Large arrays of high aspect ratio, artificial hydrogel based cilia that can respond to multiple stimuli are produced by means of micro‐fabrication techniques. The cilia operate in aqueous solutions and are sensitive to pH, electric and/or magnetic fields. The biomimetic system combines both sensing and motility. Detection of changes in environment, such as a decrease in pH, triggers a collective response, to an external time‐dependent magnetic field.
The delivery of biomolecules, including siRNAs (≈21 bp) and large plasmids (≈10 kbp), into living cells holds a great promise for therapeutic and research applications. Lipoplex nanoparticles are popular nanocarriers for gene delivery. In conventional transfection methods, the cellular uptake of lipoplex nanoparticels occurs through the endocytosis process. The entrapment of lipoplex nanoparticles into endocytic vesicle is a major barrier in achieving effi cient gene silencing and expression. Here, a novel nanochannel electroporation (NEP) method is employed to facilitate the cellular uptake and release of siRNAs/DNAs from lipoplexes. First, it is demonstrated that in a NEP device, lipoplex nanoparticles can be injected directly into the cell cytoplasm within several seconds. Specifi cally, it is found that lipoplexes containing MCL-1 siRNA delivered by NEP can more effi ciently down-regulate the expression of MCL-1 mRNA in A549 cancer cells than conventional transfection. Quantum dot-mediated Förster resonance energy transfer (QD-FRET) reveals that lipoplexes delivered via NEP can directly release siRNA in the cytoplasm without going through the endocytosis route, which unravels the responsible mechanism for effi cient gene delivery. Furthermore, the advantage of combining NEP with lipoplex nanoparticles by the successful delivery of large plasmids (pCAG2LMKOSimO, 13 kbp) into CHO cells is demonstrated.
A large array of laterally ordered soft nanowires from worm‐like micelles on micropatterned surfaces are generated by a simple and effective method. The nanowires can easily be modified and decorated by simple physical (hydrophobic/hydrophilic) interactions, which creates new opportunities for specific chemical and biosensing applications.
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