Gene Cutter: Key Achievements and Recent Advances in Viral Research, Molecular Diagnostics, and Gene Editing (2025 Update) I. Viral Research: From Antiviral Therapies to Pathogen Eradication 1. Core Achievements CRISPR-Cas9 Antiviral Mechanisms: Latent Virus Clearance: Dual-cut CRISPR-Cas9 strategie … Gene Cutter: Key Achievements and Recent Advances in Viral Research, Molecular Diagnostics, and Gene EditingRead more
tools
Gene Plasmids: Core Achievements and Future Prospects in Gene Therapy, Vaccine Development, and Agricultural Breeding
Gene Plasmids: Core Achievements and Future Prospects in Gene Therapy, Vaccine Development, and Agricultural Breeding Gene plasmids, a cornerstone of biotechnology, have driven breakthroughs in gene therapy, vaccine development, and agricultural breeding, with transformative potential for cross-disc … Gene Plasmids: Core Achievements and Future Prospects in Gene Therapy, Vaccine Development, and Agricultural BreedingRead more
Gene Delivery: A Critical Step in Gene Therapy, Vaccine Development, and Biomedical Research
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
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
The Pivotal Role of High-Precision Sensors in Synthetic Biology
The Pivotal Role of High-Precision Sensors in Synthetic Biology High-precision sensors are central to achieving dynamic control, real-time monitoring, and precision design in synthetic biology, with applications spanning fundamental research to industrial deployment. Below, we dissect their multidim … The Pivotal Role of High-Precision Sensors in Synthetic BiologyRead more
Synthetic Biology Kinetics(synbiok): Theoretical Foundations for Rational Design of Biosystems
Synthetic Biology Kinetics: Theoretical Foundations for Rational Design of Biosystems Synthetic biology kinetics bridges quantitative modeling and biological system engineering, providing a mathematical framework to predict and control the dynamic behavior of engineered biological systems. This disc … Synthetic Biology Kinetics(synbiok): Theoretical Foundations for Rational Design of BiosystemsRead more
Synthetic Biology: Key Directions in Gene Manipulation
Synthetic Biology: Key Directions in Gene Manipulation I. Foundational Gene-Editing Technologies DNA Synthesis & Assembly Chemical Synthesis: Solid-phase phosphodiester bond-based synthesis produces single-stranded DNA up to 200–300 bp, enabling full gene synthesis (e.g., artificial yeast chromo … Synthetic Biology: Key Directions in Gene ManipulationRead more
Synaptophysin: Biological Expression and Cutting-Edge Advances
Synaptophysin: Biological Expression and Cutting-Edge Advances I. Core Concepts of Synaptophysin Biosynthesis Definition Synaptophysin (SYP), a 38 kDa transmembrane glycoprotein belonging to the tetraspanin family, is predominantly localized on presynaptic vesicle membranes in neurons (constituting … Synaptophysin: Biological Expression and Cutting-Edge AdvancesRead more