Random differences between cells early in development could be the key to making different cells in the body, according to new research from a team co-led by Professor Wolf Reik. Different cell types - brain, blood, skin, ...
Cell & Microbiology
Aug 1, 2017
0
28
Researchers at the University of Wisconsin-Madison have developed a novel strategy to reprogram cells from one type to another in a more efficient and less biased manner than previous methods.
Cell & Microbiology
Dec 5, 2016
0
201
To date, it has been assumed that the differentiation of stem cells depends on the environment they are embedded in. A research group at the University of Basel now describes for the first time a mechanism by which hippocampal ...
Cell & Microbiology
Aug 18, 2016
0
59
Stem cells ensure the development of tissues, their daily maintenance and their repair following injuries. One of the key questions in the field of stem cell biology is to define the different cell lineages in which stem ...
Cell & Microbiology
Jun 9, 2016
0
50
How do neurons become neurons? They all begin as stem cells, undifferentiated and with the potential to become any cell in the body.
Cell & Microbiology
Mar 24, 2016
0
19
(Phys.org)—Several properties of the extracellular matrix affect cellular interaction, including stem cell differentiation. Some of these are physical properties, such as topography and matrix stiffness. In an effort to ...
Susan Gasser and her group at the FMI have identified in C. elegans a much sought-for anchor protein, a previously uncharacterized chromodomain protein called CEC-4 that directly sequesters inactive chromatin at the nuclear ...
Cell & Microbiology
Dec 2, 2015
0
409
A Johns Hopkins University biologist has led a research team reporting progress in understanding the mysterious shape-shifting ways of stem cells, which have vast potential for medical research and disease treatment.
Cell & Microbiology
Oct 7, 2015
0
19
All it takes is one molecule to reprogram an antibody-producing B cell into a scavenging macrophage. This transformation is possible, new evidence shows, because the molecule (C/EBPa, a transcription factor) "short-circuits" ...
Cell & Microbiology
Jul 30, 2015
0
24
Bioengineers at the University of California, San Diego have discovered that mouse embryos are contemplating their cellular fates in the earliest stages after fertilization when the embryo has only two to four cells, a discovery ...
Biotechnology
Nov 26, 2014
0
0
