Sökning: "interaction modifier"
Visar resultat 1 - 5 av 15 avhandlingar innehållade orden interaction modifier.
1. Tailoring the magnetic order in mesoscopic spin systems
Sammanfattning : Mesoscopic spin systems can be designed and fabricated using modern nano-fabrication techniques. These systems can contain large numbers of patterned ferromagnetic elements, for which the shape will generally determine their effective mesospin dimensionality. LÄS MER
2. Collective properties of magnetic mesospins
Sammanfattning : Mesoscopic spin systems consist of an ensemble of lithographically patterned nanomagnetic elements - mesospins. The interactions between the mesospins, can be designed at will by altering their lateral arrangement, enabling the study of collective magnetic order in a wide range of systems. LÄS MER
3. Expression, regulation and fuction of small ubiquitin-related modifier-1. Interaction with nuclear proteins in vivo
Sammanfattning : The small ubiquitin-related modifier-1 (SUMO-1) is a 101-amino acid, ~12 kDa protein that is 18% identical to ubiquitin. Posttranslational covalent tagging of proteins with SUMO-1 (SUMOylation) serves many functions. For example, regulation of protein stability and modulation of transcriptional activation. LÄS MER
4. Advances in analytical methodologies for studies of the platinum metallome in malignant cells exposed to cisplatin
Sammanfattning : The scientific progress about the important chemotherapeutic drug substance cisplatin (CDDP) and its function has often been rendered by data difficult to interpret, and still many questions about its mode of action remains to be clarified by the scientific community. However, studies of CDDP possess a high complexity due to; i) low intracellular concentration, ii) many potential biomolecule targets, iii) poor or unknown stability of the intact drug and its biomolecule adducts and iv) complex and varying sample matrices. LÄS MER
5. Gene environment-interaction and cardiovascular phenotype in obesity and diabetes
Sammanfattning : Although a large body of evidence supports the notion that genes determine cardio-metabolic traits and outcomes, the non-genetic regulation of these events has recently gained increasing attention. Plastic chemical modifications of DNA-histone complexes defined epigenetic changes regulate gene expression by modifying chromatin accessibility to transcription factors. LÄS MER