«Stem -
cell researchers solve mystery of relapse in acute myeloid leukemia.»
Not exact matches
In the June 2010 issue of Nature Medicine, in an interview with theBoston - based
researcher, Daley tells how he further changed the focus of his work after Prof. Shinya Yamanaka of Kyoto University, who won the 2010 Kyoto Prize for advanced technology, made known his successes with iPS
cells in 2007: «Once Yamanaka
solved the problem, I turned around virtually my entire programme to take advantage of that breakthrough,» he says.
Melbourne
researchers have
solved a puzzle as to how an essential blood - making hormone stimulates production of the blood clotting
cells known as platelets.
Last year,
researchers at NIAID and elsewhere
solved a decade - long mystery when they found that HIV uses a second set of proteins to gain entry into immune
cells.
«We've
solved a mystery, revealing a new aspect of our innate immune system and what flu has to do to get around it,» says Nicholas Meyerson, a postdoctoral
researcher in the BioFrontiers Institute and lead author of a paper published in the Nov. 8 issue of
Cell Host and Microbe.
The brain
researchers observed that nerve
cells in the sensory cortex that con - nect to distinct brain areas are activated differentially depending on the task to be
solved.
To
solve this mystery, the
researchers examined the susceptibility of the variant SRY to destruction by the «proteasome,» a universal molecular machine in the
cells of animals and plants that destroys proteins.
Researchers at the Institute of Science and Technology Austria (IST Austria) now
solved a part of this puzzle by studying how the bacterium Escherichia coli divides up a protein complex that detoxifies
cells by pumping multiple drugs such as antibiotics out of the
cell.
In a new Perspective article, published in the Journal of The Electrochemical Society,
researchers are aiming to tackle a fundamental debate in key reactions behind fuel
cells and hydrogen production, which, if
solved, could significantly bolster clean energy technologies.
The
researchers solved this problem by developing markers to label the
cells of interest and then testing different enzymes and other reagents to draw them out of tissues.
To
solve that problem, the
researchers pioneered an unconventional method to visualize tiny objects inside
cells.
Solving a puzzle of plant manipulation Rather than try to isolate single genes related to secondary
cell wall production, the
researchers looked at the function of hundreds of transcription factors working within the root xylem's regulatory network.
To
solve that problem, the
researchers started with patients» blood
cells and reprogrammed them into so - called induced pluripotent stem
cells, which can make any other
cell in the body and grow indefinitely in the laboratory.
To gain insights into the structure and function of CD1 molecules, the
researchers applied two novel refolding protocols and were able to
solve the crystal structure of CD1b molecules with distinct lipid antigens [i] and CD1d molecules loaded with the NKT
cell agonist alphaGalactosylCeramide.
BLOOD VESSEL VS. HEART LINEAGES
Researcher: Bertie Göttgens, Principle Investigator, Cambridge Stem
Cell Institute, U.K. Project: Göttgens and his collaborators are working to
solve a long - standing question in developmental biology: To what extent do blood vessel and heart lineages overlap, and when do they diverge?
On the heels of identifying the specific type of
cell that gives rise to retinoblastoma, RPB - funded
researchers at St. Jude Children's Research Hospital are
solving a long - standing mystery about how the eyes of vertebrates develop and how a rare pediatric eye cancer progresses.
On the heels of identifying the specific type of
cell that gives rise to retinoblastoma, RPB - funded
researchers at St. Jude Children's Research Hospital are
solving a long - standing mystery about how the eyes...
12/8/2008 From Mother to Daughters: A Central Mystery in
Cell Division Solved Researchers from the Ludwig Institute for Cancer Research at the University of California, San Diego School of Medicine have identified a key step required for cell division in a study that could help improve therapies to treat can
Cell Division
Solved Researchers from the Ludwig Institute for Cancer Research at the University of California, San Diego School of Medicine have identified a key step required for
cell division in a study that could help improve therapies to treat can
cell division in a study that could help improve therapies to treat cancer.
A long - standing mystery about how
cells resist the powerful effects of cancer - causing genes has been
solved by
researchers studying a genetic check - and - balance system that prevents
cells in the body...
Researchers at Purdue University have identified the mechanism that allows organic solar
cells to create a charge,
solving a longstanding puzzle in physics, according...
Now
researchers world - wide are
solving mysteries of how
cells mute some genes while turning on others to form a beating heart, blood, skin and all of the parts a body needs.
Researchers at the University of Toronto have developed a new chemical reaction that
solves one of the key challenges holding back development of the relatively new class of
cells.
In a new Perspective article, published in the Journal of The Electrochemical Society,
researchers are aiming to tackle a fundamental debate in key reactions behind fuel
cells and hydrogen production, which, if
solved, could significantly bolster clean energy technologies.