Summary
Both primary and secondary (tongue) bars of the pharyngeal gill basket are covered by epithelial cells that are continuous with the cells that line the atrium. Anterior and posterior faces of the gill bars are covered with lateral ciliated cells, which possess a single cilium, ringed by microvilli, and an elaborate basal mitochondria-rootlet apparatus. Pharyngeal faces of the gill bars are covered with ciliated pharyngeal cells, atrial faces by mucus secreting atrial cells. The surface epithelium rests on a stromal septum, a flattened tube of basal lamina which dilates to form the visceral blood vessel (along the pharyngeal face) and skeletal blood vessel (along the atrial face). This basal lamina surrounds paired skeletal rods which run through the longitudinal axis of the gill bars near the atrial face. Between the skeletal rods and atrial cells of primary gill bars is a coelomic channel lined by epithelioid coelomic cells. Neuronal processes, some with neurosecretory granules, are located among the bases of the atrial cells. Some axons may contact lateral ciliated cells where the latter meet atrial cells, but synaptoid endings have not been found here or elsewhere in the gill bars. Nervous tissue has not been identified among lateral ciliated cells even though ciliary activity of these cells is supposedly regulated by atrial nervous tissue.
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References
Aiello, E.; Factors affecting ciliary activity on the gill of the mussel Mytilus edulis. Physiol. Zool. 33, 120–135 (1960)
Aiello, E., Guideri, G.: Nervous control of ciliary activity. Science 146, 1692–1693 (1964)
Azariah, J.: Studies on the cephalochordates of the Madras coast. 15. The nature of the structural polysaccharide in amphioxus, Branchiostoma lanceolatum. Acta histochem. (Jena) 46, 10–17 (1973)
Barrington, E.J.W.: The digestive system of Amphioxus (Branchiostoma) lanceolatum. Phil. Trans. B 228, 269–312 (1937)
Barrington, E.J.W.: The biology of hemichordata and protochordata. San Francisco: W.H. Freeman and Co. 1965
Baskin, D.G.: Cell junctions in amphioxus epithelia. Amer. Zool. 15, 783 (1975)
Baskin, D.G., Detmers, P.A.: The rootlets of amphioxus ciliated cells. J. Cell Biol. 63, 16a (1974)
Bone, Q.: Nervous control of cilia in amphioxus (Branchiostoma). Nature (Lond.) 181, 193–194 (1958)
Bone, Q.: The organization of the atrial nervous system of Amphioxus (Branchiostoma lanceolatum [Pallas]). Phil. Trans. B 243, 241–269 (1960)
Carter, G.S.: On the nervous control of the velor cilia of the nudibranch veliger. J. exp. Biol. 4, 1–26 (1926)
Dilly, P.N.: The structure of the tentacles of Rhabdopleura compacta (Hemichordata) with special reference to neurociliary control. Z. Zellforsch. 129, 20–39 (1972)
Drach, P.: Embranchement des Cephalocordés. In: Traité de zoologie, XI. Échinodermes, stomochordés, procordés (P. Grassé eds.), p. 931–1037. Paris: Masson & Cie. 1948
Franz, V.: Morphologie der Akranier. Ergebn. Anat. Entwickl.-Gesch. 27, 464–568 (1927)
Holmes, W.: The atrial nervous system of Amphioxus (Branchiostoma). Quart. J. micr. Sci. 94, 523–535 (1953)
Horridge, G.A.: Relations between nerves and cilia in ctenophores. Amer. Zool. 5, 357–375 (1965)
Horridge, G.A., Mackay, B.: Neurociliary synapses in Pleurobrachia (Ctenophora). Quart. J. micr. Sci. 105, 163–174 (1964)
Kinosita, H., Murikami, A.: Control of ciliary motion. Physiol. Rev. 47, 53–82 (1967)
Kordik, P., Bülbring, E., Burn, J.H.: Ciliary movement and acetyl choline. Brit. J. Pharmacol. 7, 67–79 (1952)
Lucas, A.M.: Neurogenous activation of ciliated epithelium. Amer. J. Physiol. 112, 468–476 (1935)
Lyons, K.M.: Evolutionary implications of collar cell ectoderm in a coral planula. Nature (Lond.) 245, 50–51 (1973)
Mackie, G.O., Paul, D.H., Singula, C.M., Sleigh, M.A., Williams, D.E.: Branchial innervation and ciliary control in the ascidian Corella. Proc. roy. Soc. B 187, 1–35 (1974)
Moller, P.C., Philpott, C.W.: The circulatory system of Amphioxus (Branchiostoma floridae). I. Morphology of the major vessels of the pharyngeal area. J. Morph. 139, 389–406 (1973)
Nelson, T.C.: Nervous control of lateral cilia in the gill of young spat of the oyster, Ostrea virginica G. Melin. Anat. Rec. 111, 160 (1951)
Orton, J.H.: The ciliary mechanisms on the gill and the mode of feeding in amphioxus, ascidians, and Solenomya togata. J. Mar. Biol. Ass. U.K. 10, 19–49 (1913)
Paparo, A.: Innervation of the lateral cilia in the mussel, Mytilus edulis L. Biol. Bull. 143, 592–604 (1972)
Paparo, A., Aiello, E.: Cilio-inhibitory effects of branchial nerve stimulation in the mussel Mytilus edulis. Comp. gen. Pharmacol. 1, 241–250 (1970)
Scharrer, B.: General principles of neuroendocrine communication. In: The neurosciences. Second study program (F.O. Schmitt, eds.), p. 519–529. New York: Rockefeller University Press 1970
Seo, A.: Studies on the nervous regulation of the ciliary movement. Jap. J. med. Sci. Trans. Abstr. (Biophys.) 2, 47–75 (1931)
Sleigh, M.A.: Coordination of the rhythm of beat in some ciliary systems. Int. Rev. Cytology 25, 31–54 (1969)
Welsch, U.: Beobachtungen über die Feinstruktur der Haut und des äußeren Atrialepithels von Branchiostoma lanceolatum Pall. Z. Zellforsch. 88, 565–575 (1968)
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Supported by a Cottrell College Science Program Grant from Research Corporation. We thank Nancy Kelly and Gerhard Ott for excellent technical assistance and are grateful for the facilities provided by the Department of Zoology and Seaver Science Center, Pomona College.
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Baskin, D.G., Detmers, P.A. Electron microscopic study on the gill bars of amphioxus (Brachiostoma californiense) with special reference to Neurociliary control. Cell Tissue Res. 166, 167–178 (1976). https://doi.org/10.1007/BF00227038
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DOI: https://doi.org/10.1007/BF00227038