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Gene Expression: A Snapshot of Stem Cell Development
New genes found that regulate development of stem cells.
Tissue-Engineered Colon from Human Cells
A study by scientists at Children’s Hospital Los Angeles has shown that tissue-engineered colon derived from human cells is able to develop the many specialized nerves required for function, mimicking the neuronal population found in native colon.
Tension Helps Heart Cells Develop Normally in the Lab
Stanford engineers have uncovered the important role tension plays in growing heart cells out of the body.
Urine Excretion From Stem Cell-Derived Kidneys
Researchers report a strategy for enabling urine excretion from kidneys grown from stem cells.
Stem Cell Research Hints at Evolution of Human Brain
Researchers at UC San Francisco have succeeded in mapping the genetic signature of a unique group of stem cells in the human brain that seem to generate most of the neurons in our massive cerebral cortex.
The Final Word on STAP
Researchers fail to replicate STAP study; computational analysis reveals genomic inconsistency.
CRI Scientists See Through Bones
Findings uncover new details about blood-forming stem cells.
Scientists Sequence Genome Of Worm That Can Regrow Body Parts
Worm’s genome could lead to better understanding of its regenerative prowess and advance stem cell biology.
Stem Cell-Derived 'Organoids' Help Predict Neural Toxicity
A new system developed by scientists may provide a faster, cheaper and more biologically relevant way to screen drugs and chemicals that could harm the developing brain.
New Way To Repair Nerves
Tufts University biomedical engineers recently published the first report of a promising new way to induce human mesenchymal stem cells to differentiate into neuron-like cells:treating them with exosomes.
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Nucleofection® of mouse ES cells
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Amaxa GMBH

Efficient delivery of DNA is crucial for gene targeting in embryonic stem cells and for successful generation of knock-out mice. Data presented in this technote show that Nucleofection® leads to a homogenous gene expression pattern in mouse ES cell colonies. In contrast to standard electroporation, Nucleofection® results in a 100% deletion of frt-flanked genes on both alleles. Viable and fertile mice were generated from transfected mouse ES cell clones.

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Amaxa to Host Webinar on the Nucleofection® of Stem Cells
The webinar imparts knowledge about setting up embryonic, mesenchymal, hematopoietic or neural stem cell experiments using Nucleofector® Technology.
Thursday, May 01, 2008
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