Hydnora africana Derived Phytochemicals against Acetaldehyde Dehydrogenase of Aeromonas hydrophila Causing Septicemia

For drug discovery it takes approximately 6 years to expose in the market and for commercial uses. There are different procedure to get success in the drug discovery like preliminary phytochemical analysis, structural elucidation of the bioactive compound, preclinical test and clinical test etc. So to optimize the time for invention of new drug molecule, computer aided drug designing and molecular docking analysis is being used as one of the highly effective methodology. The phytochemical extraction of Hydnora africana plant was reported to inhibit the growth of Aeromonas hydrophilawhich cause Septicemia.“Biovia Discovery Studio” molecular docking methods give us opportunity to identify the effective molecule against the microbes. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” recommended that flavone can effectively deactivate the acetaldehyde dehydrogenase enzyme thereby interrupting the life cycle of the organism

Potency of Phytochemicals from Guava (Psidium guajava) Seeds against Escherichia coli to Cure Diarrhoea: An in silico Analysis

Machine learning to deep learning is the enduring upgrading in the pharmaceutical research field. Phytochemicals from Psidium guajava plant extract are traditionally used to cure Diarrhoea. The causative agent of the disease is Escherichia coli. To identify the secondary metabolites (ligand) which is the main responsive compound that have the capacity to inhibit the growth of microorganism was carried bymolecular docking method “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that Heptadecanoic acid can effectively deactivate the shikimate dehydrogenase enzyme thereby interrupting the life cycle of the organism

Nigella sativa Derived Phytochemicals against Cough

Nigella sativa plant extract is traditionally used to cure cough. It is caused by Bordetella pertussis. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that p-cymene can effectively deactivate the adenylate cyclase thereby interrupting the life cycle of the organism

Beet Root Derived Phytochemicals against Escherichia coli Causing Diarrhea

Phytochemicals from Beet Root (Beta vulgaris) plant extract are traditionally used to cure Diarrhea. It is caused by Escherichia coli. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that caffeic acid can effectively deactivate the Shikimate dehydrogenase enzyme thereby interrupting the life cycle of the organism

Pavonia odorata Derived Phytochemicals against Entamoeba histolytica Causing Dysentery

Phytochemicals from Pavonia odorata plant extract are traditionally used to cure Dysentery. It is caused by Entamoeba histolytica. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that palmitic acid can effectively deactivate the Alcohol dehydrogenase enzyme thereby interrupting the life cycle of the organism

Boswellia serrata Roxb. ex Colebt. Derived Phytochemicals Used in the Treatment of Diarrhea

Phytochemicals from Boswellia serrata Roxb. ex Colebt.plant extract are traditionally used to cure diarrhea. It is caused by Escherichia coli. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that p-cymene can effectively deactivate the alcohol dehydrogenase enzyme thereby interrupting the life cycle of the organism

Boswellia serrata Roxb. ex Colebr. Derived Phytochemicals against Skin Disease

Phytochemicals from Boswellia serrata Roxb. ex Colebr plant extract are traditionally used to cure skin disease. It is caused by Staphylococcus aureus. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that P-cymene can effectively deactivate the shikimate dehydrogenase enzyme thereby interrupting the life cycle of the organism

Vaccinium corymbosum L. Derived Phytochemicals against Diarrhea

Phytochemicals from Vaccinium corymbosum L.plant extract are traditionally used to cure diarrhea. It is caused by Escherichia coli. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that cafferic acid can effectively deactivate the shikimate dehydrogenase thereby interrupting the life cycle of the organism

Bhringraj Derived Phytochemicals against Pneumonia

Phytochemicals from Bhringaraj plant extract are traditionally used to cure Pneumonia. It is caused by Klebsiella pneumonia. Molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that glutamic acid can effectively deactivate the dehydrogenase enzyme, thereby interrupting the life cycle of the organism

Guava Seeds Derived Phytochemicals against Dysentery

Phytochemicals are the secondary metabolites that are known as nonnutritive but extremely beneficial for the defensive system for the organism. These phytochemicals can be obtained from all the plants and they play a major role in curing differnt diseases. The extract of the guava seed contains various phytochemicals that can cure the disease like dysentery, caused by the protozoa parasite, namely Entamoeba histolytica. “Biovia Discovery Studio” was used for the molecular docking process. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that Heptadecanoic acid can effectively deactivate the alcohol dehydrogenase enzyme further inhibiting the biological process of the causative organism

Budleja asiatica Derived Phytochemicals against Eye Disease

The secondary metabolites in the plants are used for curing various diseases. The phytochemicals present in Budleja asiaticaplant extract are traditionally used to cure Eye disease. It is caused by Haemophilus influenza, whichis a facultatively anaerobic, gram-negative pathogenic bacteria. For analysis of ligand-protein interaction, the molecular docking method applied using “Biovia Discovery Studio”. “High positive values of -CDOCKER energy and -CDOCKER interaction energy” suggested that lignoceric acid can effectively deactivate Aspararte semialdehyde dehydrogenase enzyme which is important macromolecule for the regulation of amino acid biosynthesis resulting in interrupting the life cycle of the microorganism