If brown fat is to be increased, the signals / messages for
cell differentiation need to be switched from turning into muscle to turning into brown fat.
Not exact matches
One likely reason for this is that animals undergo cellular
differentiation; human life begins as a single
cell that differentiates into the various
cell types
needed for different organs, body parts, blood, the immune system, etc..
On the flip side, those genes
needed for
differentiation, which were repressed in the progenitor
cells, had their epigenetic repression removed.»
But because the BMP4 and noggin molecules were directly in contact with the
cells, much less growth factor was
needed to spur the
differentiation — approximately 12 times less than what would be required by conventional solution - based techniques.
There are four classes of these, and they are
needed, among other things, for: Alerting to and defending against infectors, and
cell differentiation and development.
They
need to find out how much
differentiation these
cells require before they become helpful in specific areas of the body.
Differentiation occurs as a few fertilized
cells develop into an embryo acquire the specialized organs that will be
needed later in life.
Cells grown with this culture system are maintained in an undifferentiated state with virtually no detectable background
differentiation, eliminating the
need for
cell selection.
Unlike highly specialized skin -
cell fibroblasts, these
cells in the fat have a relatively wide portfolio of
differentiation options — becoming fat, bone or muscle as
needed.
Differentiation occurs as a few fertilized
cells develop into an embryo, then acquire the specialized organs that will be
needed later in life.
Significant quantities of hESCs are
needed for
differentiation to a final phenotype for
cell transplantation.
Due to the large number of hES
cells and human induced Pluripotent Stem (hiPS)
cells needed by I - Stem's research groups, the development of large - scale culture systems for expansion and
differentiation of those
cells is critical.
In order to better understand how the scientists have come to this conclusion, one
needs to get familiar with
cell differentiation markers.
They
need to transform into muscle
cells; a process known as «
differentiation».