Your search keyword '"Mohamed Fayez"' showing total 6 results

1. Cross Cultivation on Homologous/Heterologous Plant-Based Culture Media Empowers Host-Specific and Real Time In Vitro Signature of Plant Microbiota

Author

Hend Elsawey, Eman H. Nour, Tarek R. Elsayed, Rahma A. Nemr, Hanan H. Youssef, Mervat A. Hamza, Mohamed Abbas, Mahmoud El-Tahan, Mohamed Fayez, Silke Ruppel, and Nabil A. Hegazi

Subjects

plant-based culture media, culture-dependent/independent maize microbiota, in vitro host plant-specific cultivation, plant microbiota cross-host cultivation, homologous/heterologous cross cultivation, Biology (General), QH301-705.5

Abstract

Alliances of microbiota with plants are masked by the inability of in vitro cultivation of their bulk. Pure cultures piled in international centers originated from dissimilar environments/hosts. Reporting that plant root/leaf-based culture media support the organ-specific growth of microbiota, it was of interest to further investigate if a plant-based medium prepared from homologous (maize) supports specific/adapted microbiota compared to another prepared from heterologous plants (sunflower). The culture-independent community of maize phyllosphere was compared to communities cross-cultivated on plant broth-based media: CFU counts and taxa prevalence (PCR-DGGE; Illumina MiSeq amplicon sequencing). Similar to total maize phyllospheric microbiota, culture-dependent communities were overwhelmed by Proteobacteria (>94.3–98.3%); followed by Firmicutes (>1.3–3.7%), Bacteroidetes (>0.01–1.58%) and Actinobacteria (>0.06–0.34%). Differential in vitro growth on homologous versus heterologous plant-media enriched/restricted various taxa. In contrast, homologous cultivation over represented members of Proteobacteria (ca. > 98.0%), mainly Pseudomonadaceae and Moraxellaceae; heterologous cultivation and R2A enriched Firmicutes (ca. > 3.0%). The present strategy simulates/fingerprints the chemical composition of host plants to expand the culturomics of plant microbiota, advance real-time in vitro cultivation and lab-keeping of compatible plant microbiota, and identify preferential pairing of plant-microbe partners toward future synthetic community (SynComs) research and use in agriculture.

Published

2022

2. Insights into HPLC-MS/MS Analysis, Antioxidant and Cytotoxic Activity of Astragalus fruticosus against Different Types of Cancer Cell Lines

Author

Mohamed Fayez Dekinash, Tarek M. Okda, Ehab Kotb Elmahallawy, Fathy Kandil El-Fiky, Gamal Abd El Hay Omran, Emil Svajdlenka, Naief Dahran, Manal F. El-Khadragy, Wafa A. Al-Megrin, and El Moataz Bellah Ali El Naggar

Subjects

Astragalus fruticosus, HPLC–MS/MS profiling, colorectal cancer, cytotoxic activity, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Plants from the genus Astragalus are gaining attention for their pharmacological importance. However, the information available regarding the HPLC–MS/MS chemical profile of A. fruticosus is inadequate. In this study, we performed HPLC–MS/MS analysis using electrospray ionization (ESI) and atmospheric pressure chemical ionization (APCI). We tentatively identified 11 compounds in the A. fruticosus methanolic extract, including five flavonoidal and six saponin glycosides. The extract showed moderate antioxidant activity with 21.05% reduction in DPPH UV absorption. The preliminary cytotoxic screening against seven human cancer cell lines using 100 μg/mL extract showed prominent cytotoxic potential against colorectal cancer HCT–116 with 3.368% cell viability. It also showed moderate cytotoxic potential against prostate (DU–145), ovarian (SKOV–3) and lung (A–549) cancer cell lines with cell viability of 14.25%, 16.02% and 27.24%, respectively. The IC50 of the total extract against HCT–116 and DU–145 cell lines were 7.81 μg/mL and 40.79 μg/mL, respectively. The observed cytotoxicity of the total methanolic extract from the leaves against colorectal cancer might facilitate future investigations on cytotoxic agent(s) for disease management.

