetic engineering tools, like enhanced metal uptake, metal transport, Cd accumulation, and the overall Cd tolerance, unlocks new directions for phytoremediation. In this review, we outline the physiological, biochemical, and molecular mechanisms involved in Cd phytoremediation. Further, a focus on the potential of omics and genetic engineering strategies has been documented for the efficient remediation of a Cd-contaminated environment.

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Grain development in wheat under combined heat and drought stress: Plant responses and management

Zahra

Wahid

Hafeez

et al. 2021

Environmental and Experimental Botany

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Regulation of photosynthesis under salt stress and associated tolerance mechanisms

Zahra

Hinai

Hafeez

et al. 2022

Plant Physiology and Biochemistry

167

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Diverse Physiological Roles of Flavonoids in Plant Environmental Stress Responses and Tolerance

Shomali

Das

Arif

et al. 2022

Plants

124

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Flavonoids are characterized as the low molecular weight polyphenolic compounds universally distributed in planta. They are a chemically varied group of secondary metabolites with a broad range of biological activity. The increasing amount of evidence has demonstrated the various physiological functions of flavonoids in stress response. In this paper, we provide a brief introduction to flavonoids’ biochemistry and biosynthesis. Then, we review the recent findings on the alternation of flavonoid content under different stress conditions to come up with an overall picture of the mechanism of involvement of flavonoids in plants’ response to various abiotic stresses. The participation of flavonoids in antioxidant systems, flavonoid-mediated response to different abiotic stresses, the involvement of flavonoids in stress signaling networks, and the physiological response of plants under stress conditions are discussed in this review. Moreover, molecular and genetic approaches to tailoring flavonoid biosynthesis and regulation under abiotic stress are addressed in this review.

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Brassinosteroids: Molecular and physiological responses in plant growth and abiotic stresses

Hafeez

Zahra

et al. 2021

Plant Stress

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Noreen Zahra

Phytoremediation of Cadmium: Physiological, Biochemical, and Molecular Mechanisms

Grain development in wheat under combined heat and drought stress: Plant responses and management

Regulation of photosynthesis under salt stress and associated tolerance mechanisms

Diverse Physiological Roles of Flavonoids in Plant Environmental Stress Responses and Tolerance

Brassinosteroids: Molecular and physiological responses in plant growth and abiotic stresses

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