... own 'omics analysis such as transcriptomics or proteomics by helping identify transcripts and proteins (respectively) that change in abundance as a function of the biological event of interest. In this case, there is a compendium of ...
... own –omics moniker: interactomics. Attesting to the great importance of protein–protein interactions, many techniques have been developed to study interactomes in a large-scale manner. Unfortunately, the experiments cannot yet be ...
... own omics data. Here we present an analytical method to clarify the associations between genes and diseases. We characterized genes and diseases by assigning a MeSH-controlled vocabulary (Nakazato et al. 2008, 2009). Our objective was ...
... own. Omics technologies can be used as endpoints of cell culture, animal model, or human studies. They enable relatively accurate and cost-effective studies, which do not require a starting hypothesis, and can be done with small study ...
... own omics data in a specific context using a functional biological approach. These fast-developing technologies have led to the development and the publication of a plethora of bioinformat- ics tools ranging from the simplest to the ...
... own omics data analyses and in the context of collaborative projects with biologists, informaticians, and statisticians. Overwhelmed by the constant flow of data and challenged with the methodological evolution in bioinformatics to ...
... own omics legislation such as (i) intellectual property rights, and (ii) storage of human data, etc. Despite this, it is alarming as to whether these governing bodies and rules are strict enough to avoid regular infringements and or ...
... own omics suffix with the publication of listeriomics (Becavin et al., 2017), as well as already being a distinct area of study within microbiology termed listeriology (Lebreton et al., 2016). In addition, one could state that a ...