1. Core Definition and Fundamental Principles Synthetic vaccines are a class of vaccines engineered de novo using synthetic biology, computational design, and chemical synthesis. Unlike traditional vaccines (live-attenuated or inactivated pathogens), they comprise synthetic components such as: Pepti … Synthetic Vaccines (Synthvaccine): Principles, Design Strategies, and Clinical ApplicationsRead more
Vaccine
Comparative Analysis of Vaccine Vector Technologies
Comparative Analysis of Vaccine Vector Technologies Vaccine vectors, as a cornerstone of modern vaccinology, are categorized into viral vectors, bacterial vectors, nucleic acid vectors (DNA/mRNA), and synthetic biology vectors. Below is a comprehensive comparison of their advantages, limitations, an … Comparative Analysis of Vaccine Vector TechnologiesRead more
Vector Vaccines: Types and Representative Products
Vector Vaccines: Types and Representative Products Vector vaccines utilize genetic engineering to deliver antigens into host cells, activating the immune system. They are widely applied in infectious disease prevention, cancer therapy, and animal health. Below is a comprehensive analysis of major ve … Vector Vaccines: Types and Representative ProductsRead more
Vector Vaccines: Notable Examples and Applications in Human and Animal Health
Vector Vaccines: Notable Examples and Applications in Human and Animal Health I. Viral Vector Vaccines 1. Human Medicine a. Adenoviral Vectors COVID-19 Vaccines: ChAdOx1 (AstraZeneca): A chimpanzee adenovirus vector delivers the SARS-CoV-2 spike protein gene, achieving ~70% efficacy with a single do … Vector Vaccines: Notable Examples and Applications in Human and Animal HealthRead more
Splice Genes in Protein Diversity and Tissue-Specific Regulation: Advances and Applications
Splice Genes in Protein Diversity and Tissue-Specific Regulation: Advances and Applications I. Biological Basis of Alternative Splicing and Protein Diversity 1. Prevalence and Molecular Mechanisms Alternative splicing, a central post-transcriptional regulatory mechanism, generates multiple mRNA isof … Splice Genes in Protein Diversity and Tissue-Specific Regulation: Advances and ApplicationsRead more
Strategies and Recent Advances in Viral Gene-Based Disease Prevention
Strategies and Recent Advances in Viral Gene-Based Disease Prevention The unique biological properties of viral genes—such as high infectivity, target specificity, and programmability—have revolutionized disease prevention. By engineering viral vectors or leveraging viral genome characteristics, sci … Strategies and Recent Advances in Viral Gene-Based Disease PreventionRead more
Vector Vaccines: A Cornerstone Tool Against Emerging Infections, Cancer, and Genetic Diseases
Vector Vaccines: A Cornerstone Tool Against Emerging Infections, Cancer, and Genetic Diseases Core Mechanisms and Technical Principles Vector vaccines use engineered viruses or bacteria as delivery vehicles to introduce foreign antigen genes into host cells, triggering specific immune responses. Key … Vector Vaccines: A Cornerstone Tool Against Emerging Infections, Cancer, and Genetic DiseasesRead more
ViralVectorAI: The Role and Future of AI-Driven Viral Vector Technology in Gene Editing
ViralVectorAI: The Role and Future of AI-Driven Viral Vector Technology in Gene Editing The integration of AI and viral vector technology is revolutionizing gene editing, driving advancements in precision, intelligence, and industrial scalability. By optimizing vector design, predicting editing outc … ViralVectorAI: The Role and Future of AI-Driven Viral Vector Technology in Gene EditingRead more