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
Vaccine
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
The Research Significance of Viral Genes in Medical Applications, Gene Therapy, Evolution, and Epidemiology
The Research Significance of Viral Genes in Medical Applications, Gene Therapy, Evolution, and Epidemiology I. Core Roles of Viral Genes in Medical Applications 1. Breakthroughs in Gene Therapy Vectors Genetically engineered viruses serve as efficient gene delivery tools, leveraging their natural in … The Research Significance of Viral Genes in Medical Applications, Gene Therapy, Evolution, and EpidemiologyRead more
SynBio V: Engineering Viral Vectors for mRNA Vaccine Design and Production
SynBio V: Engineering Viral Vectors for mRNA Vaccine Design and Production Integrating Viral Delivery Systems with Synthetic Biology Tools 1. Technological Foundations: Synthetic Biology Reengineering of Viral Vectors Viral vectors, as core mRNA delivery tools, require synthetic biology modification … SynBio V: Engineering Viral Vectors for mRNA Vaccine Design and ProductionRead 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
Lipid Nanoparticles (LNPs) in Gene Therapy and Cancer Treatment: Practical Applications
Lipid Nanoparticles (LNPs) in Gene Therapy and Cancer Treatment: Practical Applications Lipid nanoparticles (LNPs), as non-viral delivery vehicles, have become a core technology in gene therapy and cancer treatment due to their high nucleic acid delivery efficiency, low immunogenicity, and engineeri … Lipid Nanoparticles (LNPs) in Gene Therapy and Cancer Treatment: Practical ApplicationsRead more
Modified RNA in Therapeutics and Vaccines: Mechanisms, Applications, and Future Challenges
Modified RNA in Therapeutics and Vaccines: Mechanisms, Applications, and Future Challenges Modified RNA technology enhances RNA stability, translation efficiency, and immune regulation through chemical or sequence engineering, making it a cornerstone of modern drug and vaccine development. Below, we … Modified RNA in Therapeutics and Vaccines: Mechanisms, Applications, and Future ChallengesRead more