Stichopus japonicus

Korotchenko and coworkers detected PGs by TLC and bioassay in three sea cucumbers (Holothuroidea) Stichopus japonicus, Cucumaria fraudatrix, and C. japonica [189]. [Pg.176]

Kariya, Y., Watabe, S., Ochial, Y., Murata, K., and Hashimoto, K. (1990). Glycosaminoglycan involved in the cation-induced change of body wall structure of sea cucumber Stichopus japonicus. Connect. Tissue Res. 25,149-159. [Pg.27]

Li, J. Z. and Lian, E. C. (1988). Aggregation of human platelets by acidic mucopolysaccharide extracted from Stichopus japonicus Selenka. Thromb. Haemost. 59, 435-439. [Pg.27]

Suzuki, N., Kitazato, K., Takamatsu, J., and Saito, H. (1991). Antithrombotic and anticoagulant activity of depolymerized fragment of the glycosaminoglycan extracted from Stichopus japonicus Selenka. Thromb. Haemost. 65, 369-373. [Pg.28]

Ito, S. and Kitamura, H., Induction of larval metamorphosis in the sea cucumber Stichopus japonicus by periphitic diatoms, Hydrobiologia, 358, 281, 1997. [Pg.460]

Some triterpene glycosides from holothurians belonging to the family Stichopodidae show also antitumor activities [67, 60]. Holotoxin Al (33) from Apostichopus (=Stichopus) japonicus inhibited the growth of the solid form of Ehrlich tumor and Sarcoma-37 in mice on 37-65 and 13-53 %, respectively, at doses of 1.25 and 2.50 mg/kg. Triterpene glycosides from Holothuria forskali have cytotoxic activities against tumor cells [68]. [Pg.156]

The full details of the work on the antifungal glycosides, holotoxins A and of the sea cucumber Stichopus japonicus and their aglycones" have appeared. [Pg.136]

Y. Kariya, S. Watabe, M. Kyogashima, M. Ishihara, and T. Ishii, Structure of fucose branches in the glycosaminoglycan from the body wall of the sea cucumber Stichopus japonicus, Carbohydr. Res., 297 (1997) 273-279. [Pg.62]

ITO s and kitamura h (1998) Technical development in seed production of the Japanese sea cucumber, Stichopus japonicus. SPC Beche-de-mer Information Bulletin, 10, 24-28. [Pg.451]

KANG K H, KWON J Y and KIM Y M (2003) A beneficial coculture charm abalone Hali-otis discus hannai and sea cucumber Stichopus japonicus. Aquaculture, 216,87-93. [Pg.451]

KiSHiMOTO T and KANATANi H (1980) Induction of oocyte maturation by disulfide-reducing agent in the sea cucumber, Stichopus japonicus. Development Growth Differentiation, 22,163-167. [Pg.452]

ZHOU Y, YANG H, LIU s, YUAN X, MAO Y, LIU Y, XU X and ZHANG F (2006) Feeding and growth on bivalve biodeposits by the deposit feeder Stichopus japonicus Selenka (Echinodermata Holothuroidea) co-cultured in lantern nets. Aquaculture, 256, 510-520. [Pg.454]

SPECTRAL data IR, PMR organism Stichopus japonicus Selenka (Echinodermata) reference 115,408... [Pg.111]

C Acetate, 221-223°C Diacetate, 212-216°C solvent MeOH UV, IR, PMR, Mass Spec organism Stichopus chloronotus Brandt and Stichopus japonicus Selenka (Echinodermata) reference 115,238,408... [Pg.113]

ORGANISM Actinopyga agassizi, Stichopus Japonicus Selenka, and Holothuria tabulosa (Echinodermata) reference 22, 76, 79, 116, 170... [Pg.126]

Constit. of Holotoxin A and B, isol. from sea cucumber Stichopus japonicus. [Pg.555]

S. J., 2010b. Microwave freeze drying of sea cucumber Stichopus japonicus).]. Food Eng. 96 491-497. [Pg.342]

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