Published

2022

3. Plant Broth- (Not Bovine-) Based Culture Media Provide the Most Compatible Vegan Nutrition for In Vitro Culturing and In Situ Probing of Plant Microbiota

Author

Hend Elsawey, Sascha Patz, Rahma A. Nemr, Mohamed S. Sarhan, Mervat A. Hamza, Hanan H. Youssef, Mohamed R. Abdelfadeel, Hassan-Sibroe A. Daanaa, Mahmoud El-Tahan, Mohamed Abbas, Mohamed Fayez, Katja Witzel, Silke Ruppel, and Nabil A. Hegazi

Subjects

plant microbiota, cultivation-dependent of plant microbiota, plant broth-based culture media, “in-situ-similis” culturing strategy, vegan nutrition, clover bacterial endophytes, Biology (General), QH301-705.5

Abstract

Plant microbiota support the diversity and productivity of plants. Thus, cultivation-dependent approaches are indispensable for in vitro manipulation of hub taxa. Despite recent advances in high-throughput methods, cultivability is lagging behind other environmental microbiomes, notably the human microbiome. As a plant-based culturing strategy, we developed culture media based on a broth of cooked aqueous mixtures of host plants. This improved the in vitro growth of representative isolates of plant microbiota and extended the in situ recovery of plant microbiota. With clover, 16S rRNA gene sequencing of representative isolates confirmed the predominance of Firmicutes, Alphaproteobacteria and Gammaproteobacteria, and less frequently Bacteroidetes and Actinobacteria. Whereas bovine-based culture media (modified R2A) confined the diversity to Firmicutes, the plant broth-based culture media revealed a wider scope of endophytes beyond rhizobia, i.e., multiple genera such as Chryseobacterium, Cronobacter, Kosakonia, Tsukamurella, and a potentially/presumptive novel species. Matrix-assisted laser desorption/ionization time-of-flight (MADI-TOF) analysis clustered isolates according to their plant niches, the endo-phyllosphere/endo-rhizosphere. We recommend the plant broth for simplicity, reproducibility and perdurable storage, supporting future culturomics applications, good laboratory practice (GLP) and good manufacturing practice (GMP). The strategy creates an “in-situ-similis” vegan nutritional matrix to analyze microbial diversity and reveal novel microbial resources pertinent to biotechnological and environmental applications.

Published

2020

4. Insights into HPLC-MS/MS Analysis, Antioxidant and Cytotoxic Activity of Astragalus fruticosus against Different Types of Cancer Cell Lines

Author

Dekinash, Mohamed Fayez, primary, Okda, Tarek M., additional, Elmahallawy, Ehab Kotb, additional, El-Fiky, Fathy Kandil, additional, Omran, Gamal Abd El Hay, additional, Svajdlenka, Emil, additional, Dahran, Naief, additional, El-Khadragy, Manal F., additional, Al-Megrin, Wafa A., additional, and El Naggar, El Moataz Bellah Ali, additional

Published

2022

5. Plant Broth- (Not Bovine-) Based Culture Media Provide the Most Compatible Vegan Nutrition for In Vitro Culturing and In Situ Probing of Plant Microbiota

Author

Silke Ruppel, Katja Witzel, Sascha Patz, Mohamed T. Abbas, Hanan H. Youssef, Nabil A. Hegazi, Mohamed R. Abdelfadeel, Mohamed S. Sarhan, Mahmoud El-Tahan, Mervat A. Hamza, Hend Elsawey, Rahma A. Nemr, Mohamed Fayez, and Hassan-Sibroe A. Daanaa

Subjects

Firmicutes, Rhizobia, Actinobacteria, 03 medical and health sciences, Gammaproteobacteria, plant microbiota, Food science, Microbiome, Cronobacter, lcsh:QH301-705.5, 030304 developmental biology, Nature and Landscape Conservation, clover bacterial endophytes, “in-situ-similis” culturing strategy, 0303 health sciences, Ecology, biology, 030306 microbiology, Ecological Modeling, Human microbiome, food and beverages, Bacteroidetes, vegan nutrition, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), cultivation-dependent of plant microbiota, lcsh:Biology (General), plant broth-based culture media

