MS Study for Fiber Interaction

Mass spectrometric investigation of the interaction between soluble dietary fibers and small molecules/minerals

Background

According to the WHO, 1/3 of deaths worldwide are diet-related. Regular intake of soluble dietary fibers, however, is an effective way of reducing the risks of cardiovascular diseases related to high blood cholesterol levels and diabetes type 2. In addition, the bioavailability of nutritionally relevant minerals like iron highly depends on the food matrix. Thereby, fibers and their associated phytochemicals play an important role on the mineral uptake. While some interactions of metal cations with negatively charged soluble fibers are known, knowledge on binding of e.g. glucose, bile acids, and minerals with neutral dietary fibers is scarce.

Mass spectrometric investigation of the interaction between soluble dietary fibers and small molecules/minerals — Study of soluble dietary fiber (DF) interactions with small molecules and metal ions by mass spectrometric techniques to elucidate the mode of action of their health benefits such as cholesterol lowering & blood glucose regulation properties, as well as effect on mineral bioavailability.

Research Goals

In this study, the structure-function relationships are investigated on a molecular level for the dietary fiber’s binding of nutritionally relevant small molecules and minerals in order to understand the underlying concepts that cause these health benefits. Novel analytical methods are developed for this purpose on the basis of mass spectrometric techniques to asses such weak interactions that cumulatively have a significant effect on health.