Not exact matches
In a lab study, an extract of the leaves stopped the growth and progression of prostate cancer cells by up to 75 % in mic
In a
lab study, an extract of the leaves stopped the growth and progression of prostate cancer
cells by up to 75 %
in mic
in mice.
In 2010, researchers from the University of Michigan Comprehensive Cancer Center published a study in the journal Clinical Cancer Research showing that sulforaphane had the ability to kill breast cancer stem cells in mice and in lab cultures, and it also prevented the growth of new tumor cell
In 2010, researchers from the University of Michigan Comprehensive Cancer Center published a study
in the journal Clinical Cancer Research showing that sulforaphane had the ability to kill breast cancer stem cells in mice and in lab cultures, and it also prevented the growth of new tumor cell
in the journal Clinical Cancer Research showing that sulforaphane had the ability to kill breast cancer stem
cells in mice and in lab cultures, and it also prevented the growth of new tumor cell
in mice and
in lab cultures, and it also prevented the growth of new tumor cell
in lab cultures, and it also prevented the growth of new tumor
cells.
Shukla and colleagues discovered that a small drug molecule called BX795, which is sold to
labs for use
in experiments, helped clear HSV - 1 infection
in cultured human corneal
cells,
in donated human corneas, and
in the corneas of
mice infected with HSV - 1.
Next, the team tested the GD2 CAR - T
cells in mice whose brainstem was implanted with human DIPG tumors, an experimental system that Monje's
lab pioneered.
But when Antoine Louveau, a researcher
in Kipnis»
lab, developed a dissection technique that wholly preserves the fragile membranes covering the
mouse brain, it revealed something never seen before: Immune
cells in the membranes were clearly organized, as if traveling within tubes.
Using the new gene - editing enzyme CRISPR - Cpf1, researchers at UT Southwestern Medical Center have successfully corrected Duchenne muscular dystrophy
in human
cells and
mice in the
lab.
In a report on the study, published Feb. 5 in Nature Neuroscience, researchers say the biochemical receptor, known as a G protein - coupled receptor, was present on nerve cells in the lower respiratory tracts of lab mic
In a report on the study, published Feb. 5
in Nature Neuroscience, researchers say the biochemical receptor, known as a G protein - coupled receptor, was present on nerve cells in the lower respiratory tracts of lab mic
in Nature Neuroscience, researchers say the biochemical receptor, known as a G protein - coupled receptor, was present on nerve
cells in the lower respiratory tracts of lab mic
in the lower respiratory tracts of
lab mice.
That would be getting close to the number of
cells in a
mouse brain,» raising the distant prospect of a human brain organoid with cognitive and even emotional capacities, all while sitting
in a
lab dish.
Altogether, about 92 % of the «dirtied»
mice survived the flu, compared with just 17 % of «clean»
lab mice, the researchers report today
in Cell.
Already, researchers have used CRISPR / Cas9 to edit genes
in human
cells grown
in lab dishes, monkeys (SN: 3/8/14, p. 7), dogs (SN: 11/28/15, p. 16),
mice and pigs (SN: 11/14/15, p. 6), yeast, fruit flies, the worm Caenorhabditis elegans, zebrafish, tobacco and rice.
In the spring of 2000, Hochedlinger started trying to make a mouse out of a fully differentiated cell in Jaenisch's la
In the spring of 2000, Hochedlinger started trying to make a
mouse out of a fully differentiated
cell in Jaenisch's la
in Jaenisch's
lab.
That allowed tumor
cells to survive gemcitabine treatment
in lab dishes and
mouse studies, Leore Geller of the Weizmann Institute of Science
in Rehovot, Israel, and colleagues discovered.
Knowing that the SCN
cells in their LHX1 - deficient
mice were similarly impaired, a graduate student
in Blackshaw's
lab, Joseph Bedont, reasoned that their
mice might now be able to return to normal temperature cycles if given pulses of heat.
To better determine the role of specific chemoattractants
in type III hypersensitivity, lead author Yoshishige Miyabe, MD, PhD, a research fellow
in Luster's
lab, used multiphoton intravital microscopy — an imaging technology pioneered for studies of immune
cell movements
in living animals by CIID investigator and co-author Thorsten Mempel, MD, PhD — to follow
in real time the development of IC - induced arthritis
in a
mouse model of rheumatoid arthritis.
