Simultaneous Measurement of the Dissolution Kinetics of Responsive DNA Hydrogels at Multiple Length Scales.
Anna J SimonLuke T Walls-SmithMatthew J FreddiFaye Yi FongVladimir GubalaKevin W PlaxcoPublished in: ACS nano (2017)
Recent years have seen increasing study of stimulus-responsive hydrogels constructed from aptamer-connected DNA building blocks. Presumably due to a lack of simple, quantitative tools with which to measure gel responsiveness, however, the literature describing these materials is largely qualitative. In response, we demonstrate here simple, time-resolved, multiscale methods for measuring the response kinetics of these materials. Specifically, by employing trace amounts of fluorophore-quencher labeled cross-linkers and the rheology of entrapped fluorescent particles, we simultaneously measure dissolution at molecular, hundred-nanometer, and hundred-micron length-scales. For our test-bed system, an adenine-responsive hydrogel, we find biphasic response kinetics dependent on both effector concentration and depth within the gel and a dissolution pattern uniform at scales longer than a few times the monomer-monomer distance. Likewise, we find that, in agreement with theoretical predictions, dissolution kinetics over the hundred nanometer length scale exhibit a power-law-like dependence on the fraction of disrupted cross-links before a distinct crossover from solid-like to liquid-like behavior.
Keyphrases
- hyaluronic acid
- drug delivery
- wound healing
- cancer therapy
- single molecule
- systematic review
- circulating tumor
- cell free
- gold nanoparticles
- high resolution
- open label
- tissue engineering
- heavy metals
- extracellular matrix
- molecularly imprinted
- quantum dots
- optical coherence tomography
- functional connectivity
- living cells
- resting state
- liquid chromatography
- tandem mass spectrometry