Mitchell Roitman
Affiliations: | Neuroscience | University of Illinois at Chicago, Chicago, IL, United States |
Area:
Psychobiology PsychologyGoogle:
"Mitchell Roitman"Mean distance: 106866
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Publications
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| Bansal P, Roitman MF, Jung EE. (2024) Modulation of locomotion and motor neuron response by the cohesive effect of acute and chronic feeding states and acute d-amphetamine treatment in zebrafish larvae. Biorxiv : the Preprint Server For Biology |
| Gordon-Fennell A, Barbakh JM, Utley MT, et al. (2023) An open-source platform for head-fixed operant and consummatory behavior. Elife. 12 |
| Geisler CE, Decarie-Spain L, Loh MK, et al. (2023) Amylin modulates a VTA to mPFC circuit to suppress food intake and impulsive food-directed behavior. Biological Psychiatry |
| Bansal P, Roitman MF, Jung EE. (2023) Caloric state modulates locomotion, heart rate and motor neuron responses to acute administration of d-amphetamine in zebrafish larvae. Physiology & Behavior. 264: 114144 |
| Duriez A, Bergerot C, Cone JJ, et al. (2023) Homeostatic Reinforcement Theory Accounts for Sodium Appetitive State- and Taste-Dependent Dopamine Responding. Nutrients. 15 |
| Gordon-Fennell A, Barbakh JM, Utley M, et al. (2023) An Open-Source Platform for Head-Fixed Operant and Consummatory Behavior. Biorxiv : the Preprint Server For Biology |
| Hsu TM, Bazzino P, Hurh SJ, et al. (2020) Thirst recruits phasic dopamine signaling through subfornical organ neurons. Proceedings of the National Academy of Sciences of the United States of America |
| Liu CM, Hsu TM, Suarez AN, et al. (2020) Central oxytocin signaling inhibits food reward-motivated behaviors and VTA dopamine responses to food-predictive cues in male rats. Hormones and Behavior. 104855 |
| Konanur VR, Hsu TM, Kanoski SE, et al. (2019) Phasic dopamine responses to a food-predictive cue are suppressed by the glucagon-like peptide-1 receptor agonist Exendin-4. Physiology & Behavior. 112771 |
| Conway SM, Puttick D, Russell S, et al. (2019) Females are less sensitive than males to the motivational- and dopamine-suppressing effects of kappa opioid receptor activation. Neuropharmacology. 146: 231-241 |