Your search keyword '"Ameena A. AL-surhanee"' showing total 7 results

1. Designing a highly immunogenic multi epitope based subunit vaccine against Bacillus cereus

Author

Ameena A. AL-surhanee, Adil Aldhahrani, Sobia Sattar, Umara Afzal, Muhammad Awais, Alaa Alhazmi, Hosam Ali Baeshen, Daniel Joe Dailin, Muhammad Rasheed, Faryal Kabir, Hesham El Enshasy, and Fayez Althobaiti

Subjects

Food poisoning, Multiple sequence alignment, biology, Bioinformatics, QH301-705.5, In silico, Epitope-based vaccine, Bacillus cereus, Immunity, Computational biology, biology.organism_classification, Epitope, Vaccination, Immune system, Cereus, Consensus sequence, Original Article, Biology (General), General Agricultural and Biological Sciences

Abstract

Objective Serious non-gastrointestinal-tract infections and food poisoning are caused by Bacillus cereus. Vaccination against B. cereus is very important. The aim of this study was to identify and analyze B and T cell epitopes for chromate transporter protein of the bacteria. Methods Multiple sequence alignment with the Clustal Omega method was used to identify conserved regions and Geneious Prime was used to produce a consensus sequence. T and B cell epitopes were predicted by various computational tools from the NetCTL and Immune Epitope Database (IEDB), respectively. Results Altogether, 6 HTL cells and 11 CTL epitopes were predicted. This vaccine's molecular docking is done with Patch Dock and LigPlot to verify interactions. The immune server (C-IMMSIM) was used to develop In silico immune response in order to assess the multi-epitope vaccine's immunogenic profile. Conclusion We designed universal vaccine against B. cereus responsible for food poisoning. The disease may be avoided with the aid of the proposed epitope-based vaccine.

Published

2021

2. Comparative growth potential of thermophilic amylolytic Bacillus sp. on unconventional media food wastes and its industrial application

Author

Fareeha Saleh, Samina Qamer, M. A. Rashid, Ahmad Ali, Ghullam Mustafa, Faiza Jabeen, Maryam M. Alnoman, Ali Hussain, Ameena A. AL-surhanee, Tahira Younis, and Shahzad Ali

Subjects

0106 biological sciences, 0301 basic medicine, Starch, Environmental pollution, Raw material, 01 natural sciences, Food wastes, Agar plate, 03 medical and health sciences, chemistry.chemical_compound, Thermophilic, Bacillus sp, Amylase, Food science, lcsh:QH301-705.5, biology, Thermophile, 030104 developmental biology, chemistry, lcsh:Biology (General), biology.protein, Iodine test, Fermentation, General Agricultural and Biological Sciences, Thermostable amylases, 010606 plant biology & botany

Abstract

Amylases take part with vital role in industries such as food, fermentation; starch processing, textile and paper etc. Increasing amylases demand, high nutrient expenditure and environmental pollution have forced to utilize agro-industrial residues as a low-cost feedstock for enzyme production. In present study, three soil samples were collected from agro-industrial waste dumping areas in District Faisalabad. Ten thermophilic bacterial isolates were separated at 55 °C on the basis of colonial morphology, three isolates (F6, F11, F17) showed prominent zone of clearance applying iodine test on starch agar plates. Bacterial isolate F-11 showed highest amylase activity with DNS method and molecularly identified through 16S RNA sequencing as Bacillus sp. with Accession number MH917294. Four unconventional food wastes (banana, lemon, mango and potato) pretreated with 0.8% sulphuric acid concentrations taking 1000 g/L weight released the highest sugars contents and phenolic components. Maximum amylase activity i.e. 29.23 mg/ml was achieved in mango waste at, 40 °C, with pH 6.0 and 0.17% nitrogenous source adding 8% inoculum size (2 days old) using Response Surface Methodology (RSM) for optimization. Crude amylase confirmed its efficiency in starch hydrolysis that suggested it as potential candidate for application in starch industries.

Published

2020

3. Hemarthria compressa—Aspergillus niger—Trichoderma pseudokoningii Mediated Trilateral Perspective for Bioremediation and Detoxification of Industrial Paper Sludge

Author

Aasma Tufail, Sheza Ayaz Khilji, Mohamed Hashem, Zahoor Ahmad Sajid, Saad Alamri, Muhammad Aqeel, Khalid Awadh Al-Mutairi, Noreen Khalid, Ameena A. Al-Surhanee, Muhammad Faisal Maqsood, and Ali Noman

Subjects

Geography, Planning and Development, TJ807-830, phytoremediation, Management, Monitoring, Policy and Law, engineering.material, TD194-195, Renewable energy sources, Superoxide dismutase, chemistry.chemical_compound, Bioremediation, GE1-350, heavy metals, Aspergillus niger, biology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, paper sludge, biology.organism_classification, Environmental sciences, Horticulture, Phytoremediation, chemistry, Catalase, Chlorophyll, Shoot, biology.protein, engineering, Fertilizer, microbes

