Like a Xerox machine, the method reproduces the molecule of interest until there are enough copies to be detectable using
other laboratory methods.
Not exact matches
When they were in the
laboratory they were prepared to follow mechanistic
methods to the very limit, but outside the
laboratory and in
other contexts they were eager to speak of mind, spirit, freedom, and God — yet without relating the two areas of concern.
While
other papers have examined these mutations using expensive and time - consuming experiments on live ferrets and
laboratory cell cultures, Deem and Melia Bonomo used the pEpitope
method to rapidly calculate how much the egg - passage mutations would decrease vaccine efficacy in humans.
Compared with earlier
methods to tweak the genomes of bacteria, plants,
laboratory mice and human cells, the Crispr - Cas9 gene - editing
method is fast, precise and cheap, an order of magnitude better than the
others.
The
method was developed at Berkeley Lab's Advanced Light Source, a DOE Office of Science User Facility, by a team of researchers from the Department of Energy's SLAC National Accelerator
Laboratory, Berkeley Lab, Stanford University, and
other institutions.
At Dr Falk's
laboratory, the
method is used to also study
other congenital diseases that affect the brain, such as autism and Down syndrome.
The success of the new invention in finding a few atoms among trillions of
others began to attract attention, and Hurst's
method was soon adopted by
laboratories throughout the world to tackle a great variety of practical problems.
«We found that commonly applied molecular
methods did not give enough resolution to distinguish the dominant symbionts of Gulf corals from those in
other parts of the world's oceans,» explains Professor Jörg Wiedenmann, Professor of Biological Oceanography and Head of the Coral Reef
Laboratory at the University of Southampton.
He expects to spread the range of the
method into these
other laboratory animals soon.
The
method developed by Mats Nilsson and the
other researchers at Science for Life
Laboratory (SciLifeLab) use sequencing for the study of numerous different markers and mutations at the same time.
The research work carried out at the
Laboratory of Molecular Biophysics aims, on the one hand, at developing
methods to probe the fluctuations of the structure of proteins by combining experimental data and molecular simulations and, on the
other hand, at understanding how changes in such motions relate to the molecular recognition of proteins, to their function and disease.
Results: In the quest for safe
methods of storing nuclear waste, scientists at Pacific Northwest National
Laboratory, Oak Ridge National
Laboratory, and Curtin University, Australia are investigating radiation effects on candidate materials for immobilizing plutonium and
other actinides.
In recognition of their work in developing the scanning confocal microscope to the point where it is used in hundreds of research
laboratories worldwide and reveals microstructures not discernible by
other methods.
Their activity increases in response to heat, toxins, and various
other forms of cellular stress, and dialing up the activity of heat shock proteins is involved in a number of
methods demonstrated to slow aging in
laboratory animals.
Sound
methods are needed to identify new biomarkers that predict T1DM development and can also be transferred to
other laboratories.
Worryingly, C. auris is often highly resistant to major antifungal drugs (e.g., fluconazole and
other azoles, amphotericin B, echinocandins), is difficult to identify with standard
laboratory methods, and has caused outbreaks in healthcare settings.
Methods: We performed a retrospective study in two French genetics
laboratories by gathering all clinical and neuroimaging data from patients referred for a genetic diagnosis of CAA with an age of onset before 66 years and fulfilling the
other Boston revised criteria.
The
method contrasts with the research done at PPPL and
other laboratories, which controls plasma with magnetic fields and heats it to fusion temperatures in doughnut - shaped devices called tokamaks.
Using state - of - the - art proteomics and associated computational
methods, the Speicher
laboratory is investigating protein changes associated with ovarian cancer, melanoma, cardiac injury resulting from breast cancer therapies, ectopic pregnancy, red cell diseases, and
other clinical disorders.
The Speicher
laboratory uses proteomics, metabolomics, computational
methods, and biophysical approaches to characterize the roles of normal and mutant proteins in cancers and
other human diseases.
There are
other methods to assess the number of red blood cells, but these take more time and much more sophisticated
laboratory equipment.
The artist dissects a variety of tales from
laboratory life on the one hand, and on the
other, he explores civilizational connections and colonial exploitation
methods within the concept of landscape.
At those talks, in Milan in 2003, Mr. Watson listed a variety of initiatives begun by states and communities, which he said were like «
laboratories where new and creative ideas and
methods can be applied and shared with
others and inform federal policy — a truly bottom - up approach to addressing global climate change.»
We used a
method that enables us to view the entire earth as one giant «
laboratory» where humankind has been conducting a collective experiment through our emissions of greenhouse gases and particulates, deforestation, and
other activities that affect climate, explains professor Terje Berntsen at UiO.
Listing a variety of initiatives begun by states and communities, Dr. Watson said they were like «
laboratories where new and creative ideas and
methods can be applied and shared with
others and inform federal policy, a truly bottom - up approach to addressing global climate change.»
In order to fulfill my role, I had to study and learn new technologies, such as video technology, scanning laser
methods including acousto - optics scanners, rotating polygons, galvanometers, acousto - optic modulators, and many
other disciplines as
laboratory science was transformed into three generations of design in preparation for market.
Environmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection
method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and
other structures Proficient in water / waste water treatment, experimental design, and
laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academic study