How Electroporation for Gene Editing Can Revolutionize Biotechnology скачать в хорошем качестве

How Electroporation for Gene Editing Can Revolutionize Biotechnology

Electroporation is a powerful technique that uses short, high-voltage pulses to create temporary nanopores in cell membranes, allowing the controlled delivery of DNA, RNA, proteins, or drugs. When combined with microfluidic technology, electroporation achieves higher precision, efficiency, and reproducibility — making it an essential tool for gene therapy, drug delivery, and single-cell research. By utilizing microdroplets and microcapsules, scientists can encapsulate individual cells, ensuring uniform electroporation conditions and minimizing variability. Could this lab-on-a-chip approach revolutionize personalized medicine and genetic engineering? #Electroporation #Microfluidics #GeneTherapy #TargetedDrugDelivery #Biophysics #CellularEngineering #SingleCellAnalysis #BiomedicalTechnology #Nanopores #LabOnAChip Key Topics Covered in This Video: ⚡ What Is Electroporation? – How electric fields open cell membranes for molecular delivery. 🧬 Microfluidic Electroporation Advantages – Higher precision, minimal cell damage, and efficient transfection. 🩸 Microdroplets & Microcapsules in Electroporation – Isolating cells for uniform and controlled treatment. 🏥 Clinical & Research Applications – From CRISPR gene editing to targeted cancer therapies. 🚀 Future Innovations in Electroporation Technology – AI-driven systems and lab-on-a-chip breakthroughs. Context Timestamps: 00:00 - Introduction: What Is Electroporation? 02:30 - How Microfluidics Enhances Electroporation 05:15 - Microdroplets & Microcapsules for Controlled Delivery 08:00 - Applications in Gene Therapy & Drug Delivery 10:30 - Future of Electroporation & Lab-on-a-Chip Technology With advancements in automated microfluidic systems, could electroporation lead to non-invasive, highly targeted genetic therapies? Share your thoughts in the comments!