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Full-Text Articles in Molecular Biology
Capsaicinoids From Capsicum Annuum As An Alternative Fabh Inhibitor Of Mycobacterium Tuberculosis: In Silico Study, Gabriella Chandrakirana Krisnamurti, Dewi Ratih Tirto Sari, Yohanes Bare
Capsaicinoids From Capsicum Annuum As An Alternative Fabh Inhibitor Of Mycobacterium Tuberculosis: In Silico Study, Gabriella Chandrakirana Krisnamurti, Dewi Ratih Tirto Sari, Yohanes Bare
Makara Journal of Science
The number of tuberculosis (TB) cases worldwide reached 1.5 million in 2018; thus, TB is considered a deadly disease. TB is caused by Mycobacterium tuberculosis and involves lipid synthesis. Considering the importance of lipid metabolism in bacteria, FabH may be an essential protein target for repressing lipid synthesis. Capsaicinoids from Capsicum annuum demonstrate potent antibacterial activity. This study predicted the ability of capsaicinoid compounds to inhibit FabH. In silico analysis was performed by retrieving the structure of FabH from PDB and those of selected capsaicinoid derivatives from PubChem. The compounds were docked using AutoDock Vina in PyRx 0.8 software. The …
The Classification Of An Unknown Protein 3h04, Britney Dyszel
The Classification Of An Unknown Protein 3h04, Britney Dyszel
Biochemistry and Molecular Biology Presentations
An unclassified protein in the Protein Data Bank, 3H04, was selected as a protein of interest. Research was performed in silico to gain key information on the structure, sequence, and homology of protein 3H04. This research was guided using the BASIL Project’s protocols on in silico research. Several databases were utilized to study protein 3H04. Based on the data gathered, unclassified protein 3H04 is an aminopeptidase that cleaves prolyl-dipeptidyl peptide bonds through alpha beta hydrolase function.