Abstract

Plant microbiota support the diversity and productivity of plants. Thus, cultivation-dependent approaches are indispensable for in vitro manipulation of hub taxa. Despite recent advances in high-throughput methods, cultivability is lagging behind other environmental microbiomes, notably the human microbiome. As a plant-based culturing strategy, we developed culture media based on a broth of cooked aqueous mixtures of host plants. This improved the in vitro growth of representative isolates of plant microbiota and extended the in situ recovery of plant microbiota. With clover, 16S rRNA gene sequencing of representative isolates confirmed the predominance of Firmicutes, Alphaproteobacteria and Gammaproteobacteria, and less frequently Bacteroidetes and Actinobacteria. Whereas bovine-based culture media (modified R2A) confined the diversity to Firmicutes, the plant broth-based culture media revealed a wider scope of endophytes beyond rhizobia, i.e., multiple genera such as Chryseobacterium, Cronobacter, Kosakonia, Tsukamurella, and a potentially/presumptive novel species. Matrix-assisted laser desorption/ionization time-of-flight (MADI-TOF) analysis clustered isolates according to their plant niches, the endo-phyllosphere/endo-rhizosphere. We recommend the plant broth for simplicity, reproducibility and perdurable storage, supporting future culturomics applications, good laboratory practice (GLP) and good manufacturing practice (GMP). The strategy creates an &ldquo, in-situ-similis&rdquo, vegan nutritional matrix to analyze microbial diversity and reveal novel microbial resources pertinent to biotechnological and environmental applications.

Published

2020

6. Plant Pellets: A Compatible Vegan Feedstock for Preparation of Plant-Based Culture Media and Production of Value-Added Biomass of Rhizobia

Author

Mennatullah Abdou, Mohamed S. Sarhan, Hanan A. Goda, Hassan-Sibroe A. Daanaa, Reem Hamed, Hanan H. Youssef, Mohamed Fayez, Mervat A. Hamza, Mahmoud El-Tahan, Mohamed T. Abbas, Silke Ruppel, and Nabil A. Hegazi

Subjects

0106 biological sciences, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, Biomass, Management, Monitoring, Policy and Law, Raw material, medicine.disease_cause, Rhizobacteria, 01 natural sciences, Rhizobium leguminosarum, Rhizobia, 03 medical and health sciences, chemistry.chemical_compound, biomass production, medicine, Glycerol, Yeast extract, Food science, lcsh:Environmental sciences, plant-based culture media, 030304 developmental biology, lcsh:GE1-350, 0303 health sciences, biology, Renewable Energy, Sustainability and the Environment, lcsh:Environmental effects of industries and plants, plant pellets, biology.organism_classification, sustainable agriculture, lcsh:TD194-195, chemistry, Composition (visual arts), feedstocks for rhizobacteria, 010606 plant biology & botany

Abstract

Although plant-based culture media enhances in vitro cultivation of rhizobacteria, studies assessing their biomass potential for large-scale applications are lacking. Here, we advance plant pellets (PPs) as a novel technology to unlock the potential of such vegan culture media for biomass production of Rhizobium leguminosarum. PP formulations were based on mixtures of Egyptian clover powder and the agro-byproducts glycerol and molasses. These mixtures were either contained or not contained in teabags during culture media preparation. Metrics of biomass included colony forming units, optical density (OD600nm), and cell dry weight (DW). Biomass comparisons between culture media based on PPs and standard yeast extract mannitol (YEM) revealed that the following PPs composition, contained in teabags, cultivated rhizobia at levels comparable to YEM: 16 g clover powder, 5% molasses, and 0.8% glycerol. This PPs composition enabled shorter generation times of rhizobia (PP: 3.83 h, YEM: 4.28 h). Strikingly, PPs mixtures supplemented with 10% molasses and not contained in teabags promoted rhizobia without apparent lag phases and produced 25% greater DW than YEM. PPs potentiate the use of dehydrated vegan feedstocks for both plant microbiota cultivation and biomass production and appear as cost- and labor-effective tools, easy to handle and store for plant-based culture media preparation.

Published

2020