Sign up to save your podcasts
Or
Share EPISODE 37: Octopus "Ouch" Genes - Teaching Worms to Feel Pain!
Share to email
Share to Facebook
Share to X
Share to email
Share to Facebook
Share to X
Or
EPISODE 37: Octopus "Ouch" Genes - Teaching Worms to Feel Pain!
How do you hunt for pain-sensing genes in an octopus — and then test what they do in a nematode? In this episode, we explore a cross-species strategy that mines the Octopus vulgaris transcriptome for candidate nociceptors, then functionally probes a subset using Caenorhabditis elegans behaviour.
Using conserved nociception pathways as a guide, the authors identify candidate genes with C. elegans orthologues and show that a subset can alter aversive responses in the worm. The work highlights conserved molecular themes — including TRP channels and neuropeptide signalling — and shows how C. elegans can be used as a fast, tractable platform to characterise candidate sensory genes from more complex invertebrates.
🔍 Key topics covered
Why cephalopod nociception matters (including welfare context)
A bioinformatic “orthologue-first” pipeline to shortlist candidate nociceptors
Functional testing in C. elegans using aversive/avoidance behaviour
What the results suggest about conserved roles for TRP channels and neuropeptides
📖 Based on the research article:
“Identification of molecular nociceptors in Octopus vulgaris through functional characterisation in Caenorhabditis elegans”
Eleonora Maria Pieroni, Vincent O’Connor, Lindy Holden-Dye, Pamela Imperadore, Graziano Fiorito & James Dillon.
Biology Open (2025)
🔗 https://doi.org/10.1242/bio.062268
UK C. elegans Meeting 2026 (Southampton) — registration + abstracts
Registration open (deadline 10 March 2026)
Register via the University of Southampton Online Store (search for “UK C elegans 2026”).
Abstract submission form: https://forms.cloud.microsoft/e/BURNmxu76i
Important: you must be registered for your abstract to be accepted; talk selections are made after registration closes.
Meeting info page:
This podcast is generated with artificial intelligence and curated by Veeren. If you’d like your publication featured on the show, please get in touch.
📩 More info:
🔗 www.veerenchauhan.com
View all episodes
By WOrM | Whole Organism AnalyticsHow do you hunt for pain-sensing genes in an octopus — and then test what they do in a nematode? In this episode, we explore a cross-species strategy that mines the Octopus vulgaris transcriptome for candidate nociceptors, then functionally probes a subset using Caenorhabditis elegans behaviour.
Using conserved nociception pathways as a guide, the authors identify candidate genes with C. elegans orthologues and show that a subset can alter aversive responses in the worm. The work highlights conserved molecular themes — including TRP channels and neuropeptide signalling — and shows how C. elegans can be used as a fast, tractable platform to characterise candidate sensory genes from more complex invertebrates.
🔍 Key topics covered
Why cephalopod nociception matters (including welfare context)
A bioinformatic “orthologue-first” pipeline to shortlist candidate nociceptors
Functional testing in C. elegans using aversive/avoidance behaviour
What the results suggest about conserved roles for TRP channels and neuropeptides
📖 Based on the research article:
“Identification of molecular nociceptors in Octopus vulgaris through functional characterisation in Caenorhabditis elegans”
Eleonora Maria Pieroni, Vincent O’Connor, Lindy Holden-Dye, Pamela Imperadore, Graziano Fiorito & James Dillon.
Biology Open (2025)
🔗 https://doi.org/10.1242/bio.062268
UK C. elegans Meeting 2026 (Southampton) — registration + abstracts
Registration open (deadline 10 March 2026)
Register via the University of Southampton Online Store (search for “UK C elegans 2026”).
Abstract submission form: https://forms.cloud.microsoft/e/BURNmxu76i
Important: you must be registered for your abstract to be accepted; talk selections are made after registration closes.
Meeting info page:
This podcast is generated with artificial intelligence and curated by Veeren. If you’d like your publication featured on the show, please get in touch.
📩 More info:
🔗 www.veerenchauhan.com