Headset
works very cell and is comfortable.
Not exact matches
Well, if you put a few brain
cells to
work it's quite possible to realize there are other sayings associated with OMG like «Oh My Goodness» and «Oh My Gosh»... It's
very possible to not always insert «God» into it... Just saying...
«It could be anything from something
very small that meets a need and saves a little money to a significant design improvement or modification of an employees
work cell,» explains Chris Haugen, VP of Supply Chain.
On the left are my roasted tomatoes from 2010 in what appears to be a
very photogenic Tupperware container... Back then I used an ancient point - and - shoot camera which I bought in 2004 and used for so long that eventually every
cell phone was being manufactured with a better camera than what I was
working with.
And a new analysis of the STEP trial, published last November in Proceedings of the National Academy of Sciences USA, provides a warning that the
very vectors (adenoviruses, which are also employed in other vaccine development
work) used to distribute the inactive HIV strains can actually make the immune system more vulnerable to infection by recruiting susceptible T
cells to mucous membranes, where they are more likely to be infected during sexual activity.
Still, only a few dozen labs in the world are certified as BSL4 facilities; some are
very small and only
work on diagnostics, or
cell cultures, or a single species of animals.
The currently used nickel oxide, is not
very efficient, toxic and requires organic solvents to
work in the
cell.
It's not
very efficient either,
working on only about a tenth of
cells.
«We can
work with any embryonic stem
cell line from any source and are not restricted to
working with the
very small number of federally approved lines as is the case for researchers in the United States,» says Minger.
«Postdocs and students who are currently
working in stem
cell labs are finding themselves
very highly marketable, but they should also think about how the field will transform in five or 10 years, about the bigger picture, and how to ask questions and develop expertise that will be relevant over the long term,» says Watt.
«The views that are expressed there are
very much different from researchers in stem
cell work and reproductive medicine.»
For example, a study in Oman found that
very small doses injected into the skin
work almost as well as the usual, larger dose injected into muscle, because skin is teeming with immune
cells (The New England Journal of Medicine, vol 351, p 2286).
The former target, say, using gene editing techniques to inactivate HIV receptors and achieve resistance of blood
cells to the virus (which Sangamo BioSciences is
working on in clincial trials) is different than helping parents who both carry genes for Huntington's Disease to have a child that is free of the disease (a change to the genome that would be passed on to future generations and would likely not be
very commonly needed).
«Hodgkin lymphoma is unusual among cancers in that it consists of a small number of tumor
cells in a sea of inflammatory
cells and immune system
cells, including T
cells that don't
work very effectively.»
Work by Gonzalo Vidal of the University of Uppsala in Sweden indicates that single -
celled planktonic eukaryotes certainly date back to 1.7 billion years B.P. and
very likely to at least 2.2 billion years B.P..
«We have discovered that by inserting a
very thin film of gallium arsenide into the connecting junction of stacked
cells we can virtually eliminate voltage loss without blocking any of the solar energy,» says Dr. Salah Bedair, a professor of electrical engineering at NC State and senior author of a paper describing the
work.
But if homologous recombination could be
worked out in human (embryonic) stem
cells, then cardiomyocytes with mutations in ion channels could be derived, as well as a large number of other
very useful disease models of other tissues.
Further studies showed that
very similar genes controlled the process in animal and human
cells, and also helped piece together how the genes
work together to keep the
cell's recycling centers running.
In theory, our
work means that you can generate germ
cells from iPS
cells, which could be
very good news for the treatment of infertility.
Using many advanced techniques though, we saw that some
very small, low - molecular - weight compounds were
working their way into the
cell wall.
EZ120
works in
very small doses, is outstanding at entering tuberculosis pathogens, and has low toxicity toward human
cells.
He adds, however, that if they
work as reported, MAPCs are still not
very efficient: one adult blood - forming stem
cell replaced as much bone marrow as a million MAPCs.
However, most of these efforts failed, even though the antibody - IL - 2 combination usually
works very well against cancer
cells grown in a lab dish.
«The biochemical mechanisms of these proteins have been known for years from experiments involving purified protein and DNA, and that's
very important, but in this new
work we've clarified these proteins» roles in living
cells,» said co-senior author Christopher P. Selby, PhD, research assistant professor of biochemistry and biophysics at UNC.
«The exciting part of this
work is not just that we made hydrogels, but that we're now equipped with this powerful technique that lets us ask fundamental — and
very challenging — questions about them,» says Takanari Inoue, Ph.D., an associate professor of
cell biology at the Johns Hopkins University School of Medicine and senior author of the report on the research published online Nov. 6 in the journal Nature Materials.
