nk-2761 and 3-3--dioctadecylindocarbocyanine

nk-2761 has been researched along with 3-3--dioctadecylindocarbocyanine* in 1 studies

Other Studies

1 other study(ies) available for nk-2761 and 3-3--dioctadecylindocarbocyanine

ArticleYear
Optical mapping reveals the functional organization of the trigeminal nuclei in the chick embryo.
    Neuroscience, 1999, Volume: 93, Issue:2

    The functional organization of the trigeminal nuclei during embryogenesis was investigated using multiple-site optical recording with a fast voltage-sensitive dye. Brainstem preparations with three classified trigeminal nerve afferents, the ophthalmic, maxillary and mandibular nerves, together with motor nerve fibers, were dissected from five- to eight-day-old chick embryos. Electrical responses evoked by trigeminal nerve stimulations were optically recorded simultaneously from many loci of the stained preparations. We identified three response areas related to the trigeminal nerve: area I, located cephalic to the level of the trigeminal ganglion; area II, located caudal to the level of the trigeminal ganglion; and area III, located at the level of the trigeminal root. The neural responses in areas I and II were evoked by ophthalmic, maxillary or mandibular nerve stimulation, while the responses in area III were detected when the stimulation was applied to the trigeminal motor nerve. In comparison with the morphology indicated by DiI labeling, the results suggest that areas I, II and III correspond to the principal sensory nucleus of the trigeminal nerve, the spinal sensory nucleus of the trigeminal nerve and the trigeminal motor nucleus, respectively. We identified two components of the optical response: a fast and a slow signal. In five-day-old preparations, fast spike-like signals related to action potentials were recorded from the three response areas. In six-day-old preparations, slow optical signals which reflect glutamate-mediated excitatory postsynaptic potentials were detected from area II only when the ophthalmic nerve was stimulated: no slow signal was evoked by maxillary or mandibular nerve stimulation. In seven- and eight-day-old preparations, slow signals were detected from both areas I and II with every nerve stimulation. These results suggest that synaptic function is first generated in the spinal trigeminal nucleus by the six-day embryonic stage, and the developmental organization of synaptic function is not the same in the three trigeminal nerves or in the two sensory nuclei. Contour line maps of the signal amplitude revealed that the size and the area of the neural responses within the trigeminal nuclei changed dramatically with development. We compared the spatial distribution and temporal dynamics of the optical signals between the ophthalmic, maxillary and mandibular nerve stimulations, and we found that somatotopic organization is l

    Topics: 6-Cyano-7-nitroquinoxaline-2,3-dione; Animals; Brain Mapping; Cadmium; Calcium; Carbocyanines; Chick Embryo; Coloring Agents; Electric Stimulation; Electrophysiology; Excitatory Amino Acid Antagonists; Motor Neurons; Neurons; Ophthalmic Nerve; Rhodanine; Synaptic Transmission; Thiazolidines; Trigeminal Nuclei; Valine

1999