Trichocyte keratin intermediate filament proteins (keratins) and keratin associated proteins (KAPs) differ from their epithelial equivalents by having significantly more cysteine residues. Interactions between these cysteine residues within a mammalian fiber, and the putative regular organization of interactions are likely important for defining fiber mechanical properties, and thus biological functionality of hairs. Here we extend a previous study of cysteine accessibility under different levels of exposure to reducing compounds to detect a greater resolution of statistically non-random interactions between individual residues from keratins and KAPs. We found that most of the cysteines with this non-random accessibility in the KAPs were close to either the N- or C- terminal domains of these proteins. The most accessible non-random cysteines in keratins were present in the head or tail domains, indicating the likely function of cysteine residues in these regions is in readily forming intermolecular bonds with KAPs. Some of the less accessible non-random cysteines in keratins were discovered either close to or within the rod region in positions previously identified in human epithelial keratins as involved in crosslinking between the heterodimers of the tetramer. Our present study therefore provides a deeper understanding of the accessibility of disulfides in both keratins and KAPs and thus proves that there is some specificity to the disulfide bond interactions leading to these inter- and intra-molecular bonds stabilizing the fiber structure. Furthermore, these suggest potential sites of interaction between keratins and KAPs as well as keratin-keratin interactions in the trichocyte intermediate filament.
Keywords: Trichocyte keratins; accessibility mapping; keratin associated proteins; mass spectrometry; protein chemistry.
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