Welcome to the Chemosensation and Social Learning Lab
The goal of the Meeks Lab is to better understand the mechanisms by which nonvolatile olfactory cues, including pheromones, guide animal social and reproductive behaviors. The neural pathway that detects and processes this information is called the accessory olfactory system, or AOS. This system begins in the nose in a small blind-ended tube called the vomeronasal organ (VNO), which sends information from the periphery into the first AOS neural circuit – the accessory olfactory bulb (AOB).
The AOB is a very compact (less than 1 cubic millimeter) neural circuit that contains at least four distinct types of neurons. However, we know relatively little about the specific connections between these neurons, and even less about how they “sculpt” the information coming into the circuit. Despite its small size, disruptions in this circuit cause profound changes in animal social and reproductive behavior. Recent innovations have allowed us to pursue more systematic exploration of the AOB and its various neurons.
It is our goal to use new tools and ideas to establish a comprehensive description of the computations performed by the AOB and, ultimately, determine how those computations impact on animal behavior.
Julian P. Meeks, Ph.D.
Principal Investigator
Projects
Information processing the accessory olfactory bulb
Experience-dependent neuroplasticity in chemosensory circuits
Chemosensation and social learning
Mechanisms of excreted steroid detection
Discovery of bile acid receptors
Publications
View All Publications- Combinatorial responsiveness of chemosensory neurons in mouse explants revealed by DynamicNeuroTracker.; Cell reports methods. 2025 Nov 03.
- SpinalTRAQ: A novel pipeline for volumetric cervical spinal cord analysis identifies the corticospinal tract synaptic projectome in healthy and post-stroke mice.; eNeuro. 2025 Sep 02.
- Spontaneous pathology in PS19 tauopathy mice progresses via brain networks.; Neurobiology of disease. 2025 Aug 29.
- Development of a modified weight-drop apparatus for closed-skull, repetitive mild traumatic brain injuries in a mouse model.; bioRxiv : the preprint server for biology. 2025 Jul 31.