RNA Synthetic Biology (SynBio + RNA): Engineering Artificial RNA Molecules for Therapeutics and Biomanufacturing Systemic Innovation from Gene Regulation to Industrial-Scale Production 1. Technological Foundations: RNA as Dynamic Biological Tools The fusion of synthetic biology and RNA technology le … RNA Synthetic Biology (SynBioR): Engineering Artificial RNA Molecules for Therapeutics and BiomanufacturingRead more
tools
Quantitative Synthetic Biology: A Scientific Framework for Predictable and Tunable Biomanufacturing
Quantitative Synthetic Biology: A Scientific Framework for Predictable and Tunable Biomanufacturing Integrating Multidimensional Technologies and Systematic Engineering Practices 1. Core Principles Quantitative synthetic biology is an interdisciplinary field that applies mathematical modeling, machi … Quantitative Synthetic Biology: A Scientific Framework for Predictable and Tunable BiomanufacturingRead more
Proactive Health: AI-Driven Disease Risk Prediction and Human Longevity
Proactive Health: AI-Driven Disease Risk Prediction and Human Longevity Revolutionizing Healthcare Through Multimodal Data Integration and Precision Interventions 1. Technological Foundations: Core AI Capabilities Multimodal Data Integration AI synthesizes genomics (e.g., polygenic risk scores), ele … Proactive Health: AI-Driven Disease Risk Prediction and Human LongevityRead more
Bio-Cyclic Systems: Closing Resource Loops Through Microbial Degradation and Algal Carbon Fixation
Bio-Cyclic Systems: Closing Resource Loops Through Microbial Degradation and Algal Carbon Fixation 1. Core Principle: Engineering Natural Processes Bio-Cyclic systems mimic natural ecosystem flows by integrating microbial degradation and algal carbon fixation into closed-loop resource regeneration: … Bio-Cyclic Systems: Closing Resource Loops Through Microbial Degradation and Algal Carbon FixationRead more
Bioalgal Technology: Environmental and Bioenergy Applications
Bioalgal Technology: Environmental and Bioenergy Applications Integrating Synthetic Biology and Systems Engineering for 2025 Innovations 1. Environmental Breakthroughs Pollutant Remediation and Resource Cycling Wastewater treatment: Algae absorb nitrogen, phosphorus, and heavy metals (e.g., cadmium, … Bioalgal Technology: Environmental and Bioenergy ApplicationsRead more
Ecology Synthetic Biotechnology (EcoSynBio): Engineered Biosystems for Environmental Remediation and Sustainable Production
Ecology Synthetic Biotechnology (EcoSynBio): Engineered Biosystems for Environmental Remediation and Sustainable Production Systemic Solutions Based on 2025 Synthetic Biology Frontiers Core Paradigm: Transitioning from Linear Economy to Biocycling EcoSynBio integrates gene editing, metabolic enginee … Ecology Synthetic Biotechnology (EcoSynBio): Engineered Biosystems for Environmental Remediation and Sustainable ProductionRead more
Codon Bio: Innovations in Codon Optimization, Gene Synthesis, and Protein Engineering
Codon Bio: Innovations in Codon Optimization, Gene Synthesis, and Protein Engineering 1. Codon Optimization Breakthroughs AI-Driven Codon Optimization Absci’s CO-BERTa model integrates deep learning with high-throughput experimental data to predict codon usage for optimal protein expression. This sy … Codon Bio: Innovations in Codon Optimization, Gene Synthesis, and Protein EngineeringRead more
CRISPR Gene Editing in Neural Stem Cell Aging Regulation and Multi-Gene Synergistic Anti-Aging Systems
CRISPR Gene Editing in Neural Stem Cell Aging Regulation and Multi-Gene Synergistic Anti-Aging Systems 1. Technological Breakthroughs: Key Targets in Aging Regulation Genome-Wide Screening Platform A Stanford University team developed a dual-mode CRISPR-Cas9 screening system (in vitro and in vivo): … CRISPR Gene Editing in Neural Stem Cell Aging Regulation and Multi-Gene Synergistic Anti-Aging SystemsRead more