Gene Delivery: A Critical Step in Gene Therapy, Vaccine Development, and Biomedical Research Gene delivery—the process of introducing genetic material into target cells—is foundational to advancing gene therapies, next-generation vaccines, and biomedical discoveries. Its success hinges on precision, … Gene Delivery: A Critical Step in Gene Therapy, Vaccine Development, and Biomedical ResearchRead more
CRISPR
Integration of Brain-Computer Interfaces and Quantum Computing: Cross-Scale Precision Control from Molecules to Ecosystems
Integration of Brain-Computer Interfaces and Quantum Computing: Cross-Scale Precision Control from Molecules to Ecosystems The fusion of brain-computer interfaces (BCI) and quantum computing (QC) is expanding humanity’s ability to regulate life systems from microscopic molecules to macroscopic ecosy … Integration of Brain-Computer Interfaces and Quantum Computing: Cross-Scale Precision Control from Molecules to EcosystemsRead 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
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
Nanoactuator in Artificial Muscles and Minimally Invasive Surgery: Recent Advances and Future Prospects
Nanoactuators in Artificial Muscles and Minimally Invasive Surgery: Recent Advances and Future Prospects I. Innovations in Artificial Muscle Technology 1. Breakthroughs in Carbon Nanotube (CNT)-Based Nanoactuators CNTs, with their unique mechanical and electrochemical properties, are revolutionizing … Nanoactuator in Artificial Muscles and Minimally Invasive Surgery: Recent Advances and Future ProspectsRead more
Neuroendocrine Neoplasms (NENs): A Comprehensive Overview
Neuroendocrine Neoplasms (NENs): A Comprehensive Overview I. Definition and Classification Neuroendocrine neoplasms (NENs) are heterogeneous tumors arising from peptidergic neurons and neuroendocrine cells, characterized by neuroendocrine differentiation and hormone or bioactive peptide secretion. A … Neuroendocrine Neoplasms (NENs): A Comprehensive OverviewRead more
Protein Engineering in Synthetic Biology: Recent Advances and Future Prospects
Protein Engineering in Synthetic Biology: Recent Advances and Future Prospects The convergence of synthetic biology and protein engineering is redefining biotechnology. Recent breakthroughs in protein design, optimization, and application—powered by gene editing, AI, and cross-scale engineering stra … Protein Engineering in Synthetic Biology: Recent Advances and Future ProspectsRead more