Carbon dots as a versatile tool to monitor insulin aggregation

The possibility to monitor peptide and protein aggregation is of paramount importance in the so-called conformational diseases, as the understanding of many physiological pathways, as well as pathological processes involved in the development of such diseases, depends very much on the actual possibility to monitor biomolecule oligomeric distribution and aggregation. In this work, we report a novel experimental method to monitor protein aggregation, based on the change of the fluorescent properties of carbon dots upon protein binding. The results obtained in the case of insulin with this newly proposed experimental approach are compared with those obtained with other common experimental techniques normally used for the same purpose (circular dichroism, DLS, PICUP and ThT fluorescence). The greatest advantage of the hereby presented methodology over all the other experimental methods considered is the possibility to monitor the initial stages of insulin aggregation under the different experimental conditions sampled and the absence of possible disturbances and/or molecular probes during the aggregation process.

Automated summary

In the field of conformational diseases, monitoring peptide and protein aggregation is crucial for understanding physiological pathways and pathological processes. A new experimental method based on the fluorescent properties of carbon dots upon protein binding is introduced to monitor protein aggregation. The proposed methodology allows for monitoring the initial stages of insulin aggregation under different experimental conditions without potential disturbances or molecular probes.