期刊
NATURE NANOTECHNOLOGY
卷 7, 期 1, 页码 51-55出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/NNANO.2011.185
关键词
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资金
- Lundbeck Foundation Center for Biomembranes in Nanomedicine
- Danish Councils for Independent and Strategic Research
- University of Copenhagen
Handling and mixing ultrasmall volumes of reactants in parallel can increase the throughput(1,2) and complexity(3) of screening assays while simultaneously reducing reagent consumption(1). Microfabricated silicon and plastic can provide reliable fluidic devices(4-8), but cannot typically handle total volumes smaller than similar to 1 x 10(-12) l. Self-assembled soft matter nanocontainers(9-16) can in principle significantly improve miniaturization and biocompatibility, but exploiting their full potential is a challenge due to their small dimensions(17). Here, we show that small unilamellar lipid vesicles can be used to mix volumes as small as 1 x 10(-19) l in a reproducible and highly parallelized fashion. The self-enclosed nanoreactors are functionalized with lipids of opposite charge to achieve reliable fusion. Single vesicles encapsulating one set of reactants are immobilized on a glass surface and then fused with diffusing vesicles of opposite charge that carry a complementary set of reactants. We find that similar to 85% of the similar to 1 x 10(6) cm(-2) surface-tethered nanoreactors undergo non-deterministic fusion, which is leakage-free in all cases, and the system allows up to three to four consecutive mixing events per nanoreactor.
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