Sökning: "global gene association networks"
Visar resultat 1 - 5 av 10 avhandlingar innehållade orden global gene association networks.
1. Functional association networks for disease gene prediction
Sammanfattning : Mapping of the human genome has been instrumental in understanding diseasescaused by changes in single genes. However, disease mechanisms involvingmultiple genes have proven to be much more elusive. Their complexityemerges from interactions of intracellular molecules and makes them immuneto the traditional reductionist approach. LÄS MER
2. Global functional association network inference and crosstalk analysis for pathway annotation
Sammanfattning : Cell functions are steered by complex interactions of gene products, like forming a temporary or stable complex, altering gene expression or catalyzing a reaction. Mapping these interactions is the key in understanding biological processes and therefore is the focus of numerous experiments and studies. LÄS MER
3. Inference of functional association networks and gene orthology
Sammanfattning : Most proteomics and genomics experiments are performed on a small set of well-studied model organisms and their results are generalized to other species. This is possible because all species are evolutionarily related. When transferring information across species, orthologs are the most likely candidates for functional equivalence. LÄS MER
4. Signals and Noise in Complex Biological Systems
Sammanfattning : In every living cell, millions of different types of molecules constantly interact and react chemically in a complex system that can adapt to fluctuating environments and extreme conditions, living to survive and reproduce itself. The information required to produce these components is stored in the genome, which is copied in each cell division and transferred and mixed with another genome from parent to child. LÄS MER
5. Cross-tissue regulatory gene networks in coronary atherosclerosis
Sammanfattning : Coronary artery disease (CAD) is the underlying cause of myocardial infarction and stroke that together are responsible for nearly 30% of all global deaths. CAD is a common complex disease caused by the interactions of multiple genetic and environmental risk factors acting across several metabolic and vascular tissues. LÄS MER