cranial-nerve components in the toadfish (Ospanus tau)
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cranial-nerve components in the toadfish (Ospanus tau)

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Published by The Wistar institute press in [Philadelphia .
Written in English

Subjects:

  • Nerves, Cranial.,
  • Toadfishes.,
  • Fishes -- Anatomy.

Book details:

Edition Notes

Statementby David Schultz Pankratz.
Classifications
LC ClassificationsQL937 .P3 1929
The Physical Object
Pagination1 p. l., p. 247-280.
Number of Pages280
ID Numbers
Open LibraryOL6773351M
LC Control Number32010830
OCLC/WorldCa5429254

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Pankratz DS () The cranial-nerve components in the toadfish (Opsanus tau). J Comp Neurol – CrossRef Google Scholar Partridge B, Pitcher T () The sensory basis of fish schools: relative roles of lateral line and by: 1. The cranial nerves of Amblystoma tigrinum. The cranial‐nerve components in the toadfish (Opsanus tau) Article. The Wilder Quarter Century Book, y3. A group of excitatory motor neurons in the medial brainstem that send projections through the VIth cranial nerve to control the ipsilateral lateral rectus muscle. In addition, abducens interneurons send an excitatory projection across the midline to a subdivision of cells in the ipsilateral oculomotor nucleus, which project through the IIIrd. YU TAO LOO, " On projection fibres on the forebrain of the Vir- ginian opossum. JOSEPH ELDRIDGE MARKEE, Some specific vas- cular changes in the uterus of mammals." EMORY ROSS STRAUSER, " On the relation of changes in blood coagulability to protein shock." Kansas: DAVID SCHULTZ PANKRATZ, " The cranial nerve components of the toadfish (Opsanus tau).".

Abstract. It is impossible to discuss the organization and evolution of otic pathways in fishes without discussing their relationship to the lateral line system, as both systems have been claimed to possess a single phyletic origin (Ayers , Wilson and Mattocks , van Bergeijk , ) and terminate in the same primary medullar nuclei (Mayser , Herrick , Pearson , Larsell Cited by: Another thing most irises share is the presence of muscle. The majority of species have a narrow circular sphincter pupillae running circumferentially around the pupillary margin (Fig. 1, Fig. 2A and C), whose contraction decreases pupil species also have a radial dilator muscle between the sphincter muscle and the iris root that increases pupillary area on contraction (Fig. 1A Cited by: 5. Cell receptors are an important indication of diseased states in oncology and the study of their function is important in understanding neurological disorders. Classically the main drive to develop clinical PET was to map the presence and function of human neurological receptors. Numerous radioligands have been developed for the dopamine, 13–26 benzodiazepine, 27,28 opioid, 29– Teleost gills are innervated extrinsically by the facial (cranial nerve VII; innervates the pseudobranch which is absent in toadfish), glossopharyngeal (cranial nerve IX; innervates the first gill.

Tetrodotoxin is a quinazoline alkaloid that is a marine toxin isolated from fish such as puffer fish. It has been shown to exhibit potential neutotoxicity due to its ability to block voltage-gated sodium channels. It has a role as a voltage-gated sodium channel blocker, a neurotoxin, a marine metabolite, an animal metabolite and a bacterial metabolite.. It is a quinazoline alkaloid, an.   Underwater sounds 1 generated by human activities (e.g., Fig. 1) have the potential to affect aquatic animals much of the concern regarding man-made sound by regulators and others has focused upon effects on marine mammals, effects upon the vastly greater biomass of fishes and invertebrates, which provide food for the mammals (as well as for humans!), are also Cited by: A credit card is required to validate your free trial. You will not be charged during your free trial, and you can cancel at any time. If you decide not to cancel your membership, your service will continue at $ a week (billed annually at.   Central vestibular neurons receive substantial inputs from the contralateral labyrinth through inhibitory and excitatory brainstem commissural pathways. The functional organization of these pathways was studied by a multi-methodological approach in isolated frog whole brains. Retrogradely labeled vestibular commissural neurons were primarily located in the superior vestibular nucleus in Cited by: