We discovered several Eph receptors and ephrins, and research in our laboratory is dedicated to the characterization of Eph receptor signal transduction mechanisms and biological functions using biochemical, mass spectrometry, molecular biology and
cell biology approaches in conjunction with animal models.
Her laboratory has successfully combined electrophysiological expertise with molecular and
cell biology approaches to better understand complex mechanisms underlying the memory process in mouse models of AD.
Not exact matches
Since the completion of the Human Genome Project in 2003, scientists have expanded their knowledge of how living
cells work with new
approaches including genomics, proteomics, and systems
biology.
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.
Xian - Cheng Jiang, PhD, professor of
cell biology at SUNY Downstate Medical Center, has led a study identifying a new
approach for lowering «bad» lipids in blood circulation, a critical means to combat devastating cardiovascular diseases such as atherosclerosis.
These are at length / time scales intermediate between the CHEMICAL
BIOLOGY AND BIOPHYSICS IRG and the MOLECULAR
APPROACHES TO
CELL FUNCTIONS AND INTERACTIONS IRG.
This general
approach, known as lineage - tracing, has been a mainstay of classical developmental
biology research and has greatly clarified knowledge of tissue stem
cells during the last decade.
His laboratory uses a multidisciplinary
approach encompassing systems
biology, molecular pharmacology, biochemistry / proteomics,
cell and structural
biology, and computation / bioinformatics.
His current research uses a variety of molecular, biochemical, and genetic
approaches to study the basic
biology of mesenchymal stem
cells (MSCs).
Dr Oliver Stegle, Group Leader at The European Bioinformatics Institute (EMBL - EBI) and co-lead scientist on this research, said: «Our method combines precise biological studies and complex computational
approaches to integrate multiple aspects of
cell biology.
His
approach to the top of the tree (home to eukaryotes, which wrap their DNA in membrane - bound
cell nuclei) would rule
biology classrooms for decades.
In that time, image acquisition and analysis technologies have evolved to provide a wide range of optical
approaches to high throughput analysis of
cell biology processes in situ and in - context.
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.
Dr. Ding has pioneered the development and application of innovative chemical
approaches to stem
cell biology and regeneration.
Our laboratory is interested in developing and applying innovative chemical
approaches to stem
cell biology and regeneration.
It uses cutting edge
approaches to understand entire systems involved in complex
biology, from a
cell to the central nervous system.
In our interdisciplinary
approach, we combine
cell and molecular
biology, molecular genetics, biophysical tools including laser microsurgery, optical engineering, computer science and theoretical physics.
The broad area of molecular,
cell and developmental
biology is a rapidly growing area that has deeply impacted modern biological
approaches.
It also supports our belief that in the future, one might be able to use this
approach for replacement of
cells lost or malfunctioning due to other more common diseases of the retina,» said lead study author
cell biologist Jason Meyer, Ph.D., assistant professor of
biology in the School of Science at Indiana University - Purdue University Indianapolis.
The workshop intended to serve as a tutorial about mathematical and bioinformatics
approaches in current stem
cell biology.
Colleagues speak of his enthusiasm and rich interdisciplinary
approach spanning not only chemistry and microscopy, but neuro -,
cell, and cancer
biology as well.
Glass and his Venter Institute colleagues are now using synthetic
biology and synthetic genomics
approaches developed at the JCVI to create
cells and organelles with redesigned genomes to make microbes that can produce biofuels, pharmaceuticals, and industrially valuable molecules.
Chory and her team run a vertically integrated program, using genetics, genomics,
cell biology, x-ray crystallography, biochemistry and ecological
approaches.
The workshop is organized by Ingo Roeder and Ingmar Glauche, Institute for Medical Informatics and Biometry and it is intended as a tutorial about mathematical and bioinformatics
approaches in current stem
cell biology.
We use a combination of
approaches from organic chemistry, biochemistry and
cell biology to ensure the capability to address a given problem from as many angles as possible.
Even though it wasn't planned this way, says Atkinson, the three «Tell Your Own
Cell Story» videos demonstrate three different approaches to the challenge of making cell biology visible to the wo
Cell Story» videos demonstrate three different
approaches to the challenge of making
cell biology visible to the wo
cell biology visible to the world.
