To pursue these studies, we employ Hi - C and ChIA - PET genomic technologies and single locus / live -
cell imaging approach.
Not exact matches
Professor Richard Oreffo added: «Crucially, unlike current standard staining - based methods the stain-less
imaging approach is translatable to the clinic as the stem
cells are not harmed or disrupted in any way.
«The massive advantage with our stain-less laser - based
imaging approaches is that you can use the stem
cell sample without having to interrupt the developmental process in real time, you don't need to perform any
cell disruption and there is no photobleaching (fading) which is fairly common with fluorescent material,» Catarina enthused.
Her PhD is focused on developing a novel label - free
imaging approach for assessing human stem
cells and skeletal regeneration non-destructively and non-invasively.
Earlier, for his Ph.D., he used his physics training to study biological interactions at the molecular resolution — but for his postdoc he changed
approaches dramatically, turning to
cell biology and applying his skills to the development of high - resolution functional
imaging of DNA transcription in living
cells.
Using a novel
approach for
imaging the movement of immune
cells in living animals, researchers from the Massachusetts General Hospital (MGH) Center for Immunology and Inflammatory Diseases (CIID) have identified what appear to be the initial steps leading to joint inflammation in a model of inflammatory arthritis.
The
approach thus has the potential to democratize super-resolution
imaging throughout whole
cells and tissues,» said Jungmann.
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 significance of the team's
approach is that it «enables
imaging of live
cells in a high - throughput manner at a time resolution at which all biologically relevant dynamics appear static,» he said.
The speed, noninvasiveness, and high spatial resolution of this
approach make it a promising tool for in vivo 3D
imaging of fast dynamic processes in
cells and embryos, as shown here in five surrounding examples.
In her presentation, Ann Tsukamoto, StemCells» vice president for research, said the company chose to test its neural stem
cell approach on PMD because there is currently no treatment for the condition and a diagnosis can be confirmed by genetic testing and magnetic resonance
imaging.
The optimized
imaging ad behavior
approach demonstrated that, in a selective group of Purkinje
cells, calcium activity remained in a stable activation pattern over many weeks — a discovery that was only possible due to their optimized
approaches.
Using a combination of molecular biology, biochemical and novel multi-dimensional digital
imaging approaches we study in real - time complex multi dimensional signal integration during the interaction of T
cells with live antigen - presenting
cells.
He and his colleagues employ pharmacologic, brain
imaging, epidemiologic, genomic, and
cell model
approaches to study schizophrenia and bipolar disorder, in particular.
These questions will be addressed by combining unbiased «omics» -
approaches (i.e. genomics, transcriptomics, and proteomics) and a targeted genetic analysis with both superresolution live -
cell imaging and electron microscopy of nanotube - forming
cells.
We exploit chick and mouse embryo animal models, combined with live
imaging,
cell and tissue cultures and molecular
approaches.
Using single - molecule
imaging, super-resolution microscopy and various biophysical and molecular
approaches she will explore how gene expression in living
cells works.»
To this end, we are developing a new multi-scale live
imaging approach to characterize nuclear organization dynamics at the single
cell level based on the simultaneous characterization of both the local dynamics of RNA polymerases and transcription factors and the large scale behavior of chromatin.
For this we use gene replacement, live and fixed
cell imaging, conditional localization and (in) activation
approaches, proteomics, biochemistry and structural biology.
By applying biophysical techniques to elucidate the overall shape of ALC1 and combining these
approaches with
cell - based and live - cell imaging experiments, the authors of the article in Molecular Cell dissect the molecular mechanisms how the remodeling activity of ALC1 is controlled by its macro dom
cell - based and live -
cell imaging experiments, the authors of the article in Molecular Cell dissect the molecular mechanisms how the remodeling activity of ALC1 is controlled by its macro dom
cell imaging experiments, the authors of the article in Molecular
Cell dissect the molecular mechanisms how the remodeling activity of ALC1 is controlled by its macro dom
Cell dissect the molecular mechanisms how the remodeling activity of ALC1 is controlled by its macro domain.
Our multidisciplinary
approach includes transgenesis, real time
imaging, multi-parameter flow cytometry, transcriptomics, RNA interference, proteomics and single
cell methodologies.
We focus on squamous tissues, the skin epidermis and the lining of the oesophagus, using transgenic models, novel sequencing
approaches, live
imaging and single
cell analysis to uncover key steps in cancer development, with aim of developing rational interventions to decrease cancer risk.
Modern Cytological
Approaches Including Epitope Tagging and
Imaging Yeast
Cells Using Fluorescence Microscopy
The Dotiwala laboratory uses cellular, molecular, biochemical and omics
approaches, as well as sophisticated in vivo
imaging, to dissect the mechanism by which
cell - based immunity (neutrophils, macrophages and killer lymphocytes) is activated in the presence of different pathogenic bacteria, such as intra - and extracellular bacteria, fungi and protozoa.
We employ a wide variety of state - of - the - art technologies such as in vivo optical
imaging and high - throughput methods including
cell - based screening, genomics, and proteomics
approaches.
To come to a structural understanding of nuclear organisation, we will explore and further improve correlative
imaging approaches, combining live
cell confocal microscopy, super-resolution and electron tomography to unravel the structure and mechanisms of NPC assembly and disassembly.
We are studying chromatin organisation and compaction, as well as the 4D human genome architecture by correlative
imaging approaches, including live
cell imaging and various super-resolution techniques (figure 2).
For a systems - level understanding of all crucial protein interactions during
cell division, we are combining automated single molecule calibrated
imaging and computational data analysis with advanced machine learning and modelling
approaches to build an integrated protein atlas of the human dividing
cell.
The Innovator Award will enable Sipkins to continue to combine state - of - the - art
imaging techniques, performed on living mice, with
cell and molecular biology
approaches to learn more about these stem
cell niches.
Aim 3: We are specifically interested how defects of nuclear proteins cause axonal phenotypes using live
cell imaging techniques, inhibitor studies, laser irradiation, - omics
approaches.
We combine genetics, biochemistry and a broad spectrum of
cell biological and
imaging approaches to study:
The Metabolomics & Proteomics Technology Unit will offer localizomics
approaches based on MS
Imaging on tissue / organs slices (or on in - vitro
cell cultures), either in targeted MS (i.e. drug and metabolites distribution) or in untargeted high resolution (HR) MS (metabolite profiling).
Diagnostics,
cell replacement and protection, drug discovery, tissue engineering, non-invasive
imaging, and many other
approaches to disease diagnosis and clinical management are likely to be transformed by research in this area.
Experimental
approach: To use patient - specific induce pluripotent
cell models from a (i) storage disease (NCL), (ii) aggregate prone disease (ALS) and (iii) a disease with no aggregates but hyperexcitability (ChAc) combined with state of the art live
cell imaging techniques, electrophysiology and biophysical tools (PIV, laser ablation for cortex tension measurements, AFM).