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Brain Mediation of Anolis Social Dominance Displays

A mechanistic model of how acute changes in forebrain 5-HT output from baseline equilibrium, acting at 5- HT2C-like receptors, might effect some elements of the dominant vs. submissive male anoles’ territorial displays is offered.
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Brain mediation of Anolis social dominance displays. II. Differential forebrain serotonin turnover, and effects of specific 5-HT receptor agonists.

Serotonin (5-HT) functions are associated with social dominance status in diverse species, but to date the brain regions wherein 5-HT exerts such effects are uncertain. Here, we indexed 5-HT turnover
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Brain mediation of Anolis social dominance displays. I. Differential basal ganglia activation.

Male Anolis carolinensis is used with an in vivo 14C-2-deoxyglucose method to determine patterns of brain activation during elicitation of this animal's dominance displays vs. other behaviors, finding different BG subsystems seem involved in dominant vs. submissive display behaviors.
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Mammal-Like Striatal Functions in Anolis

In situ autoradiographic methods were used to determine the occurrence and distribution of pharmacologically mammal-like 5-HT 2A and 2C receptors in the lizard, Anolis carolinensis, and showed pharmacological binding specificity, and forebrain binding density distributions that resembled those reported for mammals.
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Mammal-Like Striatal Functions in Anolis

The crisp neuroanatomical separation between these classic BG subsystem markers in Anolis striatum make this species attractive for the study of such systems'' functions during behavior.
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Brain Mediation of Anolis Social Dominance Displays

Different BG subsystems seem involved in dominant vs. submissive display behaviors in male Anolis carolinensis, suggesting homologous brain systems might have similar functions in members of other amniote classes, including primates.
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Mammal-like striatal functions in Anolis. I. Distribution of serotonin receptor subtypes, and absence of striosome and matrix organization.

In situ autoradiographic methods were used to determine the occurrence and distribution of pharmacologically mammal-like 5- HT(2A) and 5-HT(2C) receptors in the lizard, Anolis carolinensis, with particular attention to the striatum.
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Mammal-like striatal functions in Anolis. II. Distribution of dopamine D(1) and D(2) receptors, and a laminar pattern of basal ganglia sub-systems.

The crisp neuroanatomical separation between these classic BG subsystem markers in Anolis striatum make this species attractive for the study of such systems' functions during behavior.
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21st Annual J.B. Johnston Club Meeting and 13th Annual Karger Workshop

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An investigation of the role of the hypothalamus in the reproductive cycle of the cat.

THOUGH the role of t h e h y p o t h a l a m u s in o v u l a t i o n is f a i r l y well u n d e r s t o o d in seve ra l species, 2,23,24,29 inc lud ing the cat,29,4s i n f o r m a t i o n r e g a
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