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Pre-Linnaeus

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Bibliography of Biological Literature: K

Kalashnikov, VZ., 1989. Distribution of holothurians in coastal waters of Southern Vietnam. Pp. 61-72. In: BIOLOGIYA PRIBREZHNYKH VOD VETNAMA. DONNYE BESPOZVONOCHNYE YUZHNOGO VETNAMA. Biology of the coastal waters of Vietnam. Benthic invertebrates of southern Vietnam., (Zhirmunsky, AV., Le Trang, P., eds.). 116 pps.

Kalayani, GA., Kakiani, HK., & Hukeri, VI., 1988. Holothurin – A Review. Indian Journal natural Products. 4(2): 3-8.

Kalinin, VI., 1992. Morphological trends in evolution of the holothurian triterpene glycosides (Holothurioidea, Echinodermata). Zhurnal Obshchei Biologii. 53: 672-688.

Kalinin, VI., 2000. System-theoretical (holistic) approach to the modelling of structural-functional relationships of biomolecules and their evolution: an example of triterpene glycosides from sea cucumbers (Echinodermata, Holothurioidea). Journal Theoretical Biology. 206: 151-168.

Kalinin, VI., Anisimov, MM., Prokofieva, NG., Avilov, SA., Afiyatullov, SS., & Stonik, VA., 1996. Biological activities and biological role of triterpene glycosides from holothuroids (Echinodermata). Pp. 139-181. In ECHINODERM STUDIES V. (Jangoux, M., & Lawrence, JM., eds.). Balkema Press, Rotterdam. 354 pps.

Kalinin, VI., Avilov, SA., Kalinina, EY., Korolkova, OG., Kalinovsky, AI., Stonik, VA., Riguera, R.,& Jimenez, C., 1997. Structure of eximisoside A, a novel triterpene glycoside from the Far-Eastern sea cucumber Psolus eximius. Journal Natural Products. 60: 817-819.

Kalinin, VI., Avilov, SA., Kalinovsky, AI., Stonik, VA., Milgrom, YM., & Rashkes, YV., 1992. Cucumarioside G4 - a novel triterpene glycoside from holothurian Eupentacta fraudatrix. Khimiya Prirodnykh Soedinenii. 6: 691-694

Kalinin, V.I., Kalinovskii, A.I., Stonik, V.A., Dmitrenok, P.S., Elkin, Y.N., 1989. The structure of a nonholostean triterpene glycoside from the holothurian genus Psolus. Khimiya Prirodnykh Soedinenii. 1989: 361-368, 445.

Kalinin, VI., Malyutin, AN., Stonik, VA., 1986. Caudinosid A - a new triterpene glycosid from the Holothuria Paracaudina ronsonetii. Khimiya Prirodnykh Soedinenii. 1986: 378-379.

Kalinin, VI., Prokofieva, NG., Likhatskaya, GN., Schentsova, EB., Agafonova, IG., Avilov, S.A., & Drozdova, OA., 1996. Hemolytic activities of triterpene glycosides from the holothurian order Dendrochirotida: some trends in the evolution of this group of toxins. Toxicon. 34: 475-483.

Kalinin, VI., Stonik, VA., & Avilov, SA., 1990. Homological variability and the trend of evolution of triterpene glycosides in Holothurioidea. Zhurnal Obshchei Biologii. 51: 247-260.

Kalinin, VI., Stonik, VA., Kalinovskii, AI., & Isakov, VV., 1989. The structure of pseudostichopuside A - a basic triterpene glycoside from the holothuria Pseudostichopus trachus. Khimiya Prirodnykh Soedinenii. 1989: 678-684, 738.

Kalinin, VI., Silchenko, AS., Avilov, SA., Stonik, VA., & Smirnov, AV., 2005. Sea Cucumber’s Triterpene Glycosides, the Recent Progress in Structural Elucidation and Chemotaxonomy. Phytochemistry Reviews. 4(2-3): 221-236.

Kalinovskay, NI., Kuznetsova, TA., Popov, AM., Antonov, SA., & Elyakov, GB., 1983. Steroid metabolites of the far eastern holothurian Stichopus japonicus Selenka. Comparative Biochemistry Physiology B. 76: 167-171.

Kalinovskaya, NI., Kuznetsova, TA., Afiyatullov, SS., & Elyakov, GB., 1986. Basic steroid spirit from Pacific Ocean holothurid Cucumaria fraudatrix. Khimiya Prirodnykh Soedinenii. 1986: 185-187, 259.

Kalinovskaya, NI., Kuznetsova, TA., & Elyakov, GB., 1983. Sterol composition of the Pacific holothurian Stichopus japonicus Selenka. Comparative Biochemistry Physiology B. 74: 597-601.

Kanatani, H., & Nagahama, Y., 1983. Echinodermata. Pp. 611-654. In: REPRODUCTIVE BIOLOGY OF INVERTEBRATES VOLUME 1: OOGENESIS, OVIPOSITION, AND OOSORPTION. KG (Adiyodi, KG., & Adiyodi, RG., eds.). Wiley Intersciences, Chichester.

