Abstract
Crustins represent the largest and most diverse family of antimicrobial peptides (AMPs) found in crustaceans. They are classically defined as disulfide-rich peptides/polypeptides holding a typical Whey Acidic Protein (WAP) domain at the C-terminal end. This WAP domain has eight cysteine residues forming a tightly packed structure, the four-disulfide core (4DSC) motif, that is also found in other proteins displaying protease inhibitory properties. Crustins are highly diverse in terms of primary structure, size and biochemical features, thus exhibiting a series of biological functions beyond their antimicrobial properties. In order to better categorize the distinct crustin members, different classification systems have been proposed. In this review, we discuss the current classification systems and explore the biological implication of the impressive molecular diversity of this unique AMP family. We also summarize the recent findings on the role of these effectors in crustacean immunity and homeostasis as well as in host-microbe interactions.
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