In addition, the method requires fewer
cells than ChIP - seq, allowing investigation of processes that are limited in duration or occur in small cell populations.
Not exact matches
A Freiburg - based research group has developed a microfluidic
chip where more
than one hundred apidose - derived adult stem
cell cultures can grow and divide.
«Because the primary Small Intestine
Chip recapitulates the physical microenvironment that
cells experience inside the human body, such as fluid flow and cyclic peristalsis - like stretching motions, it exhibits a genome - wide gene expression profile that comes closer to its in vivo counterpart
than that of the same intestinal
cells grown as 3D organoids,» said first - author Magdalena Kasendra, Ph.D., a former Postdoctoral Fellow on Ingber's team and now Principal Scientist at Emulate, Inc. in Boston.
The idea is that the film, when applied to different surfaces such as glass or brick, can produce solar energy more efficiently
than conventional silicon wafer — based solar
cells — which are made of materials similar to those used to fabricate computer
chips.
«Researchers build liquid biopsy
chip that detects metastatic cancer
cells in blood: More effective
than existing microfluidic devices, the breakthrough technology.»
Although the
chips are useable, they are still less powerful
than the current generation of flash, and Atwood says that he thinks they will be used largely to build new prototype servers,
cell phones and digital video recorders.
The
chip would allow the filtering of cancer
cells from a blood sample, which would be an easier way to harvest cancer
cells, rather
than the current method of taking them from tumor sites in the body.
He'd like a way to perform single -
cell analysis using microarrays, instead of full sequencing, but
chip - based bisulfite methods require more nucleic acid — about a microgram —
than one
cell can provide.
Importantly, cisplatin toxicity and Pgp efflux transporter activity measured on -
chip more closely mimic the in vivo responses
than results obtained with
cells maintained under conventional culture conditions.
About the «Human Emulation System» Powered by Organs - On -
Chips Technology Based on the Organs - on -
Chips technology, Emulate has created a new living Human Emulation System ™ that provides a real - time window into the inner workings of human biology and disease — offering researchers a new technology designed to predict human response with greater precision and detail
than today's
cell culture or animal - based experimental testing.
Experiments comparing the HB -
Chip to the CTC - chip found the new device captured more than 90 percent of cancer cells introduced into blood samples - a 25 percent improvement over the CTC - c
Chip to the CTC -
chip found the new device captured more than 90 percent of cancer cells introduced into blood samples - a 25 percent improvement over the CTC - c
chip found the new device captured more
than 90 percent of cancer
cells introduced into blood samples - a 25 percent improvement over the CTC -
chipchip.
«Our technology will provide significantly higher forces and faster impact cycles
than have previously been possible, and by building these tools onto microfluidic devices, we can leverage a host of other on -
chip diagnostics and imaging tools and can collect the
cells after testing for longer - term studies,» said Valentine.
The Y - series
chips consume significantly less power and generate less heat
than the U-series CPUs, so they're a good fit for tablets and super-thin laptops like the MacBook that have less room for battery
cells and cooling fans.