Metabolomics is a powerful tool that can provide a comprehensive insight into the complexity of human biology and the pathophysiology of diseases. By analyzing the metabolome, which refers to the... Show moreMetabolomics is a powerful tool that can provide a comprehensive insight into the complexity of human biology and the pathophysiology of diseases. By analyzing the metabolome, which refers to the complete set of small (endogenous) molecules (with a mass <1500 Da) present within a given biological system, a direct functional read-out of an organism's physiological status can be obtained. In particular, metabolomics has emerged as a promising approach for neuroscience research, as it helps to shed light on the molecular mechanisms underlying neurodegenerative and neuropsychiatric diseases. One of the main challenges in (brain) metabolomics studies is the reliable and sensitive analysis of volume-limited biological samples. Therefore, in this thesis, innovative microscale analytical workflows based on capillary electrophoresis (CE) coupled to mass spectrometry (MS) are developed in order to generate metabolic profiles in volume-restricted samples. The ultimate aim of this thesis is to showcase that the technical reproducibility, detection sensitivity, and metabolic coverage of CE-MS are sufficient to allow use for different material-limited matrices of interest for neuroscience research. Show less
Analytical assay development, particularly pertaining to glycomics, is an exciting amalgam of biology, chemistry and engineering. Besides academic research in natural and medical sciences,... Show moreAnalytical assay development, particularly pertaining to glycomics, is an exciting amalgam of biology, chemistry and engineering. Besides academic research in natural and medical sciences, glycomics assays have immense importance in industrial applications such as in quality control and quality assurance of glycoproteins. An up-coming industrial and clinical application is the high-throughput glycan profiling of clinical samples, such as plasma, for identifying disease associations. These glycomics assays are often based on chromatographic and mass spectrometric instrumentation. Thus, they create a requirement of instrumentation infrastructure as well as technical skills which are both not always readily available. This creates a demand in industry for the development of glycomics assays that have a low infrastructure cost as well as minimal training requirements and that are user-friendly. With these objectives in focus, this thesis develops novel exoglycosidase-based high-throughput glycomics assays for use in industrial glycan profiling. In doing so, this thesis also contributes to the development of potential products, such as glycomics kits. Show less
Recent developments in the coupling of liquid phase separations and mass spectrometry have yielded some new source designs for electrospray ionization. The research in this thesis covers the... Show moreRecent developments in the coupling of liquid phase separations and mass spectrometry have yielded some new source designs for electrospray ionization. The research in this thesis covers the application of a newly developed electrospray ionization source design and it's application for the coupling of capillary electrophoresis to mass spectrometry. The initial chapters cover improvements in sensitivity and separation power in capillary electrophoresis mass spectrometry (CE-MS) by allowing electrospray at ultra low flow rates and therefore optimal ionization and separation conditions. We showed strong complementarity of this CE-MS system with reversed phase liquid chromatography in the identification of peptides and proteins from e.coli digests. Finally a sample preparation method for peptide and protein identification from laser micro-dissected tissue samples from human kidneys was developed. It was shown that a few hundred proteins could be identified from amounts of material representative of one full human glomerulus. On the whole great strides were made in development of strategies employing CE-MS for proteomics analysis. Show less
In thesis the power of electrophoretic on-line concentration procedures for peptidomics and metabolomics is demonstrated. Tow examples are given: isotachophoresis with spacer molecules and... Show moreIn thesis the power of electrophoretic on-line concentration procedures for peptidomics and metabolomics is demonstrated. Tow examples are given: isotachophoresis with spacer molecules and electroextraction. Electromigration is capable of enhancing selective analyte migration. Selective analyte migration can be used to increase the amount of analyte that is injected into an analytical system, while it leaves the sample volume with the contaminants behind. In consequence, the injection of contaminants and bulk components that may disturb sample pretreatment, separation and detection can be avoided and LOD values can be lowered without the problems associated with direct injection of larger sample volumes. The work that is presented in this thesis is focused on fast electrophoresis-based LOD improvement of the analysis of peptides and/or metabolites in plasma and urine. Show less
The chapters that comprised this thesis cover a broad range of subjects from analytical method development to clinical application of metabolic profiling. They are united by the facts that all of... Show moreThe chapters that comprised this thesis cover a broad range of subjects from analytical method development to clinical application of metabolic profiling. They are united by the facts that all of these studies aimed at analysis of biological fluids and that the presented methods and approaches may ultimately become parts of a robust metabolomics workflow that might be used in a future personalized medicine. Show less
