Not exact matches
CMRB has two parts: the
Cell Line Bank of Barcelona, which generates and maintains embryonic stem cell lines, and the CMRB research centre, which carries out basic and applied research to design future strategies for regenerative medic
Cell Line Bank of Barcelona, which
generates and maintains embryonic
stem cell lines, and the CMRB research centre, which carries out basic and applied research to design future strategies for regenerative medic
cell lines, and the CMRB research centre, which carries out basic and applied research to design future strategies for regenerative medicine.
A
stem cell core facility at CHOP, directed by study co-author Deborah French under the auspices of the hospital's Center for Cellular and Molecular Therapeutics,
generated the iPSCs
lines used in these studies.
In one promising approach, cellular reprogramming,
stem cells can be
generated by fusing adult skin
cells with embryonic
stem cells from existing
cell lines.
Intestinal
stem cells are particularly important because a new intestinal
lining is
generated about every 4 - 5 days.
In a paper published online yesterday in
Stem Cells, the researchers report that they succeeded in generating pluripotent human ES cell lines — i.e., cells that can develop into many different kinds of cells — from one of the 13 late - arrested emb
Cells, the researchers report that they succeeded in
generating pluripotent human ES
cell lines — i.e.,
cells that can develop into many different kinds of cells — from one of the 13 late - arrested emb
cells that can develop into many different kinds of
cells — from one of the 13 late - arrested emb
cells — from one of the 13 late - arrested embryos.
The finding potentially paves the way for scores of labs to
generate new
stem cell lines without cloned embryos, which had long been considered the only realistic way of making human
stem cells in the short run.
Alternative
cell lines, such as induced pluripotent
stem cells generated from patient skin
cells, offer a more accurate window on human biology, he says.
Australian researchers have so far
generated over 50 embryonic
stem cell lines from surplus embryos, and three research groups have been licensed to attempt somatic
cell nuclear transfer.
Salk scientists and colleagues have proposed new molecular criteria for judging just how close any
line of laboratory -
generated stem cells comes to mimicking embryonic
cells seen in the very earliest stages of human development, known as naïve
stem cells.
«The [
stem cell]
lines we
generated are the real thing.
«It conclusively proves that the
stem cell line in question was not cloned as claimed, but rather was
generated through parthenogenesis.»
These
stem cells live in the
lining of the intestine, known as the epithelium, and
generate all of the different
cell types that make up the epithelium.
NeuroStemcell is focused on the identification and systematic comparison of progenitor
cell lines with the most favourable characteristics for mesDA and striatal GABAergic neuronal differentiation,
generated either directly from human embryonic
stem (ES) cells, from Neural Stem (NS) cells derived from ES cells or fetal brain, from induced Pluripotent Stem (iPS) cells or from in vitro short - term expanded neural progenitors from ventral midbrain grown as neurospheres (VMN, Ventral Midbrain Neurospheres) 4, and perform rigorous and systematic testing of the most prominent candidate cells in appropriate animals mod
stem (ES)
cells, from Neural
Stem (NS) cells derived from ES cells or fetal brain, from induced Pluripotent Stem (iPS) cells or from in vitro short - term expanded neural progenitors from ventral midbrain grown as neurospheres (VMN, Ventral Midbrain Neurospheres) 4, and perform rigorous and systematic testing of the most prominent candidate cells in appropriate animals mod
Stem (NS)
cells derived from ES
cells or fetal brain, from induced Pluripotent
Stem (iPS) cells or from in vitro short - term expanded neural progenitors from ventral midbrain grown as neurospheres (VMN, Ventral Midbrain Neurospheres) 4, and perform rigorous and systematic testing of the most prominent candidate cells in appropriate animals mod
Stem (iPS)
cells or from in vitro short - term expanded neural progenitors from ventral midbrain grown as neurospheres (VMN, Ventral Midbrain Neurospheres) 4, and perform rigorous and systematic testing of the most prominent candidate
cells in appropriate animals models.
The Repository of mouse ES
cell lines, strains and vectors
generated by the trans - NIH KOMP initiative that aims to
generate a public resource comprised of mouse embryonic
stem (ES)
cells containing a null mutation in every gene in the mouse genome.
One important
line of our work has revealed mechanisms how hematopoietic
stem cells can
generate more myeloid
cells to protect transplant recipients from lethal infections.
The team that
generated the insulin - producing embryonic
stem cell line, e.g., had a success rate of under six percent, using 71 eggs to produce four
stem cell lines from the embryos they created and destroyed.
One of those teams created a cloned embryo from the somatic
cells of a diabetic patient; this embryo was then destroyed in order to
generate an insulin - producing embryonic
stem cell line.
Embryonic
cell lines and autologous embryonic
stem cells generated through therapeutic cloning have also been proposed as promising candidates for future therapies.
Citation: Li C, Yu H, Ma Y, Shi G, Jiang J, Gu J, et al. (2009) Germline - Competent Mouse - Induced Pluripotent
Stem Cell Lines Generated on Human Fibroblasts without Exogenous Leukemia Inhibitory Factor.
Embryonic
stem (ES)
cells are karyotypically normal, embryo - derived
cell lines that are pluripotent, i.e. capable of
generating all the
cell types of the future organism, but not the extra-embryonic lineages.
A team led by Young - sup Yoon, MD, PhD developed a new method for
generating endothelial
cells, which make up the
lining of blood vessels, from human induced pluripotent
stem cells..
To further maximize accuracy, the researchers recommend that future studies involving
stem cells use
cell lines from as many individuals as possible rather than
generating multiple
cell lines from the same individual.
His pioneering mouse embryonic
stem (ES)
cell work in the 1980s, demonstrating germ -
line transmission and the great potential of ES
cells to
generate mice carrying mutations in endogenous genes, established milestones in a field that saw the award of the 2007 Nobel Prize in Physiology or Medicine to Mario Capecchi, Martin Evans, and Oliver Smithies.
This induced pluripotent
stem cell (iPSC)
line was
generated from IMR90 fetal lung fibroblasts by viral transduction of a combination of OCT4, SOX2, NANOG, and LIN28 genes.