Your search keyword '"Abo-Dahab NF"' showing total 11 results

1. Aspergillus - Penicillium co-culture: An investigation of bioagents for controlling Fusarium proliferatum -induced basal rot in onion.

Author

Abdelrahem MMM, Abouelela ME, Abo-Dahab NF, and Hassane AMA

Abstract

Fungal co-culture is a method that allows the detection of interactions between fungi, enabling the examination of bioactive novel metabolites induction that may not be produced in monocultures. Worldwide, Fusarium basal rot is a primary limitation to onion yield, being caused by different Fusarium species. Current research directions encourage biological control of plant diseases as a replacement for routine chemical treatments. The current study aimed to investigate the co-culturing technique for mining new sources of bioagents that could be used as fungicides. Aspergillus ochraceus AUMC15539 was co-cultured with Penicillium chrysogenum AUMC15504, and their ethyl acetate extract was tested in vitro and in a greenhouse against Fusarium proliferatum AUMC15541. The results showed that Aspergillus - Penicillium (AP) co-culture extract significantly inhibited the growth of F. proliferatum with an MIC value of 0.78 mg/mL and showed antioxidant efficiency with an IC 50 value of 1.31 mg/mL. The brine shrimp toxicity testing showed a LC 50 value of 2.77 mg/mL. In addition, the co-culture extract showed the highest phenolic content at 114.71 GAE mg/g, with a 27.82 QE mg/g flavonoid content. Profiling of AP co-culture and its monoculture extracts by HPLC revealed a change in the metabolites profile in AP co-culture. Principal component analysis verified a positive correlation between the obtained HPLC data of A. ochraceus (A), P. chrysogenum (P), and AP extracts. Greenhouse experiments demonstrated that treating infected onion plants with the AP co-culture extract significantly enhanced all growth parameters. Additionally, the co-culture extract treatment resulted in the highest levels of total pigments (3.46 mg/g), carbohydrates (52.10 mg/g dry weight), proteins (131.44 mg/g), phenolics (41.66 GAE mg/g), and flavonoids (9.43 QE mg/g) compared with other treatments. This indicates a promising potential for fungal co-cultures in discovering new bioagents with antifungal properties and growth-promoting capabilities., Competing Interests: Conflict of interest: The authors declare no conflict of interest., (© 2024 the Author(s), licensee AIMS Press.)

Published

2024

2. Wound Healing, Metabolite Profiling, and In Silico Studies of Aspergillus terreus .

Author

Al Mousa AA, Abouelela ME, Mansour A, Nasr M, Ali YH, Al Ghamidi NS, Abo-Dahab Y, Mohamed H, Abo-Dahab NF, and Hassane AMA

Abstract

Burn injuries, which significantly affect global public health, require effective treatment strategies tailored to varying severity. Fungi are considered a sustainable, easily propagated source for lead therapeutic discovery. In this study, we explored the burn wound healing potential of Aspergillus terreus through a combination of in vitro, in vivo, metabolite profiling, and in silico analysis. The in vitro scratch assays performed with human skin fibroblast cells showed promising wound healing activity. Furthermore, the burn-induced rats model showed a marked improvement in cutaneous wound healing, evidenced by an accelerated rate of wound closure and better skin regeneration after A. terreus extract treatment at 14 days. The results of this study demonstrated significant enhancements in wound closure and tissue regeneration in the treated rat model, surpassing the outcomes of standard treatments. This controlled healing process, evidenced by superior collagen synthesis and angiogenesis and confirmed by histopathological studies, suggests that A. terreus has potential beyond the traditionally studied fungal metabolites. The metabolite profiling of 27 bioactive compounds was further investigated by docking analysis for the potential inhibition of the NF-κB pathway, which has an important function in inflammation and wound repair. The compounds eurobenzophenone A (7), aspernolide D (16), asperphenalenone A (23), aspergilate D (15), kodaistatin A (18), and versicolactone A (14) showed the highest binding affinity to the target protein with a pose score of -16.86, -14.65, -12.65, -12.45, -12.19, and -12.08 kcal/mol, respectively. Drug-likeness properties were also conducted. The findings suggest the potential wound healing properties of A. terreus as a source for lead therapeutic candidate discovery.

