Using cutting - edge
molecular methods the research team identified 53 key genes that are involved in long - term, multi-generational acclimation to higher temperatures.
Not exact matches
My
research has implemented MFC
methods for cell manipulation and
molecular biology and has been applying them in collaboration with local life science researchers.
In a recent publication in ACS Nano, Reilly and Ingber developed this
method by combining computer animation software approaches from the entertainment industry with rigorous
molecular dynamics simulation tools commonly used in biological
research.
The
research group developed the
molecular biology
method MIME (Mutational Interference Mapping Experiment) to investigate the interaction of RNA with its respective interaction partners in detail.
The Prize is awarded annually to one young scientist for the most outstanding neurobiological
research based on
methods of
molecular and cell biology conducted by him / her during the past three years.
The entrant's essay must describe contributions to neurobiological
research based on
methods of
molecular and cell biology.
The sequenced genome can lead to improved
molecular biology, physiology and neurobiology
research in insects and also may help in developing future new
methods for insect pest management.
The Eppendorf & Science Prize in Neurobiology recognizes outstanding international neurobiological
research based on current
methods and advances in the field of
molecular and cell biology by a young early - career scientist, as described in a 1,000 - word essay based on
research performed within the last three years.
The original
research, published in the journal Frontiers in
Molecular Biosciences, shows that the OncoFinder
method significantly reduces errors introduced by transcriptome - wide experimental techniques.
«Our
research indicates that the
molecular microscope system is more precise and accurate than conventional
methods, which often involve extensive disagreement between doctors reading the biopsies, and therefore errors,» said Halloran, a U of A transplant physician and globally recognized leader in the field.
Several years of
research led them to abandon the gel - based
method and move to the
molecular - wire approach.
Using
molecular - genetic
methods, a German - Chinese
research team has now tested an alternative colonization hypothesis on lazy toads (Pelobatoidea).
«Our
method permits the analysis of minute biopsies and even tissue micro-arrays, making it particularly interesting for
molecular research and diagnostics,» explains doctoral candidate Achim Buck, together with Alice Ly, the first author of the study.
«Since conventional
methods, such as X-ray crystallography, capture only averaged frozen structures, it is not possible to investigate how the dynamic of the protein could be involved in key aspects of their function,» explains physicist Alipasha Vaziri, a joint group leader at the Max F. Perutz Laboratories (MFPL) and the Institute of
Molecular Pathology (IMP) and head of the
research platform «Quantum Phenomena & Nanoscale Biological Systems» (QuNaBioS) of the University of Vienna.
New
research published in Nature
Methods will dramatically improve how scientists «see inside»
molecular structures in solution, allowing for much more precise ways to image data in various fields, from astronomy to drug discovery.
Applying a new
method that is used mainly in stem - cell
research and regenerative medicine, researchers from the Technical University of Munich have now devised a robust intestinal model for
molecular research into incretin release in a test tube (in vitro).
For several years, the «
Molecular Imaging»
research group at the FMP led by physicist Leif Schröder has been developing new MRI
methods that rely on just such a «flux compensator» and has demonstrated the impressive potential of this
method.
In a new project, it's a good idea to test different
methods and we wanted to lay a good foundation for future studies, says researcher Eero Vesterinen from the University of Helsinki, who in his earlier
research has specialised in the
research of feeding biology, especially by applying
molecular research methods based on DNA.
Co-author Cadhla Firth, a
research scientist at Columbia University's Center for Infection and Immunity, and her colleagues used
molecular screening
methods to look for two other pathogenic bacteria the Oriental rat flea could vector: Rickettsia (which they didn't find) and several species of Bartonella.
A new
method developed by scientists on the Florida campus of The Scripps
Research Institute (TSRI) takes another tack entirely, combining existing formulas in a kind of algorithmic stew to gain a better picture of
molecular structural diversity that is then used to eliminate errors and improve the final model.
«Thousands on one chip: New
method to study proteins: Development of a new
molecular method for the
research on protein functions.»
