Hymenolepis microstoma

In the trematode F. hepatica as well as in the cestodes H. diminuta and Hymenolepis microstoma, malic enzyme is in fact not NAD but NADP-dependent, producing NADPH during the formation of pyruvate (Tielens... [Pg.393]

Cestodes differ from trematodes and nematodes in that the adults, with a few exceptions, occupy one type of habitat - the alimentary canal. Even the exceptions occur in sites related to the gut. Examples of some aberrant genera are Stilesia, Thysanosoma (bile ducts of sheep), Porogynia (bile ducts of guinea fowl), Atriotaenia (pancreatic ducts of Nasua), Progamotaenia and Hepatotaenia (bile ducts, gall bladder and liver of marsupials). Hymenolepis microstoma, which is found in the bile ducts of rodents, is widely used as a laboratory model (446). [Pg.35]

Table 5.1. End-products, nmol/g wet wt (means S.D.), of carbohydrate metabolism produced by Hymenolepis microstoma under different in vitro conditions. (Data from Rahman Met trick, 1982J... [Pg.78]

Inhibitor Hymenolepis diminuta Hymenolepis microstoma Taenia crassiceps larvae Calliobothrium verticillatum... [Pg.81]

Hymenolepis microstoma Lactate, succinate, Similar to aerobic with... [Pg.84]

Table 5.7. Characteristics of LDH o/Hymenolepis microstoma and H. diminuta. (Data from Pappas Schroeder, 1979)... [Pg.91]

Chowdhury, N. De Rycke, P. H. (1976). Qualitative distribution of neutral lipids and phospholipids in Hymenolepis microstoma from the cysticercoid to the egg producing adult. Zeitschrift fur Parasitenkunde, 50 151-60. [Pg.313]

Structure, formation, and functions of calcareous corpuscles in Hymenolepis microstoma. Zeitschrift fur Parasitenkunde, 53 159-69. [Pg.313]

Conway-Jones, P. B. Rothman, A. H. (1978). Hymenolepis microstoma, ultrastructural localization of adenyl cyclase in the tegument. Experimental Parasitology, 46 152-6. [Pg.314]

Evans, W. S. (1970). The in vitro cultivation of Hymenolepis microstoma from cysticercoid to egg-producing adult. Canadian Journal of Zoology, 48 1135-7. [Pg.317]

Evans, W. S. Novak, M. (1983). Growth and development of Hymenolepis microstoma in mice acclimated to different environmental temperatures. Canadian Journal of Zoology, 61 2899-903. [Pg.317]

Mitochondrial malate dehydrogenase, decarboxylating (malic enzyme) and transhydrogenase activities of adult Hymenolepis microstoma (Cestoda). Journal of Parasitology, 68 213-20. [Pg.318]

Jones, A. W. Tan, B. D. (1971). Effect of crowding upon growth and fecundity in the mouse bile tapeworm, Hymenolepis microstoma. Journal of Parasitology, 57 88-93. [Pg.328]

Litchford, R. G. (1963). Observations on Hymenolepis microstoma in three laboratory hosts Mesocricetus auratus, Mus musculus, and Rattus norvegicus. Journal of Parasitology, 49 403-10. [Pg.333]

Pappas, P. W. Schroeder, L. L. (1979). Hymenolepis microstoma lactate and malate dehydrogenases of the adult worm. Experimental Parasitology, 47 134-9. [Pg.345]

Rahman, M. S. Mettrick, D. F. (1982). Carbohydrate intermediary metabolism in Hymenolepis microstoma (Cestoda). International Journal for Parasitology, 12 155-62. [Pg.348]

Seidel, J. S. (1971). Hemin as a requirement in the development in vitro of Hymenolepis microstoma (Cestoda Cyclophyllidea). Journal of Parasitology, 57 566-70. [Pg.353]

Evidence for neurosecretory cells in the cestode Hymenolepis microstoma. Canadian Journal of Zoology, 55 1726-33. [Pg.365]

Webb, R. A. Davey, K. G. (1974). Ciliated sensory receptors of the unactivated metacestode of Hymenolepis microstoma. Tissue and Cell, 6 587-98. [Pg.365]

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