Abstract

Self-recognition is observed abundantly throughout the natural world, regulating diverse biological processes. Although ubiquitous, often little is known of the associated molecular machinery, and so far, organismal self-recognition has never been described in nematodes. We investigated the predatory nematode <i>Pristionchus pacificus</i> and, through interactions with its prey, revealed a self-recognition mechanism acting on the nematode surface, capable of distinguishing self-progeny from closely related strains. We identified the small peptide SELF-1, which is composed of an invariant domain and a hypervariable C terminus, as a key component of self-recognition. Modifications to the hypervariable region, including single-amino acid substitutions, are sufficient to eliminate self-recognition. Thus, the <i>P. pacificus</i> self-recognition system enables this nematode to avoid cannibalism while promoting the killing of competing nematodes.