They confirmed these same opposite patterns of SMA protein and SMN lnc - RNA
in embryonic mice too.
Fong Kuan Wong (Huttner, MPG)-- «Generation of basal radial glia
in the embryonic mouse dorsal telencephalon» (2014)
Not exact matches
He wrote papers like «Cloning and characterization of
mouse brush border myosin - I
in adult and
embryonic intestine.»
Cyclooxygenase - 2 (COX - 2) was highly elevated by capsaicin treatment
in tumors and murine
embryonic fibroblasts from TRPV1 / KO
mice.
In a study in the journal Science, researchers explain how they used mouse embryonic stem cells and microchip technology to create heart muscle tissue that actually beat
In a study
in the journal Science, researchers explain how they used mouse embryonic stem cells and microchip technology to create heart muscle tissue that actually beat
in the journal Science, researchers explain how they used
mouse embryonic stem cells and microchip technology to create heart muscle tissue that actually beats.
Menke and postdoctoral researcher Carlos Infante examined patterns of enhancer activity
in embryonic limbs and genitalia of
mice and limbed reptiles (anole lizards).
The ability of SIF - seq to use reporter assays
in mouse embryonic stem cells to identify human
embryonic stem cell enhancers that are not present
in the
mouse genome opens the door to intriguing research possibilities as Dickel explains.
The huntingtin gene is essential for
embryonic development, and scientists have already shown that if
mouse embryos don't have it at conception, they die
in utero.
Repeated transfection of two expression plasmids, one containing the complementary DNAs (cDNAs) of Oct3 / 4, Sox2, and Klf4 and the other containing the c - Myc cDNA, into
mouse embryonic fibroblasts resulted
in iPS cells without evidence of plasmid integration, which produced teratomas when transplanted into
mice and contributed to adult chimeras.
The study results were found using
mouse embryonic stem cells, which are good cell models for the study of processes seen
in human stem cells.
In laboratory tests on embryonic mice engineered to not express myomerger in skeletal muscle, the animals did not develop enough muscle fiber to liv
In laboratory tests on
embryonic mice engineered to not express myomerger
in skeletal muscle, the animals did not develop enough muscle fiber to liv
in skeletal muscle, the animals did not develop enough muscle fiber to live.
Base oxidation regulates gene activity
In cooperation with colleagues at LMU, as well as researchers based in Berlin, Basel and Utrecht, Carell and his group have now shown, for the first time, that a standard base other than cytosine is also modified in embryonic stem cells of mic
In cooperation with colleagues at LMU, as well as researchers based
in Berlin, Basel and Utrecht, Carell and his group have now shown, for the first time, that a standard base other than cytosine is also modified in embryonic stem cells of mic
in Berlin, Basel and Utrecht, Carell and his group have now shown, for the first time, that a standard base other than cytosine is also modified
in embryonic stem cells of mic
in embryonic stem cells of
mice.
Scientists have known for 20 years that SMN is necessary
in every cell of the body, since disrupting the gene
in a
mouse causes early
embryonic death, before muscle or nerve cells form.
The team also found that ERAS, a tumorigenic gene expressed
in mouse embryonic stem cells and iPSCs, was mutated and dysfunctional
in the mole - rat iPSCs.
Scientists, with practice, have now been able to make nuclear transfer nearly routine to produce cattle, cats,
mice, sheep, goats, pigs, and — as a Korean team announced
in May — even human
embryonic stem (ES) cells.
The only previous demonstration — by researchers led by Shou - Wei Ding, PhD, a professor of Plant Pathology and Microbiology at UC Riverside and co-corresponding author of the current study — was done
in embryonic stem cells and
in newborn
mice.
In collaboration with Ding, the lab of Olivier Voinnet at the Swiss Federal Institute of Technology in Zurich also reported in an accompanying paper the detection of viral siRNAs in cultured mouse embryonic stem cells infected by the Encephalomyocarditis viru
In collaboration with Ding, the lab of Olivier Voinnet at the Swiss Federal Institute of Technology
in Zurich also reported in an accompanying paper the detection of viral siRNAs in cultured mouse embryonic stem cells infected by the Encephalomyocarditis viru
in Zurich also reported
in an accompanying paper the detection of viral siRNAs in cultured mouse embryonic stem cells infected by the Encephalomyocarditis viru
in an accompanying paper the detection of viral siRNAs
in cultured mouse embryonic stem cells infected by the Encephalomyocarditis viru
in cultured
mouse embryonic stem cells infected by the Encephalomyocarditis virus.
The research team used mass spectrometry to compare phosphorylation of proteins from
mouse embryonic stem cells with fully functioning GSK - 3 to cells
in which the gene encoding GSK - 3 had been deleted.
«Indeed, when we studied the
mice at the
embryonic stage, we saw the cells between the muscle fibers expanded explosively and formed tumors early
in development,» Hatley said.
Mouse embryos: Scientists first found
embryonic stem cells
in mice in the 1970s, but an understanding of the critical role they play
in cell differentiation only emerged years later.
The paper doesn't include any genetic analysis of the final eggs that confirms they are healthy, notes Mitinori Saitou, a stem cell biologist at Kyoto University
in Japan whose team developed methods to create
mouse egg cells from
embryonic or reprogrammed stem cells.
Starting
in the mid-2000s, Yoshiki Sasai's team at the RIKEN Center for Developmental Biology
in Kobe, Japan, demonstrated how to grow brainlike structures using
embryonic stem cells, first from
mice and then humans.
Early
in embryonic development, both
mouse and human placentas rely on the same set of ancient cell - growth genes.
