Not exact matches
Live Cell
Imaging of Paxillin in Rolling Neutrophils by Dual - Color Quantitative
Dynamic Footprinting.
By using novel
live imaging approaches and mammalian genetics we investigate the
dynamic coupling of growth and morphogenesis during skull tissue development.
This workshop will cover the advantages of
dynamic live cell
imaging, where microenvironmental parameters such as temperature, perfusion of reagents, and gas compositions can be precisely controlled on demand by software during the entire duration of a given
imaging experiment.
Dynamic imaging of genomic loci in
living human cells by an optimized CRISPR / Cas system.
Comprised of a microfluidic plate and controller, the system delivers programmable, hands - free control and, importantly, is fully compatible with microscope stages for
dynamic live cell
imaging.