It is awarded annually to one young scientist for the most outstanding neurobiological
research based on
methods of
molecular and cell biology conducted by him / her during the past three years, as described in a 1,000 - word entrance essay.
We invite scientists from Pharmas, Biotechs and Academic labs who are applying
molecular methods in disease
research and interested in elevating their
research with new RNA analysis technologies.
Methods: Chen's
research team achieved the controllable assembly of sequence - defined peptoids by manipulating their side - chain chemistry to tune
molecular interactions.
Methods: The international
research team used surface science and imaging capabilities at DOE's Environmental
Molecular Sciences Laboratory at Pacific Northwest National Laboratory.
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
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
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
molecular recognition of proteins, to their function and disease.
In the 11 years before joining the CNAG he worked at the Centre National de Génotypage of the Commissariat à l'Energie Atomique in Evry, France, first as Head of Technology Development and later as Associate Director under Prof. Mark Lathrop.His
research interests are high - throughput nucleic acid analysis, sequencing, SNP genotyping, genomics, genetics, nucleic acid and protein analysis
methods (
molecular biological techniques and chemical modification), implementation of
methods, automation and analysis.
Between 2002 - 04, he undertook his postdoctoral
research at the International Center for Genetic Engineering and Biotechnology (ICGEB; New Delhi, India), where he developed
molecular methods to map the receptor - binding residues of P. falciparum molecules, an important step towards understanding the basis of these interactions and the natural acquisition of immunity.
This traditional
method has its downfalls, and automation in behavioral recognition is a crucial step towards advancements in biomedical, genetic, and
molecular research.
Methods: Using supercomputers in the Environmental
Molecular Sciences Laboratory, the
research team performed the calculations necessary to search for possible transition states and migration paths for tungsten clusters on tungsten nanoparticles, and corresponding migration energies for the possible migration paths of these clusters.
We remain confident that resources, such as the gene disruption library, which integrate
molecular and genetic
methods will play an increasingly important role in future biological
research.
Molecular imaging
methods that visualize the structure and function of the living body are widely used in clinical and biomedical
research settings.
The results of this
research are expected to rapidly increase the understanding of how bladder cancer develops at the
molecular and cellular level, and to push forward the development of new therapies and early detection
methods.
This third edition of Electron Microscopy:
Methods and Protocols expands upon the previous editions with current, detailed protocols on biological and molecular research techniques based on TEM and SEM as well as other closely related imaging and analytical m
Methods and Protocols expands upon the previous editions with current, detailed protocols on biological and
molecular research techniques based on TEM and SEM as well as other closely related imaging and analytical
methodsmethods.
The profiling
methods used in this
research to identify
molecular changes may be a general approach for differentiating the
molecular pathology of disease models resulting from agent - specific effects, such as the effects of the two neurotoxins used in this
research.
The related
research and applications are similarly diverse, fluctuating from extensions of conventional device physics to totally new
methods based upon
molecular self - assembly, from emerging new materials with measurements on the Nano scale to straight regulator of matter on the atomic scale.
The goal of the
research group is to establish a new exploration
method using as reference various
molecular / atomic emission lines which can be observed at millimeter / submillimeter wavelengths (* 3).
Research in the Bredas group focuses on computational materials chemistry: computational
methods are used as a tool to uncover the properties of novel advanced materials, understand their chemistry and physics, and derive an integrated understanding of the intrinsic
molecular - and nano - scale processes in a variety of emerging applications (such as solar cells or low - power displays), especially in the fields of organic electronics, photonics, and information technology.
My
research interest is the application of a variety of (
molecular)
methods to new systems and challenge new
methods — a good reason to take the position as a postdoctoral researcher in the new SciLifeLab pilot platform for Single Cell Genomics at Uppsala University.
To design and undertake
research applying scientific
methods to resolve biological problems and increase the knowledge of genetic and
molecular biology concepts.
Our
research requires integrating data and
methods from comparative genomics,
molecular developmental genetics, as well as physical experiments, mathematical modelling and numerical simulations.