Published

2024

3. Oleaginous fungi: a promising source of biofuels and nutraceuticals with enhanced lipid production strategies.

Author

Hassane AMA, Eldiehy KSH, Saha D, Mohamed H, Mosa MA, Abouelela ME, Abo-Dahab NF, and El-Shanawany AA

Subjects

Lipids biosynthesis, Lipids analysis, Lipid Metabolism, Metabolic Engineering, Fatty Acids metabolism, Fatty Acids analysis, Biomass, Carbon metabolism, Biofuels, Fungi metabolism, Fungi genetics, Dietary Supplements analysis

Abstract

Oleaginous fungi have attracted a great deal of interest for their potency to accumulate high amounts of lipids (more than 20% of biomass dry weight) and polyunsaturated fatty acids (PUFAs), which have a variety of industrial and biological applications. Lipids of plant and animal origin are related to some restrictions and thus lead to attention towards oleaginous microorganisms as reliable substitute resources. Lipids are traditionally biosynthesized intra-cellularly and involved in the building structure of a variety of cellular compartments. In oleaginous fungi, under certain conditions of elevated carbon ratio and decreased nitrogen in the growth medium, a change in metabolic pathway occurred by switching the whole central carbon metabolism to fatty acid anabolism, which subsequently resulted in high lipid accumulation. The present review illustrates the bio-lipid structure, fatty acid classes and biosynthesis within oleaginous fungi with certain key enzymes, and the advantages of oleaginous fungi over other lipid bio-sources. Qualitative and quantitative techniques for detecting the lipid accumulation capability of oleaginous microbes including visual, and analytical (convenient and non-convenient) were debated. Factors affecting lipid production, and different approaches followed to enhance the lipid content in oleaginous yeasts and fungi, including optimization, utilization of cost-effective wastes, co-culturing, as well as metabolic and genetic engineering, were discussed. A better understanding of the oleaginous fungi regarding screening, detection, and maximization of lipid content using different strategies could help to discover new potent oleaginous isolates, exploit and recycle low-cost wastes, and improve the efficiency of bio-lipids cumulation with biotechnological significance., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

4. Anti-Staphylococcal, Anti-Candida, and Free-Radical Scavenging Potential of Soil Fungal Metabolites: A Study Supported by Phenolic Characterization and Molecular Docking Analysis.

Author

Al Mousa AA, Abouelela ME, Al Ghamidi NS, Abo-Dahab Y, Mohamed H, Abo-Dahab NF, and Hassane AMA

Abstract

Staphylococcus and Candida are recognized as causative agents in numerous diseases, and the rise of multidrug-resistant strains emphasizes the need to explore natural sources, such as fungi, for effective antimicrobial agents. This study aims to assess the in vitro anti-staphylococcal and anti-candidal potential of ethyl acetate extracts from various soil-derived fungal isolates. The investigation includes isolating and identifying fungal strains as well as determining their antioxidative activities, characterizing their phenolic substances through HPLC analysis, and conducting in silico molecular docking assessments of the phenolics' binding affinities to the target proteins, Staphylococcus aureus tyrosyl-tRNA synthetase and Candida albicans secreted aspartic protease 2. Out of nine fungal species tested, two highly potent isolates were identified through ITS ribosomal gene sequencing: Aspergillus terreus AUMC 15447 and A. nidulans AUMC 15444. Results indicated that A. terreus AUMC 15447 and A. nidulans AUMC 15444 extracts effectively inhibited S. aureus (concentration range: 25-0.39 mg/mL), with the A. nidulans AUMC 15444 extract demonstrating significant suppression of Candida spp. (concentration range: 3.125-0.39 mg/mL). The A. terreus AUMC 15447 extract exhibited an IC 50 of 0.47 mg/mL toward DPPH radical-scavenging activity. HPLC analysis of the fungal extracts, employing 18 standards, revealed varying degrees of detected phenolics in terms of their presence and quantities. Docking investigations highlighted rutin as a potent inhibitor, showing high affinity (-16.43 kcal/mol and -12.35 kcal/mol) for S. aureus tyrosyl-tRNA synthetase and C. albicans secreted aspartic protease 2, respectively. The findings suggest that fungal metabolites, particularly phenolics, hold significant promise for the development of safe medications to combat pathogenic infections.

