jpans
Abstract : In Silico Design & Development of Some Selected Flavonols Against Beta–Glucuronidase Inhibitory Activity
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Abstract: Drug discovery process develops faster due to more advances in computational techniques. The protein ligand interaction well predicted due to the in-silico approach study. The present investigation focused towards the development of lead structure for treatment of hepatic disorders. An increase in serum acid hydrolase, including β-glucuronidase has been reported in numbers of pathological conditions such as arthritis, renal diseases and epilepsies. Enhancement of this enzyme β–glucuronidase in blood has been found to correlate significantly with liver damage. β-glucuronidase inhibitor is a novel approach which is different from the available hepatoprotective drug therapies. Method: The current study is based on in-silico ligand screening and in-vitro estimation of the three flavonols [Naringenin, Quercetin and 2-(3, 4-Dihydroxy Phenyl)-7-Hydroxy-3-(2-Hydroxy Ethoxy) 4-H-Chromen-4one] compounds with enzyme β-glucuronidase. Molecular docking software Py Rex and Py Mol was used to dock the selected ligand in the binding site of the crystal structure of protein. Results: Docking results are based on the least binding energy of the selected flavonols compounds. Further attempt has been made towards in-vitro estimation of this enzyme with those selected compounds. The binding affinity with existence of hydrogen bonds leads to find out the mechanism which was well correlated with the findings of in-vitro inhibitory activity. Conclusion: The result outcome of the binding orientation of 2-(3, 4-Dihydroxy Phenyl)-7-Hydroxy-3-(2-Hydroxy Ethoxy) 4-H-Chromen-4one linked with the active amino acid residue of the protein and the binding affinity leads to find out the mechanism for its potential in-vitro inhibitory activity. Keywords: Protein ligand, β-glucuronidase, serum acid, Chromen, binding affinity.Download Full Article |
Abstract : Bioactive Metabolites from Indigenous Actinomycetes Isolated from Marine Water
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Abstract: Microbial natural products have continued to play an important role in the discovery of novel chemicals for the development of important therapeutic agents. Actinomycetes form a potent reservoir of biologically active secondary metabolites and enzymes. The need for finding novel bioactive compounds for the development of new therapeutic agents is required due to the emergence of antibiotic resistance among pathogenic bacteria. Actinomycetes are considered as one of the best producers of variety of antagonistic compounds that could serve as potential chemotherapeutic agents. The present study was undertaken to find new antagonistic compounds from actinomycetes. Actinomycetes were successfully isolated from marine water samples collected at various locations of Karachi. Initially 39 isolates were collected out of which 23 were found to produce active metabolites against one or more test bacterial cultures. Actinomycetes strains IS26, IS33, and IS39 showed significant potential of having bioactive metabolites. Further, the spectrum of those strains was tested against gram positive and gram negative bacteria and results showed variable potential of actinomycetes to inhibit bacterial growth. Keywords: Actinomycetes, Bioactive metabolites, Marine water, Antimicrobial, Human Pathogens.Download Full Article |
Abstract : Impact Evaluation of Calcium and Vitamin D Supplementation and Physical Activity on Bone Health Status of Elderly Population of Urban Vadodara
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Abstract: Background: Osteoporosis is a global public health problem affecting the ageing population and influenced by poor nutrition, lack of physical activities, and absence of supplementation on time. Objectives: To study the impact of Calcium and vitamin D supplementation along with weight bearing exercises on bone health status of elderly. Methods:30 elderly males and 20 elderly females having poor BMD and poor serum vitamin D were supplemented with 1000 mg calcium and 500 IU vitamin D/ day along with weight bearing exercises for a period of 3 months, along with that 60000 IU vitamin D3/week for 2 months were given to 30 males only. Serum calcium, Vitamin D, BMD, dietary calcium intake, frequency of vitamin D rich food intake, anthropometry etc. were measured at the baseline as well as after the intervention. Results: Mean BMD T-scores (-1.1 to -2.5: osteopenia; >-2.5: osteoporosis) of the elderly males and females were significantly (p≤0.001) decreased after the intervention depicting improvement (baseline:-2.34±0.50, final:-1.86±0.61). 26.7% reduction in osteoporotic cases among males and 50 % among women was achieved. Mean serum calcium (baseline: 9.38±0.63, final: 9.46±0.61) and vitamin D level (baseline: 23.76±13.17, final: 35.48±14.84) was increased significantly (p≤0.05). 60% males and 70% females achieved vitamin D sufficiency level after the intervention. Mean physical endurance (Grip strength, standing balance, walking speed and rise from chair) scores were significantly increased in both males and females. Locomotor problems were reduced among 6.7% males and 40% females after regular weight bearing exercise and supplementation. Conclusion:Calcium and vitamin D supplementation with daily weight bearing exercise has a preventive and curative effect on BMD and it maintains the serum calcium and vitamin D levels. Long term and high dose supplementation needs further investigation. Keywords: Elderly, BMD, Calcium, Vitamin D, Physical Activity.Download Full Article |
Abstract : Effects of Different Physical and Chemical Parameters on Phosphate Solubilization Activity of Plant Growth Promoting Bacteria Isolated from Indigenous Soil
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Abstract: he microorganisms play a vital role in fertility of soil and hence favors’ large group of plants. In present study we have successfully isolated certain bacteria from soil including both Gram positive and Gram negative bacteria and access their ability in phosphate solubilization. Effects of temperature, pH and different carbon sources, on phosphate solubilization, by these isolates were also determined. Low temperature 25 °C, pH between 5-7, and glucose as carbon source were found to be best for phosphate solubilization by most of the isolates. Present study highlights the importance of these plants growth promoting bacteria and their uses for agriculture purposes. Keywords: Phosphate solubilization, Plant growth promoting bacteria, Indigenous Soil, Temperature, pH and Carbon sources.Download Full Article |