Gijs van der Schot, a Ph.D. student in the Department of
Cell and Molecular Biology at Uppsala, will describe the researchers» new approach to imaging during the AVS 62nd International Symposium & Exhibition, held Oct. 18 - 23 in San Jose, Calif. «The X-ray laser we use for our
work, the LCLS, is a fascinating machine — because of the physical principles behind it and the precise engineering of its parts — that produces
very bright and ultra-short pulses,» he said.
«The dog has a retina
very similar to ours, much more so than mice, so when you want to bring a visual therapy to the clinic, you want to first show that it
works in a large animal model of the disease,» said lead researcher Ehud Isacoff, professor of molecular and
cell biology at UC Berkeley.
Currently direct injection of genes into the cancer mass is being attempted, but it is unlikely that it will
work because all the
cells must be hit, which is
very unlikely.
Gene switches have been identified that
work in
very specific brain areas, potentially enabling light to target unhealthy
cells without disrupting healthy ones.
Kirschstein
worked on another aspect of vaccine safety, doing «
very prominent» early research on another virus, simian virus 40, which contaminated some of the monkey
cells used to grow poliovirus for the Salk vaccine, says Singer, who later joined the same field.
Normally, they open and close
very quickly and in sync with other
cell functions to make the heart
work.
The research group
working at IBMC focused on the exact moment of
cell division, when
cells assemble a new microtubule network, which is then arranged as a
very well - known structure: the mitotic spindle.
Working with mice, Lei and Spradling set out to test their belief that certain undifferentiated germ
cells learn to develop into eggs
very early during their production in the ovary, when germ
cells are found in small clusters of interconnected sister
cells, all daughters of the same parent
cell.
This makes CAR - T therapies
very expensive, and it is not always possible to extract enough immune
cells from
very young or ill patients for the technique to
work.
Experimental therapies using T
cells taken from the bloodstream have not, however,
worked very well against solid tumors.
Working with Tanz researcher Tetsuro Murakami and with colleagues at the University of Cambridge and Columbia University, they focused initially on the FUS protein, and discovered that these abnormal clumps could actually be a
very important player in causing nerve
cell damage and ALS.
«We don't really understand how many of these chemicals
work and interact at a
very basic level in
cells and in the body, so being able to know how they affect different people with different genetic variations is problematic at best,» she says.
With so much
work needed in studying the nature of stem
cells and using them to study disease processes, therapies based on ES
cells seem
very far down the line, noted Lorenz Studer of Memorial Sloan - Kettering Cancer Center in New York, who pointed out that so far there have only been two published papers on therapeutic cloning, both of them in mice.
«We have proof of principle that MurJ is actually a valid target because we showed that if we stop it from
working, the
cells will die within 10 minutes —
very quickly,» said Natividad Ruiz, assistant professor of microbiology at The Ohio State University and a co-lead author of the study.
Discussion of the possible role of online forums in typical scientific
work, or even ordinarily controversial
work like stem
cell research, is all interesting, but it's a
very separate matter.
Since genes in our chromosomes are
very,
very much better protected from mutations than the mitochondrial DNA is, we can rely on the chromosomal copies carrying on
working in
very nearly all our
cells for much longer than a currently normal lifetime.
At the
very smallest scale, I think that improvements in high - resolution microscopy will be really central for looking at how
cells work on the inside.
«The idea of reprogramming a
cell from your body to become anything your body needs is
very exciting,» said Longaker, who emphasized that the
work involved not just a collaboration between his lab and Wu's, but also between the two Stanford institutes.
They usually had to
work with undifferentiated embryonic stem
cells that were
very hard to come by or tissue - specific adult stem
cells that lacked needed flexibility.
I completed my PhD as a
cell biology major in an engineering lab, where I established a new assay to answer questions
very different from what the main part of the lab was
working on.
It is good news that they have been able to advance this
work from mouse
cells to human
cells very quickly.
Very interesting article... I find myself amazed at how much
work one or two labs can churn out to advance our understanding — Perhaps you could do a post on current Stem
Cell centers around the world, and how much man - power and budget is being devoted to them?
The analysis identified no safety concerns and also, coincidentally, showed the
cells appeared to
work very effectively in that all patients responded to treatment.
He's describing his lab's
work to prove the
cells really are neurons, which is
very convincing.
These range from visual stimulation experiments that allow us to tap into the specific sets of retinal ganglion
cells that are most vulnerable early in the disease, to the evolution of new imaging techniques, largely thanks to Alf Dubra and Vivek Srinivasan's
work in those areas, and the ability to image retinal ganglion
cells and their component parts like their axons which degenerate
very early in glaucoma.