The previous identification of 21 proteins in the digital setae transcriptome of Gekko gecko, 2 alpha-keratins of 52-53kDa and 19 beta-proteins (beta-keratins) of 10-21kDa, has indicated that most of setal corneous proteins are cysteine-rich. The production of specific antibodies for two of the main beta-protein subfamilies expressed in gecko setae has allowed the ultrastructural localization of two beta-proteins indicated as Ge-cprp-9 (cysteine-rich) and Ge-gprp-6 (glycine-rich). Only Ge-cprp-9, representing most of the 16 cysteine-rich beta-proteins, is present in the oberhautchen, setae and in the terminal spatula where adhesion takes place, supporting the previous expression study. Instead, the glycine-rich beta-proteins (Ge-gprp-6), representing the 3 glycine-rich beta-proteins of digital epidermis is only present in the stiff beta-layer of the digital scales and in the thin beta layer of the pad lamella sustaining the setae. Ge-cprp-9 is representative for most of the remaining 15 cys-rich proteins (Ge-cprp 1-16) and may have a structural and functional role in the process of adhesion. Most of the cysteine-rich setal proteins have a net positive charge and it is here hypothesized that these proteins may induce the formation of dipoles at the surface interface between the spatula and the substrate, enhancing the van der Waals forces and therefore adhesion to the substrate. The selection and improvement of these proteins during the evolution of geckos may have represented a successful factor for the survival and ecological adaptations of these climbing lizards.
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