Published

2023

5. Characterization and antibacterial activity of raw cotton fabrics treated with date seed extract and silver nanoparticles (AgNPs).

Author

Al-Khattaf FS, Al Mousa AA, Alabdulhadi HS, Abo-Dahab NF, Mohamed H, Hatamleh AA, and Al-Dahmash N

Subjects

Humans, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Staphylococcus aureus, Plant Extracts pharmacology, Plant Extracts chemistry, Silver pharmacology, Silver chemistry, Metal Nanoparticles chemistry

Abstract

Because of their immense economic, wellness, and remedial value, the seeds of palm (Phoenix dactylifera) were selected with synthesized silver nanoparticles (AgNPs) based on their properties for increasing the antibacterial efficacy of medical cotton. This study aimed to be contingent upon the characterisation of raw cotton fabrics treated by AgNPs with date seed extract (DSE) of P. dactylifera both individually and in combination and to investigate their antibacterial activity against various human pathogens. The prepared cotton materials with the synthesized AgNPs and/or DSE were described by both X-ray diffraction (XRD) and scanning electron microscope (SEM). At the same time, gas chromatography-mass spectrometry (GC-MS) and High-performance liquid chromatography (HPLC) were employed to determine the bioactive components in the aqueous date seed extract. The greater antibacterial activity was recorded by cotton treated with DSE and AgNPs mix, in which inhibition zones of all treatments were against Escherichia coli (8 cm), followed by Staphylococcus aureus (2.33-5.87cm) and Bacillus subtilis (2.17-4.63 cm), respectively. Overall, these findings indicate that treated cotton fabrics with synthesised AgNPs and DSE may be widely applied in various potential biological and medical applications, which could enhance environmental sustainability in closed production and consumption.

Published

2023

6. Cytotoxic Potential of Alternaria tenuissima AUMC14342 Mycoendophyte Extract: A Study Combined with LC-MS/MS Metabolic Profiling and Molecular Docking Simulation.

Author

Al Mousa AA, Abouelela ME, Hassane AMA, Al-Khattaf FS, Hatamleh AA, Alabdulhadi HS, Dahmash ND, and Abo-Dahab NF

Abstract

Breast, cervical, and ovarian cancers are among the most serious cancers and the main causes of mortality in females worldwide, necessitating urgent efforts to find newer sources of safe anticancer drugs. The present study aimed to evaluate the anticancer potency of mycoendophytic Alternaria tenuissima AUMC14342 ethyl acetate extract on HeLa (cervical cancer), SKOV-3 (ovarian cancer), and MCF-7 (breast adenocarcinoma) cell lines. The extract showed potent effect on MCF-7 cells with an IC50 value of 55.53 μg/mL. Cell cycle distribution analysis of treated MCF-7 cells revealed a cell cycle arrest at the S phase with a significant increase in the cell population (25.53%). When compared to control cells, no significant signs of necrotic or apoptotic cell death were observed. LC-MS/MS analysis of Alternaria tenuissima extract afforded the identification of 20 secondary metabolites, including 7-dehydrobrefeldin A, which exhibited the highest interaction score (-8.0156 kcal/mol) in molecular docking analysis against human aromatase. Regarding ADME pharmacokinetics and drug-likeness properties, 7-dehydrobrefeldin A, 4'-epialtenuene, and atransfusarin had good GIT absorption and water solubility without any violation of drug-likeness rules. These findings support the anticancer activity of bioactive metabolites derived from endophytic fungi and provide drug scaffolds and substitute sources for the future development of safe chemotherapy.

