The resulting data are being combined
in a systems biology approach with high - resolution clinical phenotyping and findings obtained with a large array of established and novel in vitro, ex vivo and in vivo disease models to identify disease - associated genetic variants, disease - defining molecular signatures, and potential targets for therapeutic intervention.
Not exact matches
It is a problem that holistic
approaches to
biology such as general
systems theory have been most interested
in, and it is the problem that prompted C. Lloyd Morgan to speculate about forms of relatedness.
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.
A biologist, Schaal was among the first plant scientists to use molecular
biology - based
approaches to understand evolutionary processes
in plants and she has worked to advance understanding of plants» molecular
systems and population genetics.
In the research community, we've got to develop
systems biology approaches, such as this one, that take a more sophisticated
approach to get us where we need to be.»
There are ongoing studies which focus on the discovery of molecular biomarkers of the VSV - ZEBOV vaccine
in healthy individuals using omics - based technologies
in combination with a
systems biology approach,» says Ali Harandi.
In Europe, the Center for Research and Interdisciplinarity (CRI), for example, offers a 2 - year Interdisciplinary Approaches in Life Sciences master's program with a specific track in systems and synthetic biolog
In Europe, the Center for Research and Interdisciplinarity (CRI), for example, offers a 2 - year Interdisciplinary
Approaches in Life Sciences master's program with a specific track in systems and synthetic biolog
in Life Sciences master's program with a specific track
in systems and synthetic biolog
in systems and synthetic
biology.
The
approach combined experimental synthetic
biology led by Mark Isalan, now Reader
in Gene Network Engineering at the Department of Life Sciences of Imperial College London with computational modelling led by James Sharpe, ICREA Research Professor and head of the Multicellular
Systems Biology lab at the CRG.
By using a
systems biology approach, researchers deliberately move away from the classic reductionist manner of looking at molecules
in isolation to study biological
systems in their entirety.
--
In silico basic and
systems biology: We develop innovative
approaches to reverse engineer biological networks from omics data, model tumor progression at the genomic, transcriptomic and epigenetic level, automatically annotate new proteins and functional elements through integration of complex and heterogeneous data, including data obtained from high - throughput sequencing or time - lapse video - microscopy.
The Transcriptomics Core Facility supports a
systems biology approach in vaccine development focusing on the identification of transcriptomic correlates of vaccine immunogenicity and efficacy for a range of novel and licensed vaccines using PBMC or whole - blood and BAL fluid samples.
It uses cutting edge
approaches to understand entire
systems involved
in complex
biology, from a cell to the central nervous
system.
The ERA - Net ERACoSysMed, collaboration on
systems medicine funding to promote the implementation of
systems biology approaches in clinical research and medical practice, started
in January 2015 as the first ERA - Net on
systems medicine under the EU Framework Programme Horizon 2020.
The Bergthaler laboratory pursues an integrative
approach comprising infection models and tools of immunology, pathology and
systems biology in order to dissect novel disease - relevant interactions between pathogens and the host.
Development of a gene expression assay
in non-human primates: We will develop a novel sensitive assay for the characterisation of vaccination - related gene expression profiles
in NHPs, using an
approach that is fully harmonised with the
systems biology platform.
Using synthetic
biology approaches, I am engineering fluorescent organisms to monitor mechanical sensing
systems in response to pressure.
Since biological
systems challenge the available methods, and the necessary foundations
in physics, computer science, and mathematics are often missing, the CellDevo track greatly benefits from the fundamental research
in computer science, bio-image informatics, biophysics, and applied mathematics represented
in the CompBio and BioPhysEng tracks and help to develop the methodological foundations for future
biology in tight integration with life imaging and other experimental
approaches.
The research, published
in the Proceedings of the National Academy of Sciences
in September 2017, uses a combination of real - world bacterial culture results and medical records from nursing home patients, and a computing
approach known as
systems biology.
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.
Systems biology is an approach to biomedical research in which scientists combine complex «omics» datasets to develop a more complete understanding of complex biological systems, such as the regulation of whole genome - level transcription, regulation of the 3D genome, the role of signaling and metabolic pathways in disease, an
Systems biology is an
approach to biomedical research
in which scientists combine complex «omics» datasets to develop a more complete understanding of complex biological
systems, such as the regulation of whole genome - level transcription, regulation of the 3D genome, the role of signaling and metabolic pathways in disease, an
systems, such as the regulation of whole genome - level transcription, regulation of the 3D genome, the role of signaling and metabolic pathways
in disease, and more.
Approaches successful
in other
systems, such as modeling signal transduction and synthetic
biology methodologies [32] could improve future generations of detector plants by enhancing signal transmission and providing means to deal with biological «noise».
An
in vivo - vitro shuttle
system for the study of P. cynomolgi liver stages12 is being exploited to better understand hypnozoite
biology using molecular tools and genome - scale
approaches, which rely on the availability of a complete and well annotated P. cynomolgi reference genome sequence.
Integrated
systems biology approaches can identify gene regulatory networks, such as immune, stress and other regulatory responses, and link them with physiologic states.6 This bioinformatics
approach provides an unbiased view of the immune
system profile, and can be linked to changes
in environmental conditions.7 These network
approaches, while often applied to identifying disease profiles, can be used to identify salutary states as well, such as that which might result from intensive meditation.
In addition, we employ high throughput screening (HTS), cheminformatics, and medicinal chemistry of novel small molecule reagents that aid in validating novel therapeutic approaches and in understanding the biology of signaling in the central nervous syste
In addition, we employ high throughput screening (HTS), cheminformatics, and medicinal chemistry of novel small molecule reagents that aid
in validating novel therapeutic approaches and in understanding the biology of signaling in the central nervous syste
in validating novel therapeutic
approaches and
in understanding the biology of signaling in the central nervous syste
in understanding the
biology of signaling
in the central nervous syste
in the central nervous
system.
Using these
approaches in combination with genetics, molecular
biology and biochemistry, we are studying the molecular mechanisms underlying synaptic transmission and plasticity
in mammalian central nervous
system.
ISB's Connection: With a mission to tackle biological complexity, ISB has pioneered
systems biology approaches that put our scientists and collaborators
in a prime position to take on the challenge of demystifying the brain.
Then for postdoctoral research I moved to Yale University, where I worked
in a lab that looked at all kinds of different disease areas using the
approaches of a field called chemical
biology, which is using small molecules — chemicals — to probe biological
systems in the hopes of developing compounds that could be new drugs.
It uses cutting - edge
approaches to understand entire
systems involved
in complex
biology, from a cell to the central nervous
system.
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.
Specifically, the authors call for
systems biology approaches (using large data sets and modeling to understand complex biological
systems) to fill critical knowledge gaps
in understanding how Mycobacterium tuberculosis (Mtb) infection causes disease.
Functional medicine reflects a
systems biology approach to health care: a comprehensive analysis of the manner
in which all components of the human biological
system interact functionally with the environment over time.
The intensive year - long instruction combined a
systems biology approach to health with an
in - depth concentration on root cause of disease, coupled with therapeutic dietary treatment, and stress management techniques.
Dr. Brady will discuss autoimmune disease as a complex entity and «perfect storm» of biological and environmental factors and will present a
systems -
biology approach, utilizing a wider - lens perspective, as a suggested strategy and clinical algorithm for the clinician to consider
in working through these complex clinical scenarios.