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Computational Multi-Epitope Vaccine Design - OneDDL - 08-17-2025 Free Download Computational Multi-Epitope Vaccine Design Published 8/2025 MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch Language: English | Duration: 1h 23m | Size: 796 MB Master End-to-End Bioinformatics Vaccine Development: From Target Selection to Immune Simulation and Cloning What you'll learn Predict B/T-cell epitopes via IEDB and validate safety/immunogenicity with VaxiJen, AllerTOP, and ToxinPred. Design multi-epitope vaccines using adjuvants (β-defensin), linkers (AAY/EAAAK), and epitope screening workflows. Execute structural validation: Dock vaccine-TLR4 complexes (HDOCK), run MD simulations (iMODS), and interpret stability metrics (B-factor/deformability). Simulate immune responses using C-ImmSim to quantify antibody kinetics (IgM/IgG), B/T-cell dynamics, and cytokine profiles. Perform end-to-end in silico cloning: Optimize codons (JCAT), integrate into pET28a+ vectors, and validate with SnapGene. Requirements Basic biology knowledge, introductory immunology, and computer literacy to install/run tools-no coding experience required. Description This course immerses you in mastering end-to-end computational vaccinology, focusing on designing clinically relevant multi-epitope vaccines against lethal pathogens like Nipah virus and emerging pandemics. You'll master immunoinformatics foundations: vaccine immunology, adaptive immunity mechanisms, epitope-paratope interactions, and cross-population MHC-driven immune responses mediated by HLA polymorphisms. Next, pathogen target screening teaches high-throughput surface protein selection, structure-based conservation analysis, human/microbiome homology validation via BLASTP, and regulatory-grade safety profiling (allergenicity/toxicity) using structural bioinformatics.Epitope engineering covers advanced conformational B/T-cell prediction using IEDB, multi-parametric antigenicity/solubility filtering (VaxiJen/PepCalc), and precision vaccine construction with adjuvants (β-defensin) and protease-resistant linkers (AAY/EAAAK) maintaining structural integrity for cold-chain stability. Finally, structural vaccinology includes high-accuracy vaccine-TLR4 docking, molecular dynamics stability simulations (deformability/B-factor/eigenvalue analysis) under physiological conditions, and in silico immunogenicity profiling with C-ImmSim to quantify antibody isotype switching, affinity maturation, and T-cell clonal expansion.The curriculum culminates with GMP-compliant translational bioinformatics: industry-standard codon optimization maximizing CAI, pET28a+ vector cloning, and SnapGene-based expression feasibility validation. All skills are applied through 12 hands-on modules to build a clinically viable Nipah virus vaccine-from target selection to wet-lab-ready constructs-equipping you to tackle COVID-19, influenza, Ebola, or novel pathogens. Graduate with certified, job-ready computational vaccinology expertise for high-impact biopharma or academic research careers in pandemic preparedness, empowering you to develop cost/time-efficient vaccines against antigenically variable pathogens. Who this course is for Bioinformaticians, immunologists, virologists, and researchers transitioning to computational vaccinology or pharma/biotech roles. Homepage [To see links please register or login] Recommend Download Link Hight Speed | Please Say Thanks Keep Topic Live [To see links please register or login] No Password - Links are Interchangeable