GeneCodon: Technological Applications and Recent Case Studies in Genetic Code Expansion (as of May 2025) GeneCodon, a genetic code expansion technology, enables precise incorporation of non-canonical amino acids (ncAAs) into proteins by redefining the genetic code. This innovation transcends traditi … GeneCodon: Technological Applications and Recent Case Studies in Genetic Code ExpansionRead 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.
Genedeliver: Prospects and Timelines for Gene Delivery Technology in Regenerative Medicine
Genedeliver: Prospects and Timelines for Gene Delivery Technology in Regenerative Medicine (as of May 2025) Gene delivery technology is pivotal to tissue repair, organ regeneration, and anti-aging interventions in regenerative medicine. Genedeliver, a proprietary gene delivery platform developed dom … Genedeliver: Prospects and Timelines for Gene Delivery Technology in Regenerative MedicineRead more
GenoFus: Precision Detection of Gene Fusions in Lung Cancer and Targeted Therapy Decision-Making
GenoFus: Precision Detection of Gene Fusions in Lung Cancer and Targeted Therapy Decision-Making GenoFus is an integrated gene fusion detection system combining next-generation sequencing (NGS), artificial intelligence (AI), and multi-omics analysis, designed for precision lung cancer treatment. Bel … GenoFus: Precision Detection of Gene Fusions in Lung Cancer and Targeted Therapy Decision-MakingRead more
RNA Scan: Spatial Transcriptomics and Spatiotemporal RNA Dynamics Analysis
RNA-Scan: Spatial Transcriptomics and Spatiotemporal RNA Dynamics Analysis RNA localization and dynamics are central to cellular function regulation. Recent advances in spatial transcriptomics (ST) enable researchers to analyze RNA distribution and dynamics at subcellular to tissue scales. RNA-Scan, … RNA Scan: Spatial Transcriptomics and Spatiotemporal RNA Dynamics AnalysisRead more
Why Are RNA Primers Used Instead of DNA in DNA Replication?
Why Are RNA Primers Used Instead of DNA in DNA Replication? DNA replication is a fundamental molecular process, and the use of RNA primers over DNA primers involves intricate biochemical mechanisms and evolutionary logic. Below is a multi-dimensional analysis of this phenomenon: I. Functional Limita … Why Are RNA Primers Used Instead of DNA in DNA Replication?Read more
BCIRehabSys: Breakthroughs in Neural Injury Rehabilitation through Brain-Computer Interface Integration
BCIRehabSys: Breakthroughs in Neural Injury Rehabilitation through Brain-Computer Interface Integration The Brain-Computer Interface Rehabilitation System (BCIRehabSys) redefines neural injury treatment by integrating artificial intelligence (AI), robotics, and neuroscience. Its core innovation lies … BCIRehabSys: Breakthroughs in Neural Injury Rehabilitation through Brain-Computer Interface IntegrationRead more
BioAidna: Challenges and Future Directions of AI-Driven Biotechnology
BioAidna: Challenges and Future Directions of AI-Driven Biotechnology The integration of AI and biotechnology is reshaping scientific discovery and therapeutic development. Below is an analysis of core challenges and emerging opportunities in this field. I. Core Challenges: Technical, Ethical, and S … BioAidna: Challenges and Future Directions of AI-Driven BiotechnologyRead more
Core Types of RNA Therapy and Breakthroughs in Rare Disease Treatment
Core Types of RNA Therapy and Breakthroughs in Rare Disease Treatment RNA therapies precisely regulate disease by targeting various stages of gene expression. Below is an analysis of their core types, recent advancements in rare diseases, and future directions. I. Core Types of RNA Therapy Antisense … Core Types of RNA Therapy and Breakthroughs in Rare Disease TreatmentRead more