Sökning: "Sophia Hober"
Visar resultat 11 - 15 av 19 avhandlingar innehållade orden Sophia Hober.
11. Generation and engineering of ABD-derived affinity proteins for clinical applications
Sammanfattning : Proteins that specifically recognize and bind to other molecules or structures are important tools in industrial and medical applications. Binding proteins engineered from small stable scaffold proteins have been utilized for several purposes due to their favorable biophysical properties, tolerance to mutagenesis, efficient tissue penetration and ease of production. LÄS MER
12. An albumin-binding domain as a scaffold for bispecific affinity proteins
Sammanfattning : Protein engineering and in vitro selection systems are powerful methods to generate binding proteins. In nature, antibodies are the primary affinity proteins and their usefulness has led to a widespread use both in basic and applied research. LÄS MER
13. Calcium-dependent Affinity Domains for the Purification of Antibodies and Antibody Fragments
Sammanfattning : Antibodies are essential proteins in both our bodies and biotechnological research, and hold outstanding therapeutic value. The market for antibody-based therapeutics has grown exponentially during the last decades, owing to several advantages over small molecule drugs, such as fewer undesirable side effects associated with a higher target specificity. LÄS MER
14. Characterization of Antigenic Properties and High Throughput Protein Purification
Sammanfattning : To understand the cellular processes, knowledge of the localization and function of proteins are essential. There are several high throughput ventures examining the human proteome. However, there are some bottlenecks in these ventures. For example the production and expression of soluble proteins for analysis. LÄS MER
15. Proteome wide protein production
Sammanfattning : Over a decade after the completion of the human genome, researchers around the world are still wondering what information is hidden in the genome. Although the sequences of all human genes are known, it is still almost impossible to determine much more than the primary protein structure from the coding sequence of a gene. LÄS MER