Published

2022

7. Resveratrol biosynthesis, optimization, induction, bio-transformation and bio-degradation in mycoendophytes.

Author

Abo-Kadoum MA, Abouelela ME, Al Mousa AA, Abo-Dahab NF, Mosa MA, Helmy YA, and Hassane AMA

Abstract

Resveratrol (3,4,5-trihydroxystilbene) is a naturally occurring polyphenolic stilbene compound produced by certain plant species in response to biotic and abiotic factors. Resveratrol has sparked a lot of interest due to its unique structure and approved therapeutic properties for the prevention and treatment of many diseases such as neurological disease, cardiovascular disease, diabetes, inflammation, cancer, and Alzheimer's disease. Over the last few decades, many studies have focused on the production of resveratrol from various natural sources and the optimization of large-scale production. Endophytic fungi isolated from various types of grapevines and Polygonum cuspidatum , the primary plant sources of resveratrol, demonstrated intriguing resveratrol-producing ability. Due to the increasing demand for resveratrol, one active area of research is the use of endophytic fungi and metabolic engineering techniques for resveratrol's large-scale production. The current review addresses an overview of endophytic fungi as a source for production, as well as biosynthesis pathways and relevant genes incorporated in resveratrol biosynthesis. Various approaches for optimizing resveratrol production from endophytic fungi, as well as their bio-transformation and bio-degradation, are explained in detail., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Abo-Kadoum, Abouelela, Al Mousa, Abo-Dahab, Mosa, Helmy and Hassane.)

Published

2022

8. In Vitro and In Silico Antioxidant Efficiency of Bio-Potent Secondary Metabolites From Different Taxa of Black Seed-Producing Plants and Their Derived Mycoendophytes.

Author

Hassane AMA, Hussien SM, Abouelela ME, Taha TM, Awad MF, Mohamed H, Hassan MM, Hassan MHA, Abo-Dahab NF, and El-Shanawany AA

Abstract

Oxidative stress is involved in the pathophysiology of multiple health complications, and it has become a major focus in targeted research fields. As known, black seeds are rich sources of bio-active compounds and widely used to promote human health due to their excellent medicinal and pharmaceutical properties. The present study investigated the antioxidant potency of various black seeds from plants and their derived mycoendophytes, and determined the total phenolic and flavonoid contents in different extracts, followed by characterization of major constituents by HPLC analysis. Finally, in silico docking determined their binding affinities to target myeloperoxidase enzymes. Ten dominant mycoendophytes were isolated from different black seed plants. Three isolates were then selected based on high antiradical potency and further identified by ITS ribosomal gene sequencing. Those isolated were Aspergillus niger TU 62, Chaetomium madrasense AUMC14830, and Rhizopus oryzae AUMC14823. Nigella sativa seeds and their corresponding endophyte A. niger had the highest content of phenolics in their n- butanol extracts (28.50 and 24.43 mg/g), flavonoids (15.02 and 11.45 mg/g), and antioxidant activities (90.48 and 81.48%), respectively, followed by Dodonaea viscosa and Portulaca oleracea along with their mycoendophytic R. oryzae and C. madrasense . Significant positive correlations were found between total phenolics, flavonoids, and the antioxidant activities of different tested extracts. The n -butanol extracts of both black seeds and their derived mycoendophytes showed reasonable IC 50 values (0.81-1.44 mg/ml) compared to the control with significant correlations among their phytochemical contents. Overall, seventeen standard phenolics and flavonoids were used, and the compounds were detected in different degrees of existence and concentration in the examined extracts through HPLC analysis. Moreover, the investigation of the molecular simulation results of detected compounds against the myeloperoxidase enzyme revealed that, as a targeted antioxidant, rutin possessed a high affinity (-15.3184 kcal/mol) as an inhibitor. Taken together, the black seeds and their derived mycoendophytes are promising bio-prospects for the broad industrial sector of antioxidants with several valuable potential pharmaceutical and nutritional applications., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Hassane, Hussien, Abouelela, Taha, Awad, Mohamed, Hassan, Hassan, Abo-Dahab and El-Shanawany.)

