A team of Berkeley Lab researchers has performed
molecular level analysis of desert biological soil crusts — living ground cover formed by microbial communities — to reveal how long - dormant cyanobacteria become activated by rainfall then resume dormancy when the precipitation stops.
Not exact matches
Despite the indications, just noted, that there are occasions at various
levels, such as subelectronic, electronic, and
molecular, his most detailed
analysis indicates that the larger units are societies of mutually external smaller entities and do not have the unity of actual occasions.
These technologies offer a powerful set of tools for biological
analysis at the
molecular and single - cell
level in the life sciences, pharmaceutical, and clinical laboratory industries.
«This calls for a systems
level approach, and network
analysis techniques, to really understand how normal cells are transformed into cancer cells at the
molecular level.»
He has worked in the biotech industry as a research scientist for over 11 years with a focus on emerging technologies including gene targeting in mice,
molecular analysis of transgenes using GFP variants at the single cell
level, and developing flow cytometry reagent kits to speed up assay development time for researchers.
In this study, researchers used the specimen collected in Taiwan 100 years ago and newly - discovered specimens to carry out detailed
analysis on a
molecular level, including DNA barcoding.
It is worth noting that the developed technique provides a correlated statistical description of the
molecular orbital - energy
level and the electronic coupling degree across a metal - molecule interface, unlike the standard
analysis methods typically employed in this field.
In essence, we are beginning to link
molecular and macroscopic
levels of
analysis to better understand the diversity and complexity of autism.»
But the subtle,
molecular -
level differences unveiled by the DNA
analyses tipped the scale well in favor of species richness for tropical mayflies.
The next major advance which moved this
analysis from a cell physiological to a
molecular level was accomplished by Scheller and Südhof who made overlapping contributions that characterized the proteins that controlled the two key steps of transmitter release: 1) They showed the mechanism by which the vesicle is mobilized to the release sites of the presynaptic terminal, where the synaptic vesicle first fuses with the membrane of the sending neuron and then leaves the cell, and 2) they also discovered how Ca2 + drives the vesicle to release its contents.
Dr. Sonntag studies this concept on the
molecular and cellular
level using a translational research approach that integrates the
analysis of human material, such as postmortem brains, primary cell systems, and neural cell populations generated from patients» - or healthy individuals» - derived induced pluripotent stem cells (iPSC), or induced neurons (iNs), in combination with
molecular, biochemistry, and lentivirus - mediated gene - engineering technologies.
Consequently, the
level of access offered by the core varies from consultation and advice on specific aspects of projects, through training on particular techniques and / or instruments available in the core, to complete
molecular analyses from sample preparation to final data
analysis.
The CellDevo Track focuses on the study of
molecular mechanisms in eukaryotic cells and their role in tissue formation, with the
level of
analysis ranging from single molecules to single cells, from cells to tissues, and from tissues to whole organisms.
For this, we apply a multi-scale
analysis bridging the
molecular, cellular and tissue / organ
levels.
The authors stressed that their findings, which combine basic science with large - scale
analysis of genetic studies, depended on an unusual
level of cooperation among experts in genetics,
molecular biology, developmental neurobiology and immunology.
The start of Phase II coincided with the relocation of I - Stem in 1600 square meters, gradually extended to 2300, located within theGenopole campus I. Research space consists mainly pf confined
Level II areas required for work on human cells and unconfined laboratories for biochemical experiments,
molecular biology, histology and
analyses.
Our laboratory initiated several collaborative studies that have been published and some of the initial work was really focused on trying to conduct a comprehensive
molecular analysis of what are the early changes at the
molecular level, the
level of gene expression as the disease is first initiating and undergoing those early changes that are so critical in the course of disease.
Broadly speaking, however,
analysis of transcriptional regulation at the single cell
level has provided evidence for a strong stochastic element: genetically identical cells within the same environment show significant variation in
molecular phenotype, in a fluctuating manner [24].
More importantly, their
analysis revealed that mitochondrial dysfunction is reversible with NAD + supplementation, enabling the life and health of cells to be prolonged at the
molecular level.
Now a research team with the U.S. Department of Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley Lab) has reported a unique
molecular -
level analysis of a BSC cyanobacterium responding to the wetting and drying of its environment.
Testing the new animal phylogeny: A phylum
level molecular analysis of the animal kingdom.