Abstract

The present study was carried out to evaluate the effects of different fungal species on the metal uptake from paper sludge by Hemarthria compressa L. Paper sludge (PS) in various concentrations (0, 30% and 60%) were used with four treatments of two fungal species (F0 = Control, F1 = Aspergillus niger, F2 = Trichoderma pseudokoningii, F3 = A. niger + T. pseudokoningii). Paper sludge as rooting medium steadily influenced growth and physio-biochemical attributes of H. compressa in F0. Results revealed discrete variations in growth attributes with different PS concentrations and each fungal treatment. The maximum damages in ionic homeostasis (Na+, K+, Ca2+, Mg2+) due to PS toxicity were evident in parallel with declined chlorophyll concentration. The highest growth, total chlorophyll and biomass of the plants were observed when PS was treated with combined fungal strains (F3). Translocation factor decreased with F3 that is indicative of changes in Cd, Pb, and Cu movement to shoot from root. The plants with combined fungal treatment also showed greater catalase (CAT), superoxide dismutase (SOD), and peroxidase (POD) activity. Ions, such as Ca, Mg, and Na, also increased gradually with combined fungal treatment. The correlation matrix displayed a close association among diverse fungal and PS levels with multiple plant attributes. PCA-Biplot confirmed the outcome of correlational analyses among different characters of H. compressa. The combined fungal mediate the extraction of heavy metals from the paper sludge by H. compressa recommends the high accumulation of heavy metal (HM) and possible reutilization of metal free sludge as a fertilizer, for application in cultivated fields. Furthermore, the effects of fungal species on HM attenuation in PS are linear and can be used in different habitats. Advancement in such research work will also be helpful in understanding the mechanisms and enhancing the ability of other native microbes to remediate metals.

Published

2021

4. The Antifungal Activity of Ag/CHI NPs against Rhizoctonia solani Linked with Tomato Plant Health

Author

Muhammad Afzal, Sajid Muhammad, Saad Alamri, Ameena A. Al-Surhanee, Mehmood Jan, Arafat Abdel Hamed Abdel Latef, Mona H. Soliman, Salama A. Ouf, Mohamed Hashem, Omar M. Ali, Nahla Bouqellah, and Sidra Kaleem

Subjects

Plant Science, Rhizoctonia solani, chemistry.chemical_compound, plant defense, parasitic diseases, Plant defense against herbivory, Food science, Ecology, Evolution, Behavior and Systematics, integumentary system, Ecology, biology, fungi, Botany, Plant physiology, food and beverages, biology.organism_classification, APX, antioxidants, chemistry, Catalase, Chlorophyll, Anthocyanin, QK1-989, Chitinase, biology.protein, nanoparticles, chitosan

Abstract

Pathogenic infestations are significant threats to vegetable yield, and have become an urgent problem to be solved. Rhizoctonia solani is one of the worst fungi affecting tomato crops, reducing yield in some regions. It is a known fact that plants have their own defense against such infestations, however, it is unclear whether any exogenous material can help plants against infestation. Therefore, we performed greenhouse experiments to evaluate the impacts of R. solani on 15- and 30-day old tomato plants after fungal infestation, and estimated the antifungal activity of nanoparticles (NPs) against the pathogen. We observed severe pathogenic impacts on the above-ground tissues of tomato plants which would affect plant physiology and crop production. Pathogenic infection reduced total chlorophyll and anthocyanin contents, which subsequently disturbed plant physiology. Further, total phenolic contents (TPC), total flavonoid contents (TFC), and malondialdehyde (MDA) contents were significantly increased in pathogen treatments. Constitutively, enhanced activities were estimated for catalase (CAT), superoxide dismutase (SOD), and ascorbate peroxidase (APX) in response to reactive oxygen species (ROS)in pathogen-treated plants. Moreover, pathogenesis-related genes, namely, chitinase, plant glutathione S-transferase (GST), phenylalanine ammonia-lyase (PAL1), pathogenesis-related protein (PR12), and pathogenesis-related protein (PR1) were evaluated, with significant differences between treated and control plants. In vitro and greenhouse antifungal activity of silver nanoparticles (Ag NPs), chitosan nanoparticles, and Ag NPs/CHI NPs composites and plant health was studied using transmission electron microscopy (TEM) and Fourier transform infrared (FTIR) spectrophotometry. We found astonishing results, namely, that Ag and CHI have antifungal activities against R. solani. Overall, plant health was much improved following treatment with Ag NPs/CHI NPs composites. In order to manage R. solani pathogenicity and improve tomato health, Ag/CHI NPs composites could be used infield as well as on commercial levels based on recommendations. However, there is an urgent need to first evaluate whether these NP composites have any secondary impacts on human health or the environment.

