Abstract
Fisheries bycatch, while representing a major ecological concern due to the incidental capture of non-target species, also constitutes an underexplored source of marine biomass with biotechnological potential. This study aimed to generate and characterize bioactive peptides from the muscle tissue of three common bycatch species from the Brazilian coast: Paralonchurus brasiliensis, Micropogonias furnieri, and Hepatus pudibundus. Muscle homogenates were hydrolyzed using either Alcalase or Protamex to produce peptide-rich hydrolysates, which were analyzed through SDS-PAGE, HPLC-UV, MALDI-TOF, and LC-MS/MS. De novo sequencing and bioinformatic analyses predicted bioactivities that were subsequently validated by in vitro assays. The results demonstrated that enzyme selection strongly influenced both peptide profiles and bioactivity. The Protamex hydrolysate of P. brasiliensis (PBP) exhibited potent antifungal activity, inhibiting Candida albicans growth by 81%, whereas the Alcalase hydrolysate (PBA) showed moderate inhibition of Staphylococcus aureus (29%). No significant effect was observed against Escherichia coli. Overall, this study highlights a sustainable strategy for the valorization of fisheries bycatch through the production of bioactive marine peptides and identifies P. brasiliensis hydrolyzed with Protamex as a promising source of anti-Candida peptides for pharmaceutical and nutraceutical applications.