Using the oral microbial community as a model system, we are applying
functional genomic approaches including Stable Isotope Probing (SIP), metatrascriptomics and directed single cell genomic approaches to enable us to overcome this limitation.
PHENOMIN - CIPHE develops
functional genomic approaches to create preclinical models of the immune system.
The work is the first time that a large - scale
functional genomic approach has been used to systematically examine how bacteria can gain capabilities that improve their ability to colonize living organisms, in this case mice.
To accomplish this, I take
a functional genomics approach to identify novel genes important for testes development and function.
Identification of new pathological biomarkers for monogenic diseases using
a functional genomic approach.
The Parasite Genomics group uses comparative and
functional genomics approaches to investigate the biology of helminths and protozoan parasites.
Since ants are not afforded the molecular and genetic tools of traditional model organisms, we will begin addressing the question of colony queen number with
a functional genomics approach.
Not exact matches
The advances in genotyping and
functional genomics open new
approaches to environmental science, including public health issues
With the advent of the
genomic era, however, biological investigators are confronted daily with ever ‐ growing data sets that contain potentially useful
functional information which can not readily be analyzed optimally with the conventional
approach.
-- 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.
Large - scale
functional genomics data often fail to connect to standard experimental
approaches of gene characterization in individual laboratories.
Ageing research and more generally the study of the
functional basis of human diseases profit enormously from the large - scale
approaches and resources in mouse
functional genomics: systematic targeted mutation of the mouse genome, systemic phenotyping in mouse clinics, and the archiving and distribution of the mouse resources in public repositories.
Cellecta Inc., a
functional genomics solutions provider, focuses primarily on developing and implementing flexible and scalable broad - based screening and analysis
approaches for drug target and biomarker discovery.
The
Functional Genomic and Computational Assessment of Threats (Fun GCAT) program challenges research teams to develop new
approaches for screening genetic information for evidence of a potential biological threat.
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.
His research focuses on the use of
genomic approaches to uncover the
functional impact of human genetic variation, and especially its role in causing severe Mendelian diseases.
This section invites manuscripts describing (a) Linkage, association, substitution or positional mapping and epigenetic studies in any species; (b) Validation studies of candidate genes using genetically - engineered mutant model organisms; (c) Studies focused on epistatis and gene - environment interactions; (d) Analysis of the
functional implications of
genomic sequence variation and aim to attach physiological or pharmacogenomic relevance to alterations in genes or proteins; (e) Studies of DNA copy number variants, non-coding RNA, genome deletions, insertions, duplications and other single nucleotide polymorphisms and their relevance to physiology or pharmacology in humans or model organisms, in vitro or in vivo; and (f) Theoretical
approaches to analysis of sequence variation.
By combining the fission yeast, mouse, and human systems with the latest
genomic, genetic, cell biological, and biochemical
approaches, we seek to determine how condensin and cohesin organize the
functional 3D genome structures and participate in various biological processes, including transcriptional regulation and chromosomal dynamics, and how they contribute to oncogenic processes.
As part of an ongoing
functional genomic screening
approach, we have been using microarray analysis and next generation sequencing to identify mouse genes that are specifically expressed in meiosis, and are likely involved in aspects of chromosome biology that are required for meiotic ploidy reduction.
We apply personalised
functional genomics to study diseases in patient - derived cells using systematic and targeted
approaches to unravel mechanisms and discover novel treatments (see video).