Kaneko, K., Imao, K., Yoneda, Y., Kitade, H., Sakagama, Y., & Sakamoto, W., 2004. Food consumption and absorption efficiency in the sea cucumber Apostichopus japonicus. Benthos Research. 59: 45-52.

Kaneko, M., Kisa, F., Yamada, K., Miyamoto, T., & Higuchi, R., 1999. Constituents of Holothuroidea, 8. Structure of a neuritogenic active ganglioside from the sea cucumber Stichopus japonicus. European Journal Organic Chemistry. 11: 3171-3174.

Kaneko, M., Kisa, F., Yamada, K., Miyamoto, T., & Higuchi, R., 2003. Structure of a new neuritogenic-active ganglioside from the sea cucumber Stichopus japonicus. European Journal Organic Chemistry. 6: 1004-1008.

Kaneniwa, M., Itabashi, Y., Endo, S., & Takagi, T., 1986. Fatty acids in Holothuroidea: occurrence of cis-14-tricosenic acid. Comparative Biochemistry Physiology B. 84: 451-455.

Kan-no, M., & Kijima, A., 2002. Quantitative and qualitative evaluation on the color variation of the Japanese sea cucumber Stichopus japonicus. Suisan Zoshoku. 50: 63-69.

Kan-No, M., & Kijima, A., 2003. Genetic differentiation among three color variants of Japanese sea cucumber Stichopus japonicus. Fisheries Science, Liaoning. 69: 806-812.

Kanno, M., Li, Q., & Kijima, A., 2005. Isolation and characterization of twenty microsatellite loci in Japanese sea cucumber (Stichopus japonicus). Marine Biotechnology. 7: 179-183.

Karaseva, EM., & Khotimchenko, YS., 1995. Effect of compounds elevating cyclic nucleotide levels on dithiothreitol-induced oocyte maturation in the holothurian Stichopus japonicus. Comparative Biochemistry Physiology C. 111: 441-444.

Karaseva, EM., Vashchenko, MA., & Zhadan, PM., 1995. The role of cyclic nucleotides in the control of dithiothreitol-induced maturation of holothurian oocytes. Ontogenez. 26: 248-253.

Kariya, Y., Watabe, S., Hashimoto, K., & Yoshida, K., 1990. Occurrence of chondroitin sulfate E in glycosaminoglycan isolated from the body wall of sea cucumber Stichopus japonicus. Journal Biological Chemistry. 265: 5081-5085.

Kariya, Y., Watabe, S., Ochiai, Y., Hashimoto, K., & Murata, K., 1990. Glycosaminoglycan from the body wall of the sea cucumber Stichopus japonicus. Comparative Biochemistry Physiology B. 95: 387-392.

Kariya, Y., Watabe, S., Ochiai, Y., Murata, K., & Hashimoto, K., 1990. Glycosaminoglycan involved in the cation-induced change of body wall structure in the sea cucumber Stichopus japonicus. Connective Tissue Research. 25: 149-159.

Kariya, Y., Watabe, S., Ochiai, Y., Srikantha, K., Hashimoto, K., & Murata, K., 1986. Changes in toughness and ultrastructure of the body wall from sea cucumber Stichopus japonicus in association with acidic glycosamino-glycan. Connective Tissue. 18: 312-313, 344.

Karp, RD., & Coffaro, KA., 1982. Cellular defense systems of the Echinodermata. Pp. 257-282. In: THE RETICULOENDOTHELIAL SYSTEM. VOLUME 3. (Cohen, N., & Sigel, MM., eds.). Plenum Press, New York. 757 pps.

Kashenko, SD., 1992. Influence of freshening of water on early development stages of the Japanese sea cucumber Stichopus japonicus. Biologiya Morya. 1992: 43-52.

Kashenko SD., 1992. Effect of desalination on development of far-eastern trepang. Biologiya Morya. 1992: 93-99.

Kashenko, SD., 1997. Effects of salinity acclimation of the sea cucumber Stichopus japonicus on the adaptive capabilities of its different stages of development. Biologiya Morya. 23: 93-100.

Kashenko, SD., 1998. The effect of temperature and salinity on early development of the sea cucumber Stichopus japonicus. Biologiya Morya. 24: 103-107.

Kashenko, SD., 2000. Effect of acclimation to reduced salinity of blastulas and gastrulas of the sea cucumber Apostichopus japonicus on resistance to desalination at subsequent developmental stages. Biologiya Morya. 26: 400-404.

Kashenko, SD., 2000. Combined effect of temperature and salinity on development of the holothurian Eupentacta fraudatrix. Biologiya Morya. 26: 182-187.

Kaswandi, MA., Goad, LJ., Hkycko, S., Garneau, FX., Balanger, J., & Apsimon, JW., 1987. The sterols of the sea cucumber Psolus phantapus. Comparative Biochemistry Physiology. 86(B): 191-192

Kasyanov, VL., 1981. Reproductive strategies and reproductive cycles of bivalves and echinoderms of the Sea of Japan. Pp. 166-171. In: GENETICS AND REPRODUCTION OF MARINE ORGANISMS. PROCEEDINGS OF THE 14TH PACIFIC SCIENCE CONGRESS.

