par Haque, Rizwanul;Setty, Hagar;Lorenzo, Ramiro;Stelzer, Gil;Rotkopf, Ron;Salzberg, Yehuda;Goldman, Gal;Kumar, Sandeep;Halber, Shiraz Nir;Leifer, Andrew M;Schneidman, Elad;Laurent, Patrick 
;Oren-Suissa, Meital
Référence Science advances, 11, 28, page (eadv9106)
Publication Publié, 2025-07-01
;Oren-Suissa, MeitalRéférence Science advances, 11, 28, page (eadv9106)
Publication Publié, 2025-07-01
Article révisé par les pairs
| Résumé : | Sex-specific behaviors are often attributed to differences in neuronal wiring and molecular composition, yet how genetic sex shapes the molecular architecture of the nervous system at the individual neuron level remains unclear. Here, we use single-cell RNA sequencing to profile the transcriptome of sex-shared neurons in adult Caenorhabditis elegans males and hermaphrodites. We uncover widespread molecular dimorphism across the nervous system, including in previously unrecognized neuron-types such as the touch receptors. Neuropeptides and signaling-related genes exhibit strong sex-biased expression, particularly in males, reinforcing the notion that neuropeptides are crucial for diversifying connectome outputs. Despite these differences, neurotransmitter identities remain largely conserved, indicating that functional dimorphism arises through modulatory, not identity-defining, changes. We show that sex-biased expression of neurotransmitter-related genes correlates with bias in outgoing synaptic connectivity and identify regulatory candidates for synaptic wiring, including both shared and sex-specific genes. This dataset provides a molecular framework for understanding how subtle regulatory differences tune conserved circuits to drive sex-specific behaviors. |
