Author:
Thompson Amelia J.,Pillai Iva K.,Dimov Ivan B.,Holt Christine E.,Franze Kristian
Abstract
AbstractTissue mechanics is important for development; however, the spatio-temporal dynamics of in vivo tissue stiffness is still poorly understood. We here developed tiv-AFM, combining time-lapse in vivo atomic force microscopy with upright fluorescence imaging of embryonic tissue, to show that in the developing Xenopus brain, a stiffness gradient evolves over time because of differential cell proliferation. Subsequently, axons turn to follow this gradient, underpinning the importance of time-resolved mechanics measurements.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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