The Cosford lab employs medicinal chemistry and chemical
biology approaches to probe cellular pathways that regulate
cell survival pathways in deadly tumors.
His research interests belong to pushing frontiers of microscopy for
cell biology, developing of new microscopical tools, systems and
approaches.
For this we use gene replacement, live and fixed
cell imaging, conditional localization and (in) activation
approaches, proteomics, biochemistry and structural
biology.
His lab has engaged in a multidisciplinary
approach, simultaneously exploring the basic
biology of stem
cells, their role throughout the lifetime of an individual, as well as their therapeutic potential.
Dissecting these interactions with a combination of
cell -
biology and systems
biology approaches should allow uncovering the tissue specific control mechanisms that are defective in cancer.
The National Institutes of Health has awarded Virginia Tech researchers a $ 2.13 million grant to develop new systems
biology approaches to study
cells, one of the most basic units of life.
We use various
approaches including genetics, genomics and
cell biology to study gene functions in normal development and disease such as cancer.
Technology Integrates stem
cells from patients into a new
approach to predict most effective disease treatments based on a patient's unique
biology.
Objective: To use innovative
approaches of integrative
biology to unravel how lymphocytes process an array of molecular signals arising from contact with dendritic
cells, thereby better understanding the mechanisms that underlie immunity and how they are altered in disease states.
Students receive training with a «systems»
biology approach through courses, bench work, lab discussions and publications spanning a broad range of muscle -
biology questions using studies at the level of single
cells, tissues, animals and humans.
This symposium will cover
cell and developmental
biology, tissue biophysics, theoretical modelling, organoids and synthetic
biology, and provide a platform to discuss and identify key
approaches and future collaborations in tissue self - organisation.
The lab investigates consequences of epigenetic alterations in neuronal cancers and neurodegenerative diseases using a combination of biochemistry,
cell and molecular
biology with genome wide
approaches to gain mechanistic insight into how chromatin architecture is modified in disease.
Expertise in at least one of the following areas is desired: bone
biology, stem
cell biology, mouse models, and high - throughput sequencing
approaches for RNA and chromatin.
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.
We discuss the recent advances to address the question and characterize the developmental constraint in evolution, by integrating
approaches from
cell, and evolutionary
biology, bioinformatics, and theoretical biophysics, and provide the future perspective in the quantitative evo - devo studies.
The goal of our conference is to disseminate recent findings emerging from
cell biology, biochemistry, biophysics, functional - genomics, systems and computational
approaches; and integrate them into a mechanistic understanding of the global principles of
cell division.
The Van Oudenaarden group uses a combination of experimental, computational, and theoretical
approaches to quantitatively understand decision ‐ making in single
cells, with a focus on questions in developmental and stem
cell biology.
It uses cutting - edge
approaches to understand entire systems involved in complex
biology, from a
cell to the central nervous system.
«The development of a functional human kidney glomerulus chip opens up an entirely new experimental path to investigate kidney
biology, carry out highly personalized modeling of kidney diseases and drug toxicities, and the stem
cell - derived kidney podocytes we developed could even offer a new injectable
cell therapy
approach for regenerative medicine in patients with life - threatening glomerulopathies in the future,» said Ingber.
We use a combination of conditional mouse models, primary
cell culture (human and mouse), live microscopy, highthroughput genomics and proteomics
approaches, and basic molecular
biology.
• Personalized drug safety can be addressed with patient - derived
cells in Organ - Chips, enabling a patient - specific
approach for assessing the safety and efficacy of new candidates while taking into account patient variability and the unique
biology of individual patients.
The opportunity to closely interact with colleagues from different fields will generate an integrative perspective that unites diverse scientific
approaches to microtubule research, ranging from structural
biology, biochemistry, and biophysics to
cell biology and organismal
biology.
New data and research
approaches have created opportunities for researchers to study in detail many aspects of cancer
biology, including how the normal biological programs of
cell proliferation and death are altered during cancer and how the immune system responds to tumors.
We challenge the mutual interdependence of lipid - protein interactions by an interdisciplinary
approach, combining
cell biology and synthetic
biology as well as protein biochemistry, structure
biology and biophysics.