Your search keyword '"Abou-Ellail, Mohamed"' showing total 6 results

1. Gymnascella thermotolerans-GTE-21, an Endophytic Fungus in Euphorbia geniculata as a Versatile Producer of Bioactive Metabolites.

Author

El-Zayat, Soad A., Kamel, Noha M., Abdel-Motaal, Fatma F., El-Sayed, Magdi A., Abdelrahman, Mostafa, Abou-Ellail, Mohamed, Mohamed, Abou El-Hamd H., and Darwish, Doaa B.

Subjects

ENDOPHYTIC fungi, PHTHALATE esters, GAS chromatography/Mass spectrometry (GC-MS), ALTERNARIA alternata, THERMOPHILIC fungi, VOLATILE organic compounds, FUSARIUM solani

Abstract

The thermophilic fungus Gymnascella thermotolerans GTE-21 produces a significant amount of both volatile and nonvolatile compounds with potent antifungal and anticancer properties. Gas chromatography-mass spectrometry (GC-MS) was utilized to identify 14 volatile organic compounds (VOCs) released by G. thermotolerans. The most predominant compound identified was diisooctyl phthalate, constituting 71.99% of the total VOCs, followed by phenol, 2-methoxy-4-(2-propenyl) at 7.12%. The GTE-21's VOCs demonstrated significant antifungal growth inhibition activity of 42.5% against Fusarium solani and 39.03% against Alternaria alternata. Additionally, GTE-21's crude extract exhibited substantial antibacterial effects, evidenced by inhibition zones of 1.5 cm against S. epidermidis, 1.4 cm against C. ciferrii, and 1.3 cm against S. aureus. The CHR2RClR2R:MeOH (1:1) fraction was more effective against human pathogens, producing the largest zones of inhibition of 1.1 and 1.03 cm against S. epidermidis and C. ciferrii, respectively. The evaluation of GTE-21's antifungal activity using the Evans blue assay showed that fungal spores treated with GTE-21's crude extract exhibited 96.2% inhibition at a concentration of 25 mg/ml. Similarly, the fractions CH2Cl2:MeOH (1:1) and CH2Cl2:MeOH (9:1) demonstrated spore inhibition rates of 96.3% and 94.3%, respectively. The EtOAc crude extract demonstrated pronounced cytotoxic effects against the SKOV-3 and MDA-MB-231 cancer cell lines. For SKOV-3, cell viability decreased to 3.40% and 0.47% at concentrations of 50 and 100 μL, respectively. In the case of MDA-MB-231, cell viability was reduced to 0.19% at both 50 and 100 μL concentrations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Metabolic profiling of bioactive phytochemicals of two okra genotypes and their F1 and backcrosses.

Author

Elshafy, Aya Abd, Abou-Ellail, Mohamed, and El-Sayed, Magdi

Subjects

OKRA, PHYTOCHEMICALS, GENOTYPES, PRINCIPAL components analysis, ANALYTICAL chemistry, METABOLITES, VITAMIN C

Abstract

The okra crop, cultivated all over the globe, is a source of oil and protein. Despite the economic significance of okra in the livelihoods of millions of small-scale farmers, studies on the nutritional traits of okra are meager. Creating novel hybrid lines with desirable characteristics could be employed to maximize the nutritional quality of the okra plant, precisely the amount of anthocyanin content, phenols, and total antioxidants. We crossed an Egyptian variety, preferably in the market but with low production, with a highly productive Japanese variety with less nutritional value for consumers. The two okra genotypes with their hybrids and 16 segregating populations were arranged in a randomized complete block design. Approximate chemical analyses for primary and secondary metabolites were quantified for each genotype. The analysis of variances indicated a significant variation among okra genotypes in all the physiological and nutritional traits except for ascorbic acid content. Various traits revealed by Principal Component Analysis contributed distinctively to the total variation. Correlation analysis indicated some significant correlations between the nutritional characteristics. Protein contents had a positive and significant correlation with total antioxidant (0.521), 2,2-diphenyl-1-picrylhydrazyl (0.488), proline (0.498), flavonoids (0.474), and saponin (0.536). [ABSTRACT FROM AUTHOR]

Published

2024

3. Biocontrol of Sweet Melon Fruit Rot Caused by Fusarium solani using an Endophytic Fungus Isolated from the Medicinal Plant Solenostemma arghel.

