Publication | Closed Access
Stiffness of cationized gelatin nanoparticles is a key factor determining RNAi efficiency in myeloid leukemia cells
30
Citations
33
References
2019
Year
NanoparticlesTissue EngineeringEngineeringRnai EfficiencyMolecular BiologyGene DeliveryBiomedical EngineeringMyeloid NeoplasiaNanomedicineMyeloid Leukemia CellsTherapeutic NanomaterialsCationized Gelatin NanoparticlesMatrix BiologyRadiation OncologyCell-based Drug DeliveryLargest Sirna UptakeCell BiologyChromatin RemodelingSirna Delivery SystemDrug Delivery SystemsNano-drug DeliveryMedicineExtracellular Matrix
Here we demonstrated that the stiffness of cationized gelatin nanoparticles determined the efficiency of RNAi in myeloid leukemia cells when the particle size and surface charges were kept constant. The siRNA delivery system with an elastic modulus of 0.87 MPa showed the largest siRNA uptake and RNAi efficiency for hard-to-transfect suspension cells.
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