Immunolocalization of catecholamine enzymes, serotonin, dopamine and L-dopa in the brain of Dicentrarchus labrax (Teleostei)

TL;DR: The results indicate that reciprocal contacts between monoaminergic systems are abundant and complex and provide evidence of homologies to mammalian systems and allow identification of several previously uncharacterized systems in zebrafish mutants.

TL;DR: The main focus will be the adult brain of teleosts, in particular zebrafish, which is increasingly used as a model organism, and comparative studies including several vertebrate species will provide interesting insights into the evolution of this important neurotransmitter system.

TL;DR: The supposed chemical information taken up by the CSF-contacting neurons from the ventricular CSF may influence the function of these areas of the central nervous system.

TL;DR: The data provide the first complete account of catecholaminergic neurons in the zebrafish embryonic and juvenile brain, and identify four major th2‐expressing neuronal groups that likely use dopamine as transmitter in theZebrafish diencephalon.

TL;DR: The distribution of dopamine (DA) immunoreactivity in the forebrain and the midbrain of the lizard Gekko gecko was studied by using recently developed antibodies against DA to find dopamine‐containing cells in several parts of the periventricular hypothalamic nucleus.

TL;DR: The results suggest that the antibodies of L‐DOPA and DA antisera recognize preferentially the catechol moiety, whereas for the anti‐NA and anti‐OA antibodies, the lateral chain is important.

TL;DR: Results support the assumption that dopamine, originating from the preoptic region, may act as a gonadotrophin release-inhibiting factor in goldfish.