«Superconductor's strange behavior results in
new laboratory tool.»
He and his coworkers have been steadily accumulating knowledge through
new laboratory tools.
Not exact matches
«The major advancement of this
new tool is the ability to use a low - cost and accessible imaging method such as EEG to depict deeply located brain activity,» said both senior author Dr. Talma Hendler of Tel - Aviv University in Israel and The Sagol Brain Center at Tel Aviv Sourasky Medical Center, and first author Jackob Keynan, a PhD student in Hendler's
laboratory, in an email to Biological Psychiatry.
«The novelty of this study is that it provides potential neuroimaging - based
tools that can be used with
new patients to inform about the degree of certain neural pathology underlying their pain symptoms,» said Marina López - Solà, a post-doctoral researcher in CU Boulder's Cognitive and Affective Control
Laboratory and lead author of the
new study.
In addition to scientific issues, technological requirements and the development of
new tools and
laboratory techniques were discussed.
The assay can measure the lag times and growth rates of as many as 80,000 individual microcolonies in a single 24 - hour experiment, opening up a powerful
new high - throughput
tool to study the complex interplay between cell growth, division and metabolism under environmental conditions that are likely to be ecologically relevant but had previously been difficult to study in the
laboratory.
«NYGC is thrilled to have this work be our first published example of the explosive power of collaborations between deeply invested biologists like those in the Simon lab including Elana Simon, and thoughtful bioinformatics scientists like Nicolas Robine and NYGC team, who worked together so effectively with the
tools of genomic sequencing and analysis to discover this
new chimeric protein and cancer target,» says Robert Darnell, head of Rockefeller's
Laboratory of Molecular Neuro - Oncology, HHMI investigator, and president and scientific director of NYGC.
Los Alamos National
Laboratory, in
New Mexico, will lead development on SuperCam, the successor to Curiosity's ChemCam imaging and chemical analysis
tool.
With molecular biologist Gregory Hannon of Cold Spring Harbor
Laboratory in
New York state, Elledge developed genetic
tools that examine how genes function in human cancer cells.
Interdisciplinary collaborations at the Waggoner Center for Alcohol and Addiction Research allow the development of
new tools and research approaches not possible in any one
laboratory.
This
new tool is now used in molecular biology
laboratories around the world, and has the potential to revolutionize medicine by paving the way to finding
new forms of treatment for currently incurable diseases.
«To move beyond cataloging microbes, we will need
new tools to rapidly determine microbial gene function and monitor the chemicals microbes use to communicate and interact with their environment, and
new ways to visualize and model those interactions,» said Eoin Brodie, a staff scientist at Lawrence Berkeley National
Laboratory's Earth Sciences Division and an author of the proposal.
Harnessing these
new tools effectively is beyond the reach of any single
laboratory.
Revealed by the potent combination of two powerful astronomy
tools, the Sloan Digital Sky Survey and the Keck II telescope's DEIMOS instrument, these faint, ghost - like galaxies are amazing
laboratories for simultaneously advancing science and raising
new questions about the cosmos.
The study is the result of one the first collaborations from the Microbiome Center, a joint effort by the University of Chicago, the Marine Biological
Laboratory and Argonne National
Laboratory to support scientists at all three institutions who are developing
new applications and
tools to understand and harness the capabilities of microbial systems across different fields.
The instrumentation, however — the
tools and on - board
laboratories that will analyze Mars — will be entirely
new.
Karen James, Ph.D., a scientist at the MDI Biological
Laboratory who leads the «BioTrails» project linking citizen scientists with
new genetic
tools, will lead the first of the summer MDI Science Cafés in Northeast Harbor.
The MDI Biological
Laboratory inaugurates its Center for Science Entrepreneurship this week with a
new course that will help University of Maine and College of the Atlantic science and engineering undergraduates explore approaches to biomedical research using concepts and
tools that promote collaboration across disciplines.
Home scientists arguably lack the
tools to stumble upon a
new strain of influenza or accidentally create a deadly bioweapon, but they are apt to overlook fundamental
laboratory safety measures that are important even when working with seemingly benign microbes.
Exploring the power of
new tools to push the frontiers of biology and medicine will be the subject of an MDI Science Café by MDI Biological
Laboratory scientist Dustin Updike, Ph.D., entitled «A Geneticist's Toolkit: How to Connect Genes with Their Function.»
Some of these
new tools relate to strengths on the PNNL campus, said Teeguarden, including modeling and data analytics, analytical chemistry, toxicology, and the multi-omics analyses made possible by instrumentation and experts at the Environmental Molecular Sciences
Laboratory, a national science user facility.
Beautifully illustrated throughout with colour images and photographs to clearly explain the concepts and asanas, the Functional Anatomy of Yoga book will assist you in reaching
new heights in your yoga practice using the «
laboratory» of the body and the
tools of yoga asana.
Our intensive retreats and group workshops are a wonderful «
laboratory» for learning
new communication
tools and practicing those in a safe respectful environment where you can get a lot of help to change old habits.