Proteins are widely known as key players that fulfill crucial roles at the molecular level in the human body but also for their involvement in many processes in everyday life. For example, proteins... Show moreProteins are widely known as key players that fulfill crucial roles at the molecular level in the human body but also for their involvement in many processes in everyday life. For example, proteins can be used as medicine in health care or for their enzymatic function in the food industry. All these proteins do not exist as a single species but rather as a complex mixture of structural variants, so-called proteoforms. This heterogeneity results mainly from the presence of post-translational modifications (PTMs), such as glycosylation and glycation. To further complicate this matter, these PTMs can induce structural as well as functional changes. To allow in-depth structural and functional characterization of these proteoforms, novel analytical approaches are required to resolve proteoform heterogeneity while persevering protein nativity. The hyphenation of native separation techniques with mass spectrometry has emerged as a powerful approach to reliably study these aspects. The work in this thesis describes the (further) development and application of such methodologies for biopharmaceutical and biotechnological products. Show less
