Updated project metadata. Studies using crosslinking coupled to mass spectrometry on the proteome-wide level have spurred great interest as they facilitate structural probing of protein interactions in living cells or even organisms. Here we show, by using both an in-vitro mimic of a crowded cellular environment and eukaryotic cell lysates, that current proteome-wide crosslinking protocols have a bias for high abundant proteins. We demonstrate that this bias can be explained by kinetics that govern the formation of a crosslink between two polypeptides. We further show that optimized parameter settings, in particularly an excess of crosslinker, leadto a significant overall increase in the detection of lower abundant proteins within cellular lysates on a proteome-wide scale. Our study therefore explains the cause of a major limitation in current proteome-wide crosslinking studies and demonstrates a way forward how to address a larger part of the proteome by crosslinking