AI-Driven Genomic Analysis Revolution: Reshaping Precision Medicine and Synthetic Biology (Updated: May 20, 2025) I. Precision Medicine: From Population-Based Care to Molecular Interventions AI-powered genomic analysis (BioAI Genome) is driving transformative innovations across healthcare: 1. Diseas … AI-Driven Genomic Analysis Revolution(bioaigenome): Reshaping Precision Medicine and Synthetic BiologyRead more
CRISPR
Bioinspired Self-Healing Materials(selfhealmat): From Molecular Design to Industrial Applications
Bioinspired Self-Healing Materials: From Molecular Design to Industrial Applications (As of May 20, 2025) I. Core Mechanisms and Classification Bioinspired self-healing materials mimic biological damage-response mechanisms, falling into two primary categories: 1. Extrinsic Healing Microcapsule/Vascu … Bioinspired Self-Healing Materials(selfhealmat): From Molecular Design to Industrial ApplicationsRead more
In Vivo Delivery (invivodelivery)Technologies for Hematopoietic Stem Cell Editing: Applications and Advances
In Vivo Delivery Technologies for Hematopoietic Stem Cell Editing: Applications and Advances (As of May 2025) I. Technology Platforms: From Lipid Nanoparticles to Targeted Delivery 1. Breakthroughs in Lipid Nanoparticles (LNPs) Antibody-Targeted Delivery: CD117-targeted LNPs (e.g., CD117/LNP-mRNA) e … In Vivo Delivery (invivodelivery)Technologies for Hematopoietic Stem Cell Editing: Applications and AdvancesRead more
AI-Driven Bio-Machine Hybrid Systems (RoboSynAI): Advances in Protein Design and Cell Factory Programming
AI-Driven Bio-Machine Hybrid Systems (RoboSynAI): Advances in Protein Design and Cell Factory Programming —Technological Convergence, Paradigm Shifts, and Industrial Breakthroughs In recent years, AI-driven bio-machine hybrid systems (RoboSynAI) have reshaped the foundational logic of protein engine … AI-Driven Bio-Machine Hybrid Systems (RoboSynAI): Advances in Protein Design and Cell Factory ProgrammingRead more
R in Synthetic Biology: Technological Integration and Innovation in Bioinformatics
R in Synthetic Biology: Technological Integration and Innovation in Bioinformatics The convergence of synthetic biology (SynBio) and bioinformatics, powered by the R programming language, is revolutionizing research paradigms in gene design, metabolic engineering, and systems modeling. Leveraging R’ … R in Synthetic Biology: Technological Integration and Innovation in BioinformaticsRead more
BioAI Genome: Advancements in Alzheimer’s Gene Therapy Development
BioAI Genome: Advancements in Alzheimer’s Gene Therapy Development BioAI Genome, a cutting-edge platform integrating artificial intelligence (AI) and genomics, has demonstrated groundbreaking progress in accelerating gene therapy development for Alzheimer’s disease (AD) and other complex … BioAI Genome: Advancements in Alzheimer’s Gene Therapy DevelopmentRead more
Genome Editing Therapies for Alzheimer’s Disease and Age-Related Disorders: Current Progress and Future Directions
Genome Editing Therapies for Alzheimer’s Disease and Age-Related Disorders: Current Progress and Future Directions Genome editing technologies, particularly CRISPR-Cas9 systems, have emerged as cutting-edge tools for treating Alzheimer’s disease (AD) and other age-related conditions. By … Genome Editing Therapies for Alzheimer’s Disease and Age-Related Disorders: Current Progress and Future DirectionsRead more
Genome Editing in Longevity: A Multidimensional Intervention System
Genome Editing in Longevity: A Multidimensional Intervention System Genome editing has evolved from a laboratory tool to an engineered platform for systematically extending healthspan by precisely regulating aging-related molecular pathways. As of 2025, its framework spans six core dimensions—from D … Genome Editing in Longevity: A Multidimensional Intervention SystemRead more