Published

2022

9. Harnessing Mucor spp. for Xylanase Production: Statistical Optimization in Submerged Fermentation Using Agro-Industrial Wastes.

Author

Al Mousa AA, Abo-Dahab NF, Hassane AMA, Gomaa AEF, Aljuriss JA, and Dahmash ND

Subjects

Fermentation, Hydrogen-Ion Concentration, Mucor metabolism, Endo-1,4-beta Xylanases chemistry, Industrial Waste

Abstract

Xylan is the primary hemicellulosic polymer found in lignocellulosic agricultural wastes and can be degraded by xylanase. In the current research, Mucor circinelloides and M. hiemalis were tested for their ability to produce xylanase from tangerine peel by submerged fermentation. Experiments on five variables were designed with Box-Behnken design and response surface methodology. Analysis of variance was exercised, the xylanase output was demonstrated with a mathematical equation as a function of the five factors, and the quixotic states for xylanase biosynthesis was secured. In addition, xylanase was partially purified, characterized, and immobilized on calcium alginate beads. The optimum parameters for xylanase production by M. circinelloides and M. hiemalis were consisted of incubation temperature (30 and 20°C), pH value (9 and 7) incubation period (9 and 9 days), inoculum size (3 and 3 mL), and substrate concentration (3 and 3 g/100 mL), respectively. M. circinelloides and M. hiemalis demonstrated the highest xylanase activities after RSM optimization, with 42.23 and 35.88 U/mL, respectively. The influence of single, interchange, and quadratic factors on xylanase output was investigated using nonlinear regression equations with significant R 2 and p values. The partial purification of M. circinelloides and M. hiemalis xylanase yielded 1.69- and 1.97-fold purification, and 30.74 and 31.34% recovery with 292.08 and 240.15 U/mg specific activity, respectively. Partially purified xylanase from M. circinelloides and M. hiemalis demonstrated the highest activity at neutral pH and 60 and 50°C, respectively. The immobilized M. circinelloides and M. hiemalis xylanase retained 84.02 and 79.43% activity, respectively. The production of xylanase from M. circinelloides and M. hiemalis utilizing RSM is deemed profitable for the decomposition of the agro-industrial wastes., Competing Interests: The authors declare that there is no conflict of interest regarding the publication of this paper., (Copyright © 2022 Amal A. Al Mousa et al.)

Published

2022

10. Effect of 2-deoxy-D-glucose on mycotoxins from apples inoculated with Penicillium expansum.

Author

Kazi S, Paterson RR, and Abo-Dahab NF

Abstract

Patulin concentration was not significantly different in Bramley and Cox's apples inoculated with Penicillium expansum, and treated with the biocontrol enhancer 2-deoxy-D-glucose (DOG) when compared to no DOG treatment, despite average numerical increases. Some additional small HPLC peaks were detected from some extracts, one of which corresponded to citrinin.

Published

1997

11. Effect of fungistatic agent 2-deoxy-D-glucose on mycotoxins from Penicillium expansum.

Author

Abo-Dahab NF, Paterson RR, and Razak AA

Subjects

Benzyl Alcohols metabolism, Citrinin metabolism, Patulin metabolism, Antimetabolites pharmacology, Deoxyglucose pharmacology, Mycotoxins metabolism, Penicillium drug effects

Abstract

Mycotoxin production from Penicillium expansum was effected by the 'biocontrol enhancer' 2-deoxy-D-glucose (DOG). Citrinin and gentisyl alcohol were produced in higher amounts, whereas patulin was inhibited, which represents a differential effect on the polyketide metabolic pathway. These effects have implications for the use of DOG in biocontrol.

Published

1996