Upon further investigation, the team found that Noxo1 is highly expressed
in the
embryonic inner ear of normal
mice, though its expression drops sharply after birth.
EYE CANDY Researchers grew primitive retinas (one shown, with proteins that collect and transmit light signals
in green and red) by embedding
mouse embryonic stem cells
in a gel.
In the past few months, researchers in the United States and Japan have described a promising way of deriving embryonic stem cells from skin cells (of mice) without destroying embryos — the «Holy Grail of biotechnology,» as The Times of London put i
In the past few months, researchers
in the United States and Japan have described a promising way of deriving embryonic stem cells from skin cells (of mice) without destroying embryos — the «Holy Grail of biotechnology,» as The Times of London put i
in the United States and Japan have described a promising way of deriving
embryonic stem cells from skin cells (of
mice) without destroying embryos — the «Holy Grail of biotechnology,» as The Times of London put it.
• A team led by Ron McKay at the National Institute of Neurological Disorders and Stroke
in Bethesda, Maryland, turned
mouse embryonic stem cells into isletlike cells, another step down the long road to a cure for diabetes.
One of the greatest came
in November 2007, when scientists
in Japan and the United States reported that they could make adult skin cells from
mice revert to the
embryonic state.
Mouse embryonic stem cells, reported
in 1981 by Martin Evans, Matthew Kaufman, and Gail Martin, have allowed scientists to generate genetically customized strains of
mice that have revolutionized studies of organismic development and immunity and have provided countless models of human disease.
Mice generated from
embryonic stem cells
in which ion channel genes have been mutated by homologous recombination often have a perfectly normal heart.
Wondering why the third protein, an enzyme called p66, was not, despite being very similar to the other two, Pelicci's team knocked out the piece of the gene that enabled it to code for p66,
in order to make
mice and
mouse embryonic cells that lacked p66.
«Observing the changes
in the architecture of islets during
embryonic development
in mice and
in pseudoislets — a model we generated
in our lab — was also very interesting.
The researchers confirmed Olig2's role
in promoting motor neuron formation by increasing or blocking the function of Olig2
in the spinal cords of developing
mouse and chicken embryos, as well as during motor neuron formation
in mouse embryonic stem cells.
Renee Reijo Pera, a biologist at Stanford's Institute for Stem Cell Biology and Regenerative Medicine, points out that earlier attempts to create offspring with sperm from
embryonic stem cells resulted
in short - lived
mouse pups that were either giants or midgets.
Similarly, the three research teams that last week reported turning
mouse skin cells into embryolike cells say they will have to study
embryonic cells to learn how to reprogram human cells
in the same way and to understand their potential.
Imagine researchers» excitement, then, when Kyoto University's Shinya Yamanaka reported last year that his group had created embryolike cells directly, without transferring chromosomes, simply by injecting
mouse fibroblast cells with four genes that are active
in embryonic cells but not
in adult ones.
In vitro experiments used human colon carcinoma cells with and without MMP9 and mouse embryonic fibroblasts, which are connective tissue cells that make the extracellular matrix and collagen and play an important role in tissue repai
In vitro experiments used human colon carcinoma cells with and without MMP9 and
mouse embryonic fibroblasts, which are connective tissue cells that make the extracellular matrix and collagen and play an important role
in tissue repai
in tissue repair.
Manuel Eguren has analysed the biological consequences of Cdh1 elimination
in rapidly dividing cells, as part of his doctoral research project
in Malumbres's group; he focused on progenitors from the nervous system during
embryonic development
in mice.
«Fear was three times less likely to return
in mice that had received a transplant of
embryonic neurons»
All of the
mice produced normal amounts of SOX2 during development, when the transcription factor plays a critical role
in the genesis of
embryonic and neural stem cells.
Mitchell and her colleagues eliminated this possibility when they deleted these nearby regions
in the genome of
mice and found there was no impact on the gene's ability to be turned on
in embryonic stem cells.
After analysing the presence of NANOG
in different
mouse tissues by immunohistochemistry, the CNIO team demonstrated that,
in addition to being present
in embryonic tissue, this factor is also found
in stratified epithelia such as the esophagus, skin or vagina.
These are images of
mouse embryonic stem cells which grow
in a round colony of cells (A) and express Sox2 (B), shown
in red.
«We studied how the Sox2 gene is turned on
in mice, and found the region of the genome that is needed to turn the gene on
in embryonic stem cells,» said Professor Jennifer Mitchell of U of T's Department of Cell and Systems Biology, lead invesigator of a study published
in the December 15 issue of Genes & Development.
Yong - Chun Yu at Fudan University
in Shanghai, China, and his team wondered if fearful adult
mice could be helped by a transplant of
embryonic brain cells.
Similar SH3 binding motifs exist
in the formins, proteins that function
in pattern formation
in embryonic limbs of the
mouse, and one subtype of the muscarinic acetylcholine receptor.
McKay announced that he had mitigated the symptoms of Parkinson's
in rats by using
mouse embryonic stem cells that he had turned into dopamine - producing brain cells.
Embryonic stem (ES) cells, harvested from three - and - a-half-day-old
mouse embryos or five - and - a-half-day-old human embryos, are referred to as pluripotent because they can become any of the thousands of cell types
in the body.
The human - specific gene ARHGAP11B is expressed only
in the right half of this
embryonic mouse cerebral cortex.
Still, the genetic homogeneity of largely inbred
mouse strains may be misleading when it comes to understanding human stem cells, cautions Peter Andrews, professor of biomedical science and co-director of the Centre for Stem Cell Biology at the University of Sheffield, U.K. «
In the human, every
embryonic stem cell that we're working with that comes from a different person is genetically different,» says Andrews.