Published

2021

5. The role of soil microbes in the plant adaptation to stresses: current scenario and future perspective

Author

Mona H. Soliman, Salama A. Ouf, and Ameena A. Al-Surhanee

Subjects

Plant growth, Future perspective, Solubilization, business.industry, Osmolyte, fungi, Assimilation (biology), Adaptation, Biology, business, Rhizobacteria, Photosynthesis, Biotechnology

Abstract

Environmental stresses hamper the growth and development of plants drastically, limiting their yield to considerable extent. Stresses alter normal metabolism and induce generation of toxic effects which ultimately downregulate growth and productivity. Environmental stresses hamper photosynthesis, mineral uptake and assimilation, and damage major cellular structures and their functioning. Soil microbes include a range of organisms that establish association with the plants and among the beneficial and more explored ones are arbuscular mycorrhizal fungi (AMF) and plant growth promoting rhizobacteria (PGPR). Both AMF and PGPR are believed to enhance plant growth by mediating several benefits to hosts. Mineral solubilization and availability, water content maintenance, modulation of root morphology and physiology, regulation of enzyme activity and sequestration of toxic ions, metals etc. are some of the key functions attributed to these beneficial microbes. The positive role of these microbes have been confirmed through molecular studies also. Their involvement in strengthening the tolerance mechanisms through upregulation of the antioxidant defense pathway, increased osmolyte accumulation, etc. have been well established. This chapter discusses the role of beneficial microbes, mainly AMF and PGPR, in improving the stress tolerance in plants focusing the relevant reports.

Published

2021

6. Plant hypersensitive response vs pathogen ingression: Death of few gives life to others

Author

Ghulam Yasin, Muhammad Aqeel, Abdullah M. Al-Saadi, Ameena A. Al Surhanee, Ali Noman, Mohamed Hashem, Sameer H. Qari, and Saad Alamri

Subjects

0301 basic medicine, Hypersensitive response, Programmed cell death, Cell Death, fungi, 030106 microbiology, food and beverages, Apoptosis, Ingression, Biology, Plants, Plant cell, Microbiology, Cell biology, 03 medical and health sciences, 030104 developmental biology, Infectious Diseases, Immune system, Plant Cells, Pathogen, Gene, Systemic acquired resistance, Plant Diseases

Abstract

The hypersensitive response (HR) is a defense action against pathogen ingression. Typically, HR is predictable with the appearance of the dead, brown cells along with visible lesions. Although death during HR can be limited to the cells in direct contact with pathogens, yet cell death can also spread away from the infection site. The variety in morphologies of plant cell death proposes involvement of different pathways for triggering HR. It is considered that, despite the differences, HR in plants performs the resembling functions like that of animal programmed cell death (PCD) for confining pathogen progression. HR, in fact, crucially initiates systemic signals for activation of defense in distal plant parts that ultimately results in systemic acquired resistance (SAR). Therefore, HR can be separated from other local immune actions/responses at the infection site. HR comprises of serial events inclusive of transcriptional reprograming, Ca2+ influx, oxidative bursts and phyto-hormonal signaling. Although a lot of work has been done on HR in plants but many questions regarding mechanisms and consequences of HRs remain unaddressed.We have summarized the mechanistic roles and cellular events of plant cells during HR in defense regulation. Roles of different genes during HR have been discussed to clarify genetic control of HR in plants. Generally existing ambiguities about HR and programmed cell death at the reader level has been addressed.

Published

2020

7. Efficiency of the Extracts of Some Plants on Squash Powdery Mildew

Author

Ameena Moran Al Surhanee

Subjects

food.ingredient, biology, General Arts and Humanities, General Social Sciences, food and beverages, biology.organism_classification, Fungicide, lcsh:Social Sciences, lcsh:H, Horticulture, chemistry.chemical_compound, food, chemistry, Herb, Spore germination, Petroleum ether, Phenols, General Economics, Econometrics and Finance, Sphaerotheca, Powdery mildew, Squash

Abstract

Experiments were conducted under laboratory, greenhouse and field conditions to investigate the possible utilization of plant extracts to control Sphaerotheca fuliginea, the causal pathogen of squash powdery mildew. Six air dried plant materials, i.e. anise seeds, blue gum leaves, chamomile flowers, cumin seeds, marjoram herb and thyme herb, as well as three organic solvents (acetone, methanol, and petroleum ether) were used for extraction. Methanolic extracts (ME) of blue gum and thyme gave significant decrease in spore germination of S. fuliginea. Treating detached leaves with the organic solvents extracts (OSE) as preventive and curative treatments proved that the first was more effective than the second in controlling the disease. Spraying with (ME) of blue gum and thyme decreased powdery mildew disease incidence and increased total phenols. Also, spraying squash in greenhouse and field with the (OSE) as preventive and curative treatments gave sufficient control to the disease in most cases. However, the efficiency of the methanolic extract of thyme herb in controlling the disease as curative treatment was always comparable to that of the fungicide Afugan. DOI: 10.5901/mjss.2013.v4n11p39

Published

2013