Controlling Botrytis gray mold in strawberry fruit by bioactive protein isolated from kidney bean

Hossam S. EL-BELTAGI; Entsar ABBAS; Hayfa HABES ALMUTAIRI; Tarek A. SHALABY; Sherif MOHAMED EL-GANAINY; Amal A. MOHAMED; Mahmoud SITOHY; Ali OSMAN

doi:10.15835/nbha52213783

Notulae Botanicae Horti Agrobotanici Cluj-Napoca (May 2024)

Controlling Botrytis gray mold in strawberry fruit by bioactive protein isolated from kidney bean

Hossam S. EL-BELTAGI,
Entsar ABBAS,
Hayfa HABES ALMUTAIRI,
Tarek A. SHALABY,
Sherif MOHAMED EL-GANAINY,
Amal A. MOHAMED,
Mahmoud SITOHY,
Ali OSMAN

Affiliations

Hossam S. EL-BELTAGI: King Faisal University, College of Agriculture and Food Sciences, Agricultural Biotechnology Department, Al-Ahsa 31982; Cairo University, Faculty of Agriculture, Biochemistry Department, Gamma St, Giza 12613
Entsar ABBAS: Zagazig University, Faculty of Agriculture, Plant Pathology Department, Zagazig 44511
Hayfa HABES ALMUTAIRI: King Faisal University, College of Science, Department of Chemistry, Al-Ahsa, 31982
Tarek A. SHALABY: King Faisal University, College of Agriculture and Food Sciences, Arid Land Agriculture Department, Al-Ahsa 31982; Kafrelsheikh University, Faculty of Agriculture, Horticulture Department, Kafr El-Sheikh 33516
Sherif MOHAMED EL-GANAINY: King Faisal University, College of Agriculture and Food Sciences, Arid Land Agriculture Department, Al-Ahsa 31982; Plant Pathology Research Institute, Agricultural Research Centre (ARC) Giza, 12619
Amal A. MOHAMED: Umm Al-Qura University, Al-Leith University College, Chemistry Department, Makkah
Mahmoud SITOHY: Zagazig University, Faculty of Agriculture, Biochemistry Department, Zagazig 44511
Ali OSMAN: Zagazig University, Faculty of Agriculture, Biochemistry Department, Zagazig 44511

DOI: https://doi.org/10.15835/nbha52213783
Journal volume & issue: Vol. 52, no. 2

Abstract

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Due to the risks they pose to human and environmental health, there has been a strong push in recent times to reduce the use of chemical fungicides in phytopathogen treatment. In the present study, vicilin was isolated from kidney bean seeds and characterized by SDS-PAGE, zeta potential, and pH solubility curve. The α/ (85 KDa), α (70 KDa), and β (60 KDa) subunits were represented by three distinct protein bands in vicilin. The linear growth of B. cinerea was clearly reduced by 12.96%, 14.81%, 25.92%, 35.18%, and 40.73% in response to vicilin application at 50, 100, 200, 300, and 400 µg/ml, respectively. The scanning electron microscopy (SEM) of vicilin-exposed B. cinerea revealed hyphae enlargement and conidia distortion. Addition of vicilin from kidney bean seeds clearly reduced the disease incidence in a concentration-dependent manner (100, 200, and 400 µg/mL). The higher doses (400 µg/mL) of vicilin provided higher activity in decreasing the disease severity of the strawberry fruits. As a sustainable glycoprotein, vicilin, found in kidney bean seeds, can be used to combat postharvest fungal infections.

Published in Notulae Botanicae Horti Agrobotanici Cluj-Napoca

ISSN: 0255-965X (Print); 1842-4309 (Online)
Publisher: AcademicPres
Country of publisher: Romania
LCC subjects: Agriculture: Forestry; Agriculture: Agriculture (General)
Website: https://www.notulaebotanicae.ro/index.php/nbha

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