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
CRISPR
Core Future Directions in Gene Editing Technology (2025 Trends and Advances)
Core Future Directions in Gene Editing Technology (2025 Trends and Advances) I. Innovations in Gene-Editing Tools Precision and Efficiency Prime Editing 2.0: The optimized PE7 enzyme achieves over 90% editing efficiency, enabling single-base corrections (e.g., APOE ε4 allele) and precise kilobase-sc … Core Future Directions in Gene Editing Technology (2025 Trends and Advances)Read more
Advances in Gene Editing for Human Longevity and Lifespan Extension
Advances in Gene Editing for Human Longevity and Lifespan Extension (2025 Update) 1. Core Innovations: Precision and Multifunctionality Fourth-Generation Editing Systems Prime Editing 2.0: The optimized PE7 enzyme achieves over 90% editing efficiency, correcting aging-related single-base mutations ( … Advances in Gene Editing for Human Longevity and Lifespan ExtensionRead more
Codon Engineering in Personalized Anti-Aging: Applications and Implementation Pathways
Codon Engineering in Personalized Anti-Aging: Applications and Implementation Pathways Customized Codon Optimization Strategies Based on Individual Genomic Features 1. Technological Foundations Codon engineering enables precise regulation of protein expression efficiency, stability, and functionalit … Codon Engineering in Personalized Anti-Aging: Applications and Implementation PathwaysRead 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-Targeted Gene Editing Restores NSC Regenerative Capacity and Advances Neurodegenerative Disease Treatment
CRISPR-Targeted Gene Editing Restores NSC Regenerative Capacity and Advances Neurodegenerative Disease Treatment 1. Core Mechanisms: Targeting Aging-Related Pathways Slc2a4 (GLUT4) and Metabolic Dysregulation Stanford researchers identified elevated GLUT4 expression (encoded by Slc2a4) in aged neura … CRISPR-Targeted Gene Editing Restores NSC Regenerative Capacity and Advances Neurodegenerative Disease TreatmentRead 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
Synthetic mRNA Applications in Vaccine Development and Gene Therapy
Synthetic mRNA Applications in Vaccine Development and Gene Therapy I. Vaccine Development Advancements Infectious Disease Prevention: • Demonstrated rapid response capability through COVID-19 vaccine success • Expanding applications include: RSV, influenza, and Zika virus candidates in clinical tri … Synthetic mRNA Applications in Vaccine Development and Gene TherapyRead more