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Literature DB >> 6144420

Neuromuscular transmission in a primitive insect: modulation by octopamine, and catch-like tension.

Abstract

The third pair of legs of the primitive New Zealand orthopteran insect, the " weta ", has and innervation and muscle cell distribution exactly similar to that of locusts, but wetas do not jump. Neuromuscular transmission to the slow excitatory axon ( SETi ) is potentiated more than 10-fold by the natural modulator octopamine (OCT). A brief burst of SETi impulses following infusion of as little as 10(-8) M OCT is followed by a very long-lasting plateau of catch-like tension (CT). The plateau is abruptly relaxed by a single inhibitory impulse, or even by a single SETi impulse if this arrives no sooner than about 30 sec following excitation. CT is used by wetas in a defense posture. Locusts and grasshoppers have a different type of modulation by OCT.

Entities: Chemical

Mesh：

Substances：
Octopamine

Year: 1984 PMID： 6144420 DOI： 10.1016/0742-8413(84)90005-7

Source DB: PubMed Journal: Comp Biochem Physiol C ISSN： 0742-8413

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Cited

7 in total

1. Variability of motoneuron activation and the modulation of force production in a postural reflex of the hermit crab abdomen.

Authors: Jacob L Krans; William D Chapple
Journal: J Comp Physiol A Neuroethol Sens Neural Behav Physiol Date: 2005-07-01 Impact factor: 1.836

2. Characterization of Drosophila tyramine beta-hydroxylase gene and isolation of mutant flies lacking octopamine.

Authors: M Monastirioti; C E Linn; K White
Journal: J Neurosci Date: 1996-06-15 Impact factor: 6.167

Review 3. Invertebrate muscles: thin and thick filament structure; molecular basis of contraction and its regulation, catch and asynchronous muscle.

Authors: Scott L Hooper; Kevin H Hobbs; Jeffrey B Thuma
Journal: Prog Neurobiol Date: 2008-06-20 Impact factor: 11.685

Neuromuscular transmission in a primitive insect: modulation by octopamine, and catch-like tension.

1. Variability of motoneuron activation and the modulation of force production in a postural reflex of the hermit crab abdomen.

2. Characterization of Drosophila tyramine beta-hydroxylase gene and isolation of mutant flies lacking octopamine.

Review 3. Invertebrate muscles: thin and thick filament structure; molecular basis of contraction and its regulation, catch and asynchronous muscle.

4. Non-uniformity of sarcomere lengths can explain the 'catch-like' effect of arthropod muscle.

5. Regulation of excitation-contraction coupling at the Drosophila neuromuscular junction.

6. Octopamine immunoreactivity in the fruit fly Drosophila melanogaster.

Review 7. Inhibitory motoneurons in arthropod motor control: organisation, function, evolution.