stomatogastric ganglion

STG

The stomatogastric ganglion (STG) consists of about 30 neurons that form two central pattern generator circuits in crustaceans. STG neurons have large soma (~50-100 um) and have complex branches. The STG contains the motor neurons that innervate the striated muscles that move the gastric mill and pyloric regions of the stomach.

Typ Muscle
Übergeordnete Struktur organ system subdivision
Lateinischer Name STG

Häufig gestellte Fragen

What is the stomatogastric ganglion?
The stomatogastric ganglion (STG) is a small neuronal structure in crustaceans containing approximately 30 neurons that form two central pattern generator circuits: the gastric mill circuit and the pyloric circuit. The STG controls the striated muscles of the gastric mill and pyloric regions of the crustacean stomach and is a major model system in the study of neural circuit function and neuromodulation.
Where is the stomatogastric ganglion located?
In crustaceans such as Cancer borealis and Homarus americanus, the stomatogastric ganglion is located on the dorsal surface of the foregut (stomach), within the stomatogastric nervous system. It receives input via the stomatogastric nerve from the paired commissural ganglia and sends motor output through the ventricular nerves to the stomach muscles.
What is the function of the stomatogastric ganglion?
The stomatogastric ganglion is involved in generating and coordinating the rhythmic motor patterns that drive the movements of the gastric mill and pyloric stomach in crustaceans. Its ~30 neurons form two central pattern generators that produce the gastric mill rhythm for food grinding and the pyloric rhythm for food filtering, under the influence of extensive neuromodulatory input.
What conditions may affect the stomatogastric ganglion?
In experimental contexts, isolation from modulatory input—by stomatogastric nerve transection—may be associated with quiescence of the gastric mill circuit and stereotyping of the pyloric rhythm. Pharmacological application of amines, peptides, and other neuromodulators to the STG is associated with diverse changes in circuit output. Temperature changes and ionic manipulation are also associated with altered STG activity.
How is the stomatogastric ganglion examined?
The STG is extensively studied using electrophysiological techniques in semi-intact and dissected preparations. Intracellular sharp electrode and patch-clamp recordings allow characterization of individual neuron properties. Extracellular suction electrode recordings from ventricular nerves monitor circuit output. Immunohistochemistry and confocal microscopy reveal the expression of neurotransmitters, neuropeptides, and ion channels in STG neurons.

Verwandte Strukturen

mucus body coating mucous body coating mucus cocoon mucous cocoon Mullerian duct ductus paramesonephricus multi cell part structure cell part cluster multicellular anatomical structure multicellular structure multilaminar epithelium laminated epithelium multi-tissue structure multi-tissue structures multi-unit eye

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Data sources: Terminologia Anatomica, Foundational Model of Anatomy, Wikidata.