Author

Abdel-Motaal, Fatma F., Kamel, Noha M., El-Sayed, Magdi A., and Abou-Ellail, Mohamed

Subjects

FUSARIUM solani, MUSKMELON, FRUIT rots, ENDOPHYTIC fungi, MEDICINAL plants, OCHRATOXINS

Abstract

The fruit rot disease of sweet melon is responsible for serious of economic crop losses that have occurred sporadically in Aswan, Egypt recently. The symptoms appeared as water-soaking lesion which advanced to the rotting of the fruit surface. White mycelial mats with brown color inside appear on the lesion at the surface of the fruit. Disease symptoms, morphological and mycological characteristics, pathogenicity and molecular identification, indicated as Fusarium solani, are the disease causative. When healthy fruits of sweet melon sprayed with spore suspension of the isolated F. solani, the disease symptoms appeared as white spot, which enlarged and turned brown. Dual culture techniques showed that the endophytic fungi, Aspergillus terreus, Fusarium solani and Penicillium verrucosum isolated from the medicinal plant Solenostemma arghel inhibited the pathogen growth in variable levels. The extract of ethyl acetate of the endophytic fungal was found to be active against Fusarium solani. The ethyl acetate fractions of Penicillium verrucosum inhibited the pathogen growth by 47% while A. terreus, and F. solani showed inhibition percentage of 45% and 40%, respectively [ABSTRACT FROM AUTHOR]

Published

2021

4. Duplicated NUCLEOLIN Gene with Antagonistic Activity Is Required for Chromatin Organization of Silent 45S rDNA in Arabidopsis.

Author

Durut, Nathalie, Abou-Ellail, Mohamed, Pontvianne, Frédéric, Das, Sadhan, Kojima, Hisae, Ukai, Seiko, Bures, Anne de, Comella, Pascale, Nidelet, Sabine, Rialle, Stéphanie, Merret, Remy, Echeverria, Manuel, Bouvet, Philippe, Nakamura, Kenzo, and Sáez-Vásquez, Julio

Subjects

NUCLEOLIN, ARABIDOPSIS proteins, NUCLEAR proteins, RECOMBINANT DNA, CHROMATIN

Abstract

In plants as well as in animals, hundreds to thousands of 45S rRNA gene copies localize in Nucleolus Organizer Regions (NORs), and the activation or repression of specific sets of rDNA depends on epigenetic mechanisms. Previously, we reported that the Arabidopsis thaliana nucleolin protein NUC1, an abundant and evolutionarily conserved nucleolar protein in eukaryotic organisms, is required for maintaining DNA methylation levels and for controlling the expression of specific rDNA variants in Arabidopsis. Interestingly, in contrast with animal or yeast cells, plants contain a second nucleolin gene. Here, we report that Arabidopsis NUC1 and NUC2 nucleolin genes are both required for plant growth and survival and that NUC2 disruption represses flowering. However, these genes seem to be functionally antagonistic. In contrast with NUC1 , disruption of NUC2 induces CG hypermethylation of rDNA and NOR association with the nucleolus. Moreover, NUC2 loss of function triggers major changes in rDNA spatial organization, expression, and transgenerational stability. Our analyses indicate that silencing of specific rRNA genes is mostly determined by the active or repressed state of the NORs and that nucleolin proteins play a key role in the developmental control of this process. [ABSTRACT FROM AUTHOR]

Published

2014

5. Variations on a team.

Author

Abou-Ellail, Mohamed, Cooke, Richard, and Sáez-Vásquez, Julio

Published

2011

6. FIERY1 promotes microRNA accumulation by suppressing rRNA-derived small interfering RNAs in Arabidopsis.

Author

You, Chenjiang, He, Wenrong, Hang, Runlai, Zhang, Cuiju, Cao, Xiaofeng, Guo, Hongwei, Chen, Xuemei, Cui, Jie, and Mo, Beixin

Subjects

SMALL interfering RNA, RNA interference, GENE silencing, ARABIDOPSIS, RNA, RIBOSOMAL RNA, EXONUCLEASES

Abstract

Plant microRNAs (miRNAs) associate with ARGONAUTE1 (AGO1) to direct post-transcriptional gene silencing and regulate numerous biological processes. Although AGO1 predominantly binds miRNAs in vivo, it also associates with endogenous small interfering RNAs (siRNAs). It is unclear whether the miRNA/siRNA balance affects miRNA activities. Here we report that FIERY1 (FRY1), which is involved in 5′−3′ RNA degradation, regulates miRNA abundance and function by suppressing the biogenesis of ribosomal RNA-derived siRNAs (risiRNAs). In mutants of FRY1 and the nuclear 5′−3′ exonuclease genes XRN2 and XRN3, we find that a large number of 21-nt risiRNAs are generated through an endogenous siRNA biogenesis pathway. The production of risiRNAs correlates with pre-rRNA processing defects in these mutants. We also show that these risiRNAs are loaded into AGO1, causing reduced loading of miRNAs. This study reveals a previously unknown link between rRNA processing and miRNA accumulation. Arabidopsis AGO1 binds both microRNA (miRNA) and endogenous small interfering RNA (siRNA). Here the authors show that 5′−3′ RNA degradation suppresses siRNA biogenesis from ribosomal RNA to prevent overloading of AGO1 with ribosomal siRNA and maintain miRNA-directed post translational gene silencing. [ABSTRACT FROM AUTHOR]

Published

2019