Polyphenols-Rich Extract of Calotropis procera Alone and in Combination with Trichoderma Culture Filtrate for Biocontrol of Cantaloupe Wilt and Root Rot Fungi

Nofal, Ashraf M.; Hamouda, Ragaa A.; Rizk, Amira; El-Rahman, Mohamed Abd; Takla, Adel K.; Galal, Hoda; Alqahtani, Mashael Daghash; Alharbi, Basmah M.; Elkelish, Amr; Shaheen, Sabery

doi:10.3390/molecules29010139

Molecules

2023

DOI: 10.3390/molecules29010139

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Polyphenols-Rich Extract of Calotropis procera Alone and in Combination with Trichoderma Culture Filtrate for Biocontrol of Cantaloupe Wilt and Root Rot Fungi

Ashraf M. Nofal,

Ragaa A. Hamouda,

Amira Rizk

et al.

Abstract: Fungal diseases have always been a major problem for cantaloupe crops; however, synthetic fungicides are hazardous to humans and the environment. Consequently, a feasible alternative to fungicides without side effects could be by using bio agents and naturally occurring plants with antibacterial potential. This study has achieved a novel procedure for managing wilt and root rot diseases by potentially using Trichoderma sp. culture filtrates in consortium with plant extract of Calotropis procera, Rhizoctonia so… Show more

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2024

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Effect of ex situ, eco-friendly ZnONPs incorporating green synthesised Moringa oleifera leaf extract in enhancing biochemical and molecular aspects of Vicia faba L. under salt stress

Alhudhaibi,

Ragab,

Sharaf

et al. 2024

Green Processing and Synthesis

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Nevertheless, the growing salt stress in arable areas poses a significant threat to agricultural production. The current study utilised zinc oxide nanoparticles (ZnONPs) using an extract obtained from the leaves of Moringa oleifera (MOLe). The purpose was to reduce the detrimental effect of salinity on the Vicia faba L. (VF) cultivar (Nubaria 3). The biochemical and molecular characteristics of plants grown in saline settings were assessed 60 days after planting. The expression levels of plant defence genes polyphenol oxidase (PPO) and peroxidase (POX) in VF leaves were analysed at different time points. The synthesised NPs improve osmotic protection in plants under salt stress by elevated levels of pigments involved in photosynthesis. In addition, there was a significant increase in the levels of biochemical parameters, such as total phenol, proline, and antioxidant enzyme activities. In addition, the use of MOLe and MOLe@ZnONPs on the plants resulted in an increase in ion content and a considerable rise in the expression of Vf POX and Vf PPO genes when exposed to salt conditions. The findings suggest that the use of MOLe and MOLe@ZnONPs was more efficient in aiding the plant to recover from the negative impact of salt stress.

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Effect of ex situ, eco-friendly ZnONPs incorporating green synthesised Moringa oleifera leaf extract in enhancing biochemical and molecular aspects of Vicia faba L. under salt stress

Alhudhaibi,

Ragab,

Sharaf

et al. 2024

Green Processing and Synthesis

View full text Add to dashboard Cite

show abstract

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Polyphenols-Rich Extract of Calotropis procera Alone and in Combination with Trichoderma Culture Filtrate for Biocontrol of Cantaloupe Wilt and Root Rot Fungi

Cited by 1 publication

References 77 publications

Effect of ex situ, eco-friendly ZnONPs incorporating green synthesised Moringa oleifera leaf extract in enhancing biochemical and molecular aspects of Vicia faba L. under salt stress

Effect of ex situ, eco-friendly ZnONPs incorporating green synthesised Moringa oleifera leaf extract in enhancing biochemical and molecular aspects of Vicia faba L. under salt stress

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