In-silico approach of Fusion Glycoprotein (F) targeted multi-epitope vaccine against Human Respiratory Syncytial Virus (HRSV)

dc.contributor.advisorSiam , Mohammad Kawsar Sharif
dc.contributor.authorSejan, Al Saba
dc.date.accessioned2024-05-29T04:58:31Z
dc.date.available2024-05-29T04:58:31Z
dc.date.issued2023-02
dc.descriptionCataloged from PDF version of thesis.
dc.descriptionIncludes bibliographical references (pages 50-55).
dc.descriptionThis thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Pharmacy, 2023.
dc.description.abstract"This work created a multi-epitope respiratory syncytial virus vaccine in-silico and simulated its biochemical effectiveness. In-silico investigation selected fusion glycoprotein (F) from envelope proteins of RSV. F protein causes virion-target cell membrane fusion. However, in-silico methodology used several servers, databases, and software such as Vaxijen v2.0 for antigenicity, NetCTL-1.2, NetMHCIIpan 4.0, and Bepipred servers, which were utilized to find epitopes recognized by cytotoxic T lymphocytes (CTLs), helper T lymphocytes (HTLs), and B cells. IFNepitope, IL-4Pred, and IL-10Pred were used to identify epitopes expressed by HTLs. Linkers were used to connect epitopes. Positive findings were found in biochemical analysis of the final proposed vaccine. Positive outcomes were predicted for a range of indicators, including instability index (38.99 as stable), GRAVY score (-0.180), molecular weight (91876.78 dalton), toxicity, antigenicity (0.5810), and allergenicity. Furthermore, acceptable z-score (-9.89) and Ramachandran plot (94.95%) were obtained for the final proposed vaccine via ProSAweb and SWISS-MODEL, respectively. The required outcome was also achieved by homology modeling, molecular docking, and immune response simulation via responsible servers. However, in-silico vaccine discovery for RSV and other diseases may be accelerated"
dc.identifier.otherID 18346029
dc.identifier.otherhttps://dspace.bracu.ac.bd/server/api/core/items/4a577976-f079-4ced-a199-49a02677c7bb
dc.identifier.urihttp://hdl.handle.net/10361/22981
dc.language.isoen
dc.publisherBRAC University
dc.sourceBRAC University Institutional Repository
dc.subjectRespiratory syncytial virus
dc.subjectMulti-epitope vaccine
dc.subjectFusion glycoprotein
dc.subjectBiochemical analysis
dc.subjectImmune simulation
dc.titleIn-silico approach of Fusion Glycoprotein (F) targeted multi-epitope vaccine against Human Respiratory Syncytial Virus (HRSV)
dc.typeThesis

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