Nasrin Shirzadi scite author profile

Nasrin Shirzadi

2Publications

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85Citation Statements Given

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Lorestan University

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Genotype‐ and tissue‐specific physiological and biochemical changes of two chickpea (Cicer arietinum) varieties following a rapid dehydration

Salahvarzi

Esfahani

Shirzadi

et al. 2021

Physiologia Plantarum

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In nature, plants may suffer rapid dehydration (RD), which causes significant loss of the annual global chickpea production. Thus, ascertaining more knowledge concerning the RD-tolerance mechanisms in chickpea is crucial for developing high drought-tolerant varieties to assure sustainable chickpea production under sudden water deficit. Here, we focused on genotype-driven variation in leaf relative water content (RWC) and associated differences in RD-responsive physiological and biochemical attributes in roots and leaves of two chickpea varieties, FLIP00-21C and FLIP02-89C, subjected to well-watered and RD conditions. FLIP00-21C showed higher RD-tolerance than FLIP02-89C, evident by its higher leaf RWC during RD. Consistently, FLIP00-21C exhibited lower membrane injury due to lower hydrogen peroxide (H 2 O 2 ) accumulation than FLIP02-89C during RD, indicating reduced RD-induced oxidative damage. Under RD conditions, total phenolics in roots and flavonoids in roots and leaves increased more in FLIP02-89C compared to FLIP00-21C; however, the increased activities of superoxide dismutase and H 2 O 2 -scavenging enzymes were more properly coordinated in FLIP00-21C than in FLIP02-89C, which might contribute to more efficient antioxidant defense in FLIP00-21C than in FLIP02-89C. The higher leaf RWC of FLIP00-21C versus FLIP02-89C under RD might be associated with greater increases in the levels of the osmo-regulators proline and total free amino acids (TFAAs) in FLIP00-21C than in FLIP02-89C. Collectively, the higher RD-tolerance of FLIP00-21C is mainly associated with the maintenance of higher RWC, stronger antioxidant defense, and greater accumulation of proline and TFAAs. These traits could be useful for evaluating the drought-tolerance of chickpea varieties and further marker-assisted breeding approaches for improvement of chickpea productivity.

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Investigation of the Effect of Pyrogallol on the Formation of Amylin Amyloid Fibrils as a Strategy for the Treatment of Type 2 Diabetic Patients: A Theoretical and Experimental Study

2023

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Nasrin Shirzadi

Genotype‐ and tissue‐specific physiological and biochemical changes of two chickpea (Cicer arietinum) varieties following a rapid dehydration

Investigation of the Effect of Pyrogallol on the Formation of Amylin Amyloid Fibrils as a Strategy for the Treatment of Type 2 Diabetic Patients: A Theoretical and Experimental Study

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