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
BIO
BIO Introduction
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
Synthetic Biology Hybrid (SynBioH): Designing Hybrid Biological Components and Chimeric Metabolic Pathways
Synthetic Biology Hybrid (SynBioH): Designing Hybrid Biological Components and Chimeric Metabolic Pathways Engineering Enhanced Biosystems Through Cross-Species Integration and Pathway Innovation Core Principles and Design Strategies SynBioH combines elements from diverse biological systems or redes … Synthetic Biology Hybrid (SynBioH): Designing Hybrid Biological Components and Chimeric Metabolic PathwaysRead more
Synthetic Biology (SynBio): Engineering Biosystems for Medicine, Energy, and Materials
Synthetic Biology (SynBio): Engineering Biosystems for Medicine, Energy, and Materials Synthetic biology (SynBio) is a revolutionary discipline that merges engineering principles with biological systems to design, construct, and optimize novel organisms or biological components. By reprogramming gen … Synthetic Biology (SynBio): Engineering Biosystems for Medicine, Energy, and MaterialsRead more
Syn BioML: Convergence of Synthetic Biology and Machine Learning
Syn BioML: Convergence of Synthetic Biology and Machine Learning Algorithm-Driven Innovations in Drug Development, Disease Diagnosis, and Biomanufacturing Technical Framework and Core Principles Syn BioML (Synthetic Biology Machine Learning) integrates synthetic biology with machine learning to deco … Syn BioML: Convergence of Synthetic Biology and Machine LearningRead more
Synth mRNA (Synthetic mRNA): Innovations in Cancer Immunotherapy and Rare Disease Treatment
Synth mRNA (Synthetic mRNA): Innovations in Cancer Immunotherapy and Rare Disease Treatment From Tumor Neoantigen Delivery to Defective Protein Repair Cancer Immunotherapy: Precision Delivery of Tumor Neoantigens and Immune Activation 1. Core Technologies for Neoantigen Vaccines AI-Driven Antigen Sc … Synth mRNA (Synthetic mRNA): Innovations in Cancer Immunotherapy and Rare Disease TreatmentRead more