Articles tagged with Transfected Cells
AcCELLerate has partnered with ATCC to provide customized Master, Working, and assay-ready instaCELL banks for research clients. Researchers will gain access to high-quality, authenticated cell lines with increased assay reproducibility.
Researchers developed a mathematical model to predict the efficiency of nanoparticle delivery into cells, particularly in stem cells. They found that nanoparticles become trapped in bubble-like vesicles, preventing them from reaching their targets.
Researchers developed niosomes, a type of non-viral vector, to transfer genetic material into the brain. The innovative formulation uses lycopene as a helper lipid, improving transfection efficiency in neuronal and glial cells.
The Rutgers team has developed a microfluidic platform that detects membrane permeabilization in cells exposed to electric fields, allowing for efficient delivery of biomolecules. The technology improves transfection efficiency and cell viability, enabling the study and engineering of fundamental cellular processes.
Researchers at Toyohashi University of Technology have developed a novel gene-transfection method that uses electrostatic manipulation in water-in-oil droplets. This technique increases transfection efficiency and cell viability compared to traditional methods, offering promising applications in regenerative medicine and gene therapy.
Researchers have developed a new method to insert DNA into living cells with greater-than-ever control, using a combination of femtosecond lasers and optical tweezers. This technique allows for precise pokes on the surface of a single cell and gentle insertion of DNA.
Researchers developed a novel tool, nanofountain probe electroporation (NFP-E), to deliver molecules into targeted cells through temporary nanopores. The technique provides unprecedented control over cell transfection and has shown high efficiency and viability in HeLa cell experiments.
A tiny injector has been developed to speed up drug development by increasing the precision of protein and DNA injection into cells. This device achieves an 80% success rate in injecting Zebrafish embryos, enabling rapid preclinical trials and genetic engineering.