«Live
cell imaging reveals distinct alterations of subcellular glutathione potentials.»
Not exact matches
I won't
reveal yet who my favorites are, but I will say that these young scientist - founders came up with very creative solutions for preventing infections in some common surgeries, tackling resistance in targeted antibody drugs, improving gene vectors for
cell therapies, helping the vision - impaired «see» faces and better read their environments,
imaging hard - to - see spots in the lungs and other organs, improving genetic risk analysis, and expediting the logistical operations of hospitals.
To surmount this hurdle, Dr. Hodgson and his colleagues in the Gruss Lipper Biophotonics Center at Einstein devised a new fluorescent protein biosensor that, combined with live -
cell imaging,
revealed exactly when and where Rac1 is activated inside cancer
cells.
«We showed with this technique that we can detect very tiny tumors of just a few hundred
cells,» Lu said, adding that the study pushed
imaging boundaries,
revealing smaller cancers than can be detected with current clinical
imaging modalities.
First,
imaging experiments
revealed that Tregs have a close relationship with the stem
cells that reside within hair follicles and allow them to regenerate: the number of active Tregs clustering around follicle stem
cells typically swells by three-fold as follicles enter the growth phase of their regular cycle of rest and regeneration.
Optical Coherence Tomography (OCT)
imaging revealed the loss of outer segments in foveal cone
cells in the «optical gap» of a patient with ATF6A defects.
Researchers have found that the
imaging of supposedly normal brains
reveals clinically significant findings 8 to 10 percent of the time — «disconcertingly often,» says Henry Greely, a law professor at Stanford who works on legal and bioethical issues that include neuroscience, genetics, and stem
cells.
Microscopic
imaging of the intestines
revealed that the average distance between gut bacteria and the intestinal
cells was reduced by more than half; bacteria seemed to be advancing toward the gut lining.
In a new study reported in
Cell, an international group of plant biologists at ITbM, Nagoya University and other research institutes, have examined the ovules of plant cells by live - imaging to reveal a novel cell - elimination system based on an unusual cell fus
Cell, an international group of plant biologists at ITbM, Nagoya University and other research institutes, have examined the ovules of plant
cells by live -
imaging to
reveal a novel
cell - elimination system based on an unusual cell fus
cell - elimination system based on an unusual
cell fus
cell fusion.
To apply in vivo
imaging tools for non-invasive monitoring of the survival and growth of the grafted
cells, as well as tools to
reveal adverse immune / inflammatory reactions to the graft;
Ultimately, the combination of this new method of focusing on gene activity in single
cells with other single -
cell techniques involving microscopic
imaging is likely to
reveal the origins of developmental disorders of the brain, he added.
Live -
cell fluorescence
imaging reveals high stoichiometry of Grb2 binding to the EGF receptor sustained during endocytosis.
Immunofluorescent
imaging of human
cells (U2OS) with ab7291
reveals a delicate network of alpha - tubulin (green) located exclusively in the cytoplasm.
Correlative nanomechanical profiling with super-resolution F - actin
imaging reveals novel insights into mechanisms of cisplatin resistance in ovarian cancer
cells Sharma S, Santiskulvong C, Bentolila, L A, Rao J, Dorigo O and Gimzewski J K 2012 Nanomedicine: Nanotechnology, Biology, and Medicine 8 757 - 766
For several viruses, live
cell imaging has
revealed new mechanisms critical to viral replication or
cell - to -
cell spread and has been used for antiviral drug screening.
Kinetics of regulated protein - protein interactions
revealed with firefly luciferase complementation
imaging in
cells and living animals
Figure 1: Live -
cell imaging of Ki - 67 (green) during the
cell cycle
reveals its re-localisation from nucleoli to the surface of mitotic chromosomes (magenta).
KSOP Prof. Nienhaus and his team
reveal the role of vesicle transport in polar growth of fungal
cells with superresolution and pulse - chase
imaging.