He has found that when a
lab mouse misses its daily ration, B. theta consumes the globs of sugary mucus made every day by some
cells in the intestinal lining.
Mouse brain nerve
cells (green) making a disease - causing version of the tau protein were grown
in lab dishes with supporting brain
cells called glia.
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.
Transplants grown from stem
cells in the
lab can help replenish the blood and have been used to cure anaemia
in mice.
When Kyoto University researcher Shinya Yamanaka announced
in 2006 that his
lab had created iPS
cells from
mouse skin
cells for the first time, biologists were stunned.
Glioblastomas
in lab dishes and
mouse brains are fakes, little Potemkin villages that everyone thought were faithful replicas of human glioblastomas but which, lacking tumor stem
cells, were nothing of the kind.
Another is that the transplanted bits of tumor act nothing like cancers
in actual human brains, Fine and colleagues reported
in 2006: Real - life glioblastomas grow and spread and resist treatment because they contain what are called tumor stem
cells, but tumor stem
cells don't grow well
in the
lab, so they don't get transplanted into those
mouse brains.
To investigate the relationship between temperature and immune response, Iwasaki and an interdisciplinary team of Yale researchers spearheaded by Ellen Foxman, a postdoctoral fellow
in Iwasaki's
lab, examined the
cells taken from the airways of
mice.
In 2009, Hans Clevers of the Hubrecht Institute in Utrecht, the Netherlands, announced that his lab unexpectedly created a miniature version of a gut while cultivating adult stem cells that the team had discovered in mouse intestinal tissu
In 2009, Hans Clevers of the Hubrecht Institute
in Utrecht, the Netherlands, announced that his lab unexpectedly created a miniature version of a gut while cultivating adult stem cells that the team had discovered in mouse intestinal tissu
in Utrecht, the Netherlands, announced that his
lab unexpectedly created a miniature version of a gut while cultivating adult stem
cells that the team had discovered
in mouse intestinal tissu
in mouse intestinal tissue.
Last year
in Cell, Wagers's and Lee's
labs reported that injections of GDF11 can reduce the thickening of the heart that typically comes with aging
in mice.
The
lab of co-author Rafi Ahmed, director of Emory Vaccine Center, has reported analogous
cells in mice with chronic viral infections.
When the researchers applied some of these cultures to
mouse colon
cells in the
lab dish, the
cells were stimulated to release PYY hormone.
In lab tests the refurbished cells cured the disease in mice and in human bloo
In lab tests the refurbished
cells cured the disease
in mice and in human bloo
in mice and
in human bloo
in human blood.
They have since learned that as many as 40 of those lines may never be fully developed; some may even have been contaminated by
mouse cells used to sustain them
in the
lab.
In a paper published Sept. 21 in Cell, Harvard Medical School genetics professor Olivier Pourquié — whose lab discovered the segmentation clock 20 years ago — and colleagues report that they used mouse cells to reconstitute a stable version of this clockwork for the first time in a petri dish, leading to several new discoveries about where the clock is located, what makes it tick and how the vertebral column takes shap
In a paper published Sept. 21
in Cell, Harvard Medical School genetics professor Olivier Pourquié — whose lab discovered the segmentation clock 20 years ago — and colleagues report that they used mouse cells to reconstitute a stable version of this clockwork for the first time in a petri dish, leading to several new discoveries about where the clock is located, what makes it tick and how the vertebral column takes shap
in Cell, Harvard Medical School genetics professor Olivier Pourquié — whose
lab discovered the segmentation clock 20 years ago — and colleagues report that they used
mouse cells to reconstitute a stable version of this clockwork for the first time
in a petri dish, leading to several new discoveries about where the clock is located, what makes it tick and how the vertebral column takes shap
in a petri dish, leading to several new discoveries about where the clock is located, what makes it tick and how the vertebral column takes shape.
The causes of such unpredictable results, Harris said, can include bad ingredients
in the
lab, including contaminated and misidentified
cell lines; poor research design, including insufficient numbers of
mice in animal studies; statistical error and overreach, including «HARKing» (hypothesizing after the results are known), a push beyond the limits of the data; and funding pressures, which can lead scientists to hype or exaggerate their results to remain competitive for additional grant money.
