Add to ORKGThe fine structure of the neuromuscular junctions in the body wall muscles of the earthworm 13 described. The segmental nerves send branches into the muscle layers. Axons in the nerve branches contain numerous synaptic vesicles and contact is established between these axons and muscle fibres or muscle tails; the latter may extend for a considerable distance from the muscle fibre. The cleft between the axolemma and sarcolemma is 85-120 nm wide and con-tains basement membrane material. At intervals small aggregations of electron-dense material are attached to the axonal membrane and synaptic vesicles are associated with these. The sarcolemma bears rather larger masses of dense material and is also specialized extracellularly
This thesis has investigated skeletal muscle fibers and neuromuscular junctions of the reptile Anoli...
The complete connectional map (connectome) of a neural circuit is essential for understanding its st...
The body-wall musculature of annelids is not organized into distinct bundles of muscle fibres as in ...
Neuromuscular transmission of excitation in invertebrates has been studied exten-sively by many inve...
Obliquely striated muscle fibres from the longitudinal and circular layers of the body wall of the e...
The longitudinal muscle of the earthworm is currently thought to consist of smooth-muscle fibres whi...
Nearly all information regarding nerve-muscle relationships in oligochaetes is derived from experime...
NEURO-MUSCULAR transmission was investigated in the earthworm, Lumbricus terrestris, by stimulating ...
The crustacean species Pacifastacus leniusculus and Gammarus pulex were investigated by electron mic...
The innervation of the intestinal wall in the teleosts Myoxocephalus and Pleuronectes was examined e...
An extensive monograph of electrophysiological and morphological studies of the invertebrate nervous...
The somatic muscle of the earthworm consists of longitudinal and circular muscle layers. Ultrastruct...
Hidaka et al. (1969 ft) have investigated neuromuscular transmission in the longi-tudinal muscle of ...
A preliminary electron microscope study of human neuromuscular junction is presented. The biopsy mat...
An electron microscope study of the innervation of smooth muscle of the guinea pig vas deferens was ...
This thesis has investigated skeletal muscle fibers and neuromuscular junctions of the reptile Anoli...
The complete connectional map (connectome) of a neural circuit is essential for understanding its st...
The body-wall musculature of annelids is not organized into distinct bundles of muscle fibres as in ...
Neuromuscular transmission of excitation in invertebrates has been studied exten-sively by many inve...
Obliquely striated muscle fibres from the longitudinal and circular layers of the body wall of the e...
The longitudinal muscle of the earthworm is currently thought to consist of smooth-muscle fibres whi...
Nearly all information regarding nerve-muscle relationships in oligochaetes is derived from experime...
NEURO-MUSCULAR transmission was investigated in the earthworm, Lumbricus terrestris, by stimulating ...
The crustacean species Pacifastacus leniusculus and Gammarus pulex were investigated by electron mic...
The innervation of the intestinal wall in the teleosts Myoxocephalus and Pleuronectes was examined e...
An extensive monograph of electrophysiological and morphological studies of the invertebrate nervous...
The somatic muscle of the earthworm consists of longitudinal and circular muscle layers. Ultrastruct...
Hidaka et al. (1969 ft) have investigated neuromuscular transmission in the longi-tudinal muscle of ...
A preliminary electron microscope study of human neuromuscular junction is presented. The biopsy mat...
An electron microscope study of the innervation of smooth muscle of the guinea pig vas deferens was ...
This thesis has investigated skeletal muscle fibers and neuromuscular junctions of the reptile Anoli...
The complete connectional map (connectome) of a neural circuit is essential for understanding its st...
The body-wall musculature of annelids is not organized into distinct bundles of muscle fibres as in ...