Cross-Species Synthetic Biology and Breakthroughs in Modified RNA Technologies I. Core Drivers and Prospects of Cross-Species Synthetic Biology Cross-species synthetic biology aims to engineer diverse biological systems (microbes, plants, animals, or artificial cells) to integrate metabolic pathways … Cross-Species Synthetic Biology and Breakthroughs in Modified RNA TechnologiesRead more
Gene
Gene is the fundamental unit of heredity, composed of specific DNA (or RNA) sequences that encode functional molecules (e.g., proteins or RNAs) and govern traits.
Engineered Modified RNA and Its Biological Significance
Engineered Modified RNA and Its Biological Significance Core Technical Strategies for Modified RNA 1. Nucleobase Engineering Natural Modification Engineering: Incorporating naturally occurring modified nucleosides (e.g., N1-methyl-pseudouridine, pseudouridine) into mRNA vaccines reduces immunogenici … Engineered Modified RNA and Its Biological SignificanceRead more
mRNA Velocity in Developmental Biology and Disease Mechanisms: Applications and Prospects (2025 Update)
mRNA Velocity in Developmental Biology and Disease Mechanisms: Applications and Prospects (2025 Update) mRNA Velocity (RNA velocity) is a breakthrough single-cell RNA sequencing (scRNA-seq) technology that infers the directionality and temporal trajectory of cell differentiation by analyzing the dyn … mRNA Velocity in Developmental Biology and Disease Mechanisms: Applications and Prospects (2025 Update)Read more
Precision Nutrigenomics: Definition and Scientific Framework
Precision Nutrigenomics: Definition and Scientific Framework Precision Nutrigenomics is an interdisciplinary field that integrates genomics, epigenetics, metabolomics, and microbiome data to develop personalized dietary interventions by analyzing gene-nutrient interactions. Its core mission is to re … Precision Nutrigenomics: Definition and Scientific FrameworkRead more
2025 Global Advances and Applications in AI-Driven Drug Development
2025 Global Advances and Applications in AI-Driven Drug Development AI-driven drug development has entered a critical phase of “scaling from technical validation to industrial application” in 2025, integrating generative AI, multi-omics analysis, quantum computing, and other technologies … 2025 Global Advances and Applications in AI-Driven Drug DevelopmentRead more
Edit Omics: The Transformative Potential of Integrating Gene Editing with Multi-Omics Approaches
Edit Omics: The Transformative Potential of Integrating Gene Editing with Multi-Omics Approaches The convergence of gene editing and multi-omics technologies marks a paradigm shift in life sciences, transitioning from “single-dimension observation” to “systematic programming.” … Edit Omics: The Transformative Potential of Integrating Gene Editing with Multi-Omics ApproachesRead 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
Gene Plasmid: Multifaceted Applications in Drug Production, Vaccine Development, and Gene Function Research
Gene Plasmid: Multifaceted Applications in Drug Production, Vaccine Development, and Gene Function Research Gene plasmids—circular, self-replicating DNA molecules—serve as foundational tools in genetic engineering due to their programmability and versatility. They play critical roles in biopharmaceu … Gene Plasmid: Multifaceted Applications in Drug Production, Vaccine Development, and Gene Function ResearchRead more