Their study, published
in the ACS journal Chemical Research
in Toxicology, found that triclosan, as well as another commercial substance called octylphenol, promoted the growth of human breast cancer
cells in lab dishes and breast cancer tumors
in mice.
In the lab, the scientific team used an approach that combined functional RNAi analysis with gene expression analysis in breast cancer - derived cell lines and in human breast cancers replicated in mic
In the
lab, the scientific team used an approach that combined functional RNAi analysis with gene expression analysis
in breast cancer - derived cell lines and in human breast cancers replicated in mic
in breast cancer - derived
cell lines and
in human breast cancers replicated in mic
in human breast cancers replicated
in mic
in mice.
In January an international team proved that to make a breast, all you need is a single cell — in lab mice, at leas
In January an international team proved that to make a breast, all you need is a single
cell —
in lab mice, at leas
in lab mice, at least.
This study, led by Garret D. Stuber, PhD, associate professor of psychiatry and
cell biology & physiology, and Jenna A. McHenry, PhD, a postdoctoral research associate
in Stuber's
lab, identified a hormone - sensitive circuit
in the brain that controls social motivation
in female
mice.
The inhibition of Rac1 also led to
cell death
in mouse lungs cultured
in the
lab.
To find out if this was true, workers
in stem -
cell biologist Irving Weissman's
lab at Stanford University Medical School took one blood stem
cell from an adult
mouse and tagged it with a marker that glowed green under fluorescent light.
The Simon
lab is now working on testing the effects of the chimera on human liver
cells and
in mouse livers, to further elucidate its role
in the disease.
For the first time, researchers have been able to grow,
in a
lab, both normal and primary cancerous prostate
cells from a patient, and then implant a million of the cancer
cells into a
mouse to track how the tumor progresses.
In experiments with
lab mice, she discovered how small groups of
cells dance about to form an embryo and how a layer of
cells surrounding the embryo itself, previously thought of as nothing more than a protective cloak, orchestrates the formation of an embryo's body parts.
That news alone was an exciting breakthrough, but there's more:
In lab mice, damaged retinal ganglion
cells survived longer and were able to regenerate when excess zinc was removed through a chemical process called chelation.
«Whole -
cell recordings are an advanced method that can be performed
in living
mice that have been genetically modified,» says Jean - Sebastian Jouanneau, a postdoc
in Poulet's
lab and a lead author on the paper.
To find out why these gut
cells release such large amounts of a brain chemical, David Julius at the University of California, San Francisco, and his team have been studying mini-intestines grown from
mouse cells in the
lab.
In a petri dish, Rowe and colleagues could tell that the bark scorpion venom works by targeting Nav1.7 in cells from lab mice and grasshopper mic
In a petri dish, Rowe and colleagues could tell that the bark scorpion venom works by targeting Nav1.7
in cells from lab mice and grasshopper mic
in cells from
lab mice and grasshopper
mice.
They grew the cancer
cells in the
lab and injected them into
mice.
Ralph Brinster, part of the team at the University of Pennsylvania
in Philadelphia that first cultured sperm stem
cells in the
lab, has written that culturing stem
cells from human sperm is not far off — humans and
mice, like other mammals, he says, require similar growth factors.
The
cell cultures
in the petri dishes are of human origin, and
in some aspects resemble human brains more than the brains of
lab animals such as rats or
mice do.
The team initially prepared the IPS
cells in the
lab and then injected them into the brain cavities of a developing
mouse in the womb.
«This discovery reverses food allergies
in mice, and we have many people with allergies volunteering their own
cells for us to use
in lab testing to move this research forward,» said professor John Gordon, lead scientist behind the discovery just published
in the current issue of the Journal of Allergy and Clinical Immunology.
Another
lab ran into a similar problem when it tried to replicate work by Stanford stem
cell biologist Irving Weissman and his colleagues, who reported
in 2012
in the Proceedings of the National Academy of Sciences that an antibody to a tumor
cell surface receptor called CD47 can slow tumor growth
in mice.
Berkeley
Lab researchers found that the sticky residue left behind by tobacco smoke led to changes
in weight and blood
cell count
in mice.