We report a technique for generating controllable, time-varying and localizable forces on arrays of cells in a massively parallel fashion. To achieve this, we grow magnetic nanoparticle–dosed cells in ...
It has only recently become known that two parallel systems of blood formation exist in the body, originating from different ...
Balls of human brain cells grown in a dish, known as organoids, have been linked to computers and used to solve mathematical equations. The work is an early step towards using living brain tissue as a ...
Banner image: Skin cells as seen under the microscope. (Credit: Eric Bunker/Liu Lab) When you cut yourself, a mass migration begins inside your body: Skin cells flood by the thousands toward the site ...
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Parallel microdevice with AI-powered single-cell analysis enables rapid, high-throughput delivery
Many applications—from drug discovery and diagnostics to cell engineering and gene modulation—require delivering biomolecules into large numbers of cells and rapidly evaluating the outcomes. The ...
We generated in excess of 107 short signature sequences per cell line, thus providing a comprehensive snapshot of gene expression, within the technical limitations of the method. The number of genes ...
This is a preview. Log in through your library . Abstract Iterated continuous extensions (ICEs) are continuous explicit Runge-Kutta methods developed for the numerical solution of evolutionary ...
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