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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The mitral cell in the olfactory bulb of the goldfish was examined by means of light microscopy, high-voltage electron microscopy, and conventional electron microscopy. Mitral cells are located rather diffusely throughout the glomerular and plexiform layers. They do not make their own discrete layer. The cell bodies are rounded or triangular, and are about 10-25 micrometers in diameter. In Golgi-impregnated material, thick cylindrical dendrites can be seen arising from the cell bodies and branching in the glomerular layer. Dendritic branches of some cells make two or more rather compact tufts, while the dendrites of other cells intermingle loosely with one another. In semithin and thin sections, darkly stained nodules appear to be scattered diffusely in the glomerular layer without clustering into discrete spheres, which are characteristic of the mammalian glomerulus. Hence, instead of the glomerulus, the "glomerular area" is defined as an area consisting of darkly stained nodules with rather pale granular regions surrounding them. Branches of mitral cell dendrites in the glomerular area consist of cylindrical shafts and irregular appendages arising from them. The shafts appear in the pale granular region and the appendages are found in the darkly stained nodules. Synapses can be found on all parts of the mitral cell: the soma, axon hillock, axon initial segment, thick dendritic stems, and dendritic branches. The abundance of synapses seems to vary considerably from part to part, and is highest on the dendritic branches in the glomerular area. The mitral cell is postsynaptic to olfactory nerve terminals and granule cell dendrites, and presynaptic to granule cell dendrites and some processes of unknown origin.
Olfactory nerve
terminals make
asymmetrical
synapses specifically on the appendages of the dendritic branches. Of the synapses on the shafts of the mitral cell dendritic branches in the glomerular area, 90% are with granule cell dendrites. Of the synapses between two different kinds of processes 30% are mitral-to-granule
asymmetrical
synapses, 20% are granule-to-mitral symmetrical synapses, and 50% are reciprocal pairs. Gap junctions and mixed synapses are also seen on branches of mitral cell dendrites. Features of the goldfish mitral cell are compared with those of the mammal. The differences in neuronal organization between the olfactory bulbs of teleosts and mammals are discussed.
...
PMID:Structure of the mitral cell in the olfactory bulb of the goldfish (Carassius auratus). 716 15
We have investigated the membrane properties and excitatory synaptic transmission of mitral cells in a slice preparation of rat olfactory bulb. In response to intracellular injection of depolarizing current, most mitral cells showed several distinct membrane properties: (1) delayed onset of firing (suggesting the presence of a type of potassium A current); (2) subthreshold oscillation of the membrane potential; and (3) repetitive firing of clustered action potentials during prolonged threshold stimulation.
Olfactory nerve
(ON) stimulation evoked a long-lasting EPSP in most of the mitral cells. This long EPSP was completely blocked by combined application of NMDA and non-NMDA receptor antagonists (20 microM CNQX and 100 microM APV), confirming that glutamate is the neurotransmitter at the synapses from ON to mitral cells. The ON-evoked EPSP was preceded by a prespike, which was resistant to membrane potential hyperpolarization at the soma. This fast prepotential may be indicative of an active response in the primary dendritic tufts of the mitral cells. Stimulation of the lateral olfactory tract evoked an antidromic pulse followed by a short EPSP, which could also be elicited independently of an antidromic spike in the recorded cell. Since the
asymmetrical
synapses so far observed on the mitral cells are all form the ON, this antidromically evoked EPSP may reflect self-excitation of a mitral cell by glutamate released from its own dendrites by antidromic impulse invasion, or/and lateral excitation by neighboring invaded dendrites.
...
PMID:Membrane and synaptic properties of mitral cells in slices of rat olfactory bulb. 903 9
