Sökning: "proximity ligation assay PLA"
Visar resultat 1 - 5 av 37 avhandlingar innehållade orden proximity ligation assay PLA.
1. Proximity Ligation and Barcoding Assays : Tools for analysis of proteins and protein complexes
Sammanfattning : Proteins are fundamental structural, enzymatic and regulatory components of cells. Analysis of proteins, such as by measuring their concentrations, characterizing their modifications, and detecting their interactions, provides insights in how biological systems work physiologically or pathologically at the molecular level. LÄS MER
2. Solid-phase Proximity Ligation Assays : High-performance and multiplex protein analyses
Sammanfattning : Protein biomarkers circulating in blood hold the promise of improved diagnosis, prognosis and follow-up of treatment of disease via minimally invasive procedures. For the discovery and validation of such biomarkers, methods are needed that can facilitate parallel, highly specific and in-depth analysis of the blood proteome. LÄS MER
3. Proximity Ligation Assays for Disease Biomarkers Analysis
Sammanfattning : One of the pressing needs in the field of disease biomarker discovery is new technologies that could allow high performance protein analysis in different types of clinical material, such as blood and solid tissues. This thesis includes four approaches that address important limitations of current technologies, thus enabling highly sensitive, specific and parallel protein measurements. LÄS MER
4. High Content Analysis of Proteins and Protein Interactions by Proximity Ligation
Sammanfattning : Fundamental to all biological processes is the interplay between biomolecules such as proteins and nucleic acids. Studies of interactions should therefore be more informative than mere detection of expressed proteins. Preferably, such studies should be performed in material that is as biologically and clinically relevant as possible, i.e. LÄS MER
5. Visualization of Protein Activity Status in situ Using Proximity Ligation Assays
Sammanfattning : In 2001 the human proteome organization (HUPO) was created with the ambition to identify and characterize all proteins encoded in the human genome according to several criteria; their expression levels in different tissues and under different conditions; the sub-cellular localization; post-translational modifications; interactions, and if possible also the relationship between their structure and function.When the knowledge of different proteins and their potential interactions increases, so does the need for methods able to unravel the nature of molecular processes in cells and organized tissues, and ultimately for clinical use in samples obtained from patients. LÄS MER