Sökning: "Ulf Landegren"
Visar resultat 21 - 25 av 33 avhandlingar innehållade orden Ulf Landegren.
21. Single-molecule Detection in situ
Sammanfattning : The human body contains a variety of different cell types that share a common genome, but differ in how they use the information encoded therein. Variation in molecular content exists even at the level of individual cells, and to provide deeper insight into complex cellular processes methods that permit analysis of each cell on its own are needed. LÄS MER
22. 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
23. Applications of in situ proximity ligation assays for cancer research and diagnostics
Sammanfattning : In the field of cancer research and diagnostics it is crucial to have reliable methods for detecting molecules involved in the disease. New and better methods for diagnostics, prognostics and drug delivery therefore remain a permanent aim. LÄS MER
24. Proximity Extension Assay : a universal tool for proteomics in precision medicine
Sammanfattning : Precision medicine aims to utilise biomarkers to ensure the right treatment is given to the right patient at the right time. In pursuit of this goal, sensitive protein detection is essential to improve opportunities for discovery, verification, validation and development of valuable protein biomarkers. LÄS MER
25. 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