2 research outputs found
Additional file 7: of Molt-dependent transcriptomic analysis of cement proteins in the barnacle Amphibalanus amphitrite
Detailed information about protein identifications from the various secreted samples. (XLSX 117 kb
Oxidase Activity of the Barnacle Adhesive Interface Involves Peroxide-Dependent Catechol Oxidase and Lysyl Oxidase Enzymes
Oxidases
are found to play a growing role in providing functional chemistry
to marine adhesives for the permanent attachment of macrofouling organisms.
Here, we demonstrate active peroxidase and lysyl oxidase enzymes in
the adhesive layer of adult Amphibalanus amphitrite barnacles through live staining, proteomic analysis, and competitive
enzyme assays on isolated cement. A novel full-length peroxinectin
(AaPxt-1) secreted by barnacles is largely responsible for oxidizing
phenolic chemistries; AaPxt-1 is driven by native hydrogen peroxide
in the adhesive and oxidizes phenolic substrates typically preferred
by phenoloxidases (POX) such as laccase and tyrosinase. A major cement
protein component AaCP43 is found to contain ketone/aldehyde modifications
via 2,4-dinitrophenylhydrazine (DNPH) derivatization, also called
Brady’s reagent, of cement proteins and immunoblotting with
an anti-DNPH antibody. Our work outlines the landscape of molt-related
oxidative pathways exposed to barnacle cement proteins, where ketone-
and aldehyde-forming oxidases use peroxide intermediates to modify
major cement components such as AaCP43