Kasyanov, VL., 1985. Gonadal development in Cucumaria fraudatrix (Holothurioidea). Zoologicheskii Zhurnal. 64: 1107-1109.

Kasyanov, VL., Kryuchkova, GA., Kulikova, VA., & Medvedeva, LA., 1998. LARVAE OF MARINE BIVALVES AND ECHINODERMS. (Kasianov, VL., & Pawson, DL., eds.). Science Publishers. 288 pps.

Kasyanov, VL., Kukin, AF., Medvedeva, LA., & Yakovlev, YM., 1976. Spawning seasons and gonadal changes of common species of bivalves and echinoderms from the Vostok Bay (Sea of Japan) during summer periods. Sbornik Rabot Institut Biologii Morya. 1976: 157-167.

Kato, A., & Hirata, H., 1990. Effects of water temperature on the circadian rhythm of the sea-cucumber, Stichopus japonicus in culture. Suisan Zoshoku. 38: 75-80.

Kato, M., 1998. Morphological and ecological adaptations in montacutid bivalves endo- and ecto-symbiotic with holothurians. Canadian Journal Zoology. 76: 1,403-1,410.

Katona, F., & Wollemann, M., 1963. The effect of phenothiazines on some invertebrate animals. Acta Biologica Hungarita Academy Science. Suppl. 5: 45.

Katzman, RL., Bhattacharyya, AK., & Jeanloz, RW., 1969. Invertebrate connective tissue.1. The amino acid and carbohydrate composition of the collagen from Thyone briareus. Biochimica Biophysica Acta. 184: 523-528.

Katzman, RL., & Jeanloz, RW., 1973. Thyonatan 4-sulfate [1-2-LP-L-fucopyranan 4-sulfate]. A sulfated polysaccharide from Thyone briareus connective tissue. Journal Biological Chemistry. 248: 50-55.

Kaufmann, RS., & Smith, KL., Jr., 1997. Activity patterns of mobile epibenthic megafauna at an abyssal site in the eastern North Pacific: results from a 17-month time-lapse photographic study. Deep-Sea Research Part I Oceanographic Research. Papers. 44: 559-579.

Kawaguti, S., 1964. Electron microscopy on the intestinal wall of the sea-cucumber with special attention to its muscle and nerve plexus. Biological Journal Okayama University. 10: 39-50.

Kawaguti, S., 1966. Electron microscopy on the body wall of the sea-cucumber with special attentions to its mucous cells. Biological Journal Okayama University. 12: 35-45.

Kawaguti, S., & Ikemoto, N., 1967. Electron microscopy on the longitudinal muscle of the sea cucumber. Molecular Biology Muscle Contraction. 9: 124-131

Kawamoto, N., 1927. The anatomy of Caudina chilensis (J. Muller) with especial reference to the perivisceral cavity, the blood and the water vascular systems in their relation to the blood circulation. Science Reports Tohoku University. 2: 239-264.

Kawamoto, N., 1928. Oxygen capacity of the blood of certain invertebrates which contain haemoglobin. Science Reports Tohoku University 3: 561-575.

Kazakov, VI., & Kazakova, EA., 1999. The structure of Alu-like DNA repeats in the genome of Echinodermata. Tsitologiya. 41: 537-539.

Ke, PJ., Cervantes, E., Smith-Lall, B., & Hirtle, RW., 1983. Freshness preservation of Canadian Atlantic crab (Chionoecetes opilio), scallop (Placopecten magellanicus), squid (Illex illecebrosus) and sea cucumber (Cucumaria frondosa). Can. Ind. Rep. Fish. Aquat. Sci. No:138. Fisheries and Oceans Canada, Halifax, Nova Scotia.

Ke, PJ., Smith-Lall, B., Hirtle, RW., & Kramer, DE., 1987. Technical Studies on resource utilization of Atlantic Sea Cucumber (Cucumaria frondosa). Canadian Institute Food Science Technology Journal. 20(1):4-8.

Keckes, S., 1966. Lunar periodicity in sea cucumbers. Zeitschrift Naturforschung. 21: 1100-1101.

Keesing, JK., Cartwright, CM., & Hall, KC. 1993. Measuring settlement intensity of echinoderms on coral reefs. Marine Biology. 117: 399–407.

Keesing, J., Uthicke, S., McShane, P., Andrew, N., Zacharin, W., Gorfine, H., Alma, M., Ramm, D., & Joll, L. 1998. A review of the status of echinoderm fisheries in Australia and New Zealand. Pp. 44. In: ECHINODERMS: SAN FRANCISCO. PROCEEDINGS OF THE NINTH INTERNATIONAL ECHINODERM CONFERENCE, SAN FRANCISCO, CALIFORNIA, USA, 5-9 AUGUST 1996