Abstract
Investigation of the intracellular fate of small interfering RNAs (siRNAs) following their delivery into cells is of great importance to elucidate their dynamics in cytoplasm. Here we describe the use of an advanced fluorescence-based method to probe the dissociation and/or degradation of double-labeled siRNAs in HeLa cells in comparison with that in human embryonic kidney 293T (HEK293T) cells. This work was performed with three siRNAs labeled with fluorescence resonance energy transfer (FRET) dyes, allowing a non-destructive and non-invasive assessment of the dissociation and degradation state of siRNAs in cultured cells. Our FRET analysis not only shows the asymmetric degradation as well as the time-dependent dissociation of each siRNA strand during the measured time period, underlining the high intrinsic nuclease resistance of duplex siRNAs, but also reveals the longer sustainability of siRNAs in HeLa cells compared with that in HEK293T cells, explaining the gene silencing in HeLa cells is more efficient than that in HEK293T cells. In addition, our single-molecule FRET assays demonstrate the potential of the delineated fluorescence-based technique for future research on biological behavior of siRNAs even at the single-molecule level. The fluorescence-based method is a straightforward technique to gain direct information on siRNA integrity inside living cells, which can provide a detection tool for dynamics of biological molecules.
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