A sensory system for mating in octopus
Summary
Sensory systems for mate recognition maintain species boundaries and influence diversification. Thus, uncovering how molecules and receptors evolve to mediate this critical function is essential to understanding biodiversity. Male octopuses use a specialized arm called the hectocotylus to identify females and navigate their internal organs to reach the oviduct and deliver sperm. Here, we discovered that the hectocotylus is a dual sensory and mating organ that uses contact-dependent chemose
Content
# A sensory system for mating in octopus
*Published: 2026 Apr 2*
Sensory systems for mate recognition maintain species boundaries and influence
diversification. Thus, uncovering how molecules and receptors evolve to mediate
this critical function is essential to understanding biodiversity. Male
octopuses use a specialized arm called the hectocotylus to identify females and
navigate their internal organs to reach the oviduct and deliver sperm. Here, we
discovered that the hectocotylus is a dual sensory and mating organ that uses
contact-dependent chemosensation of progesterone, a conserved ovarian hormone.
We identified chemotactile receptors for progesterone and resolved the
structural basis for their evolution from ancestral neurotransmitter receptors
and subsequent expansion and tuning across cephalopods. These findings reveal
principles by which sensory innovations shape reproductive behavior and suggest
mechanisms for how sensory evolution contributes to the diversification of life.
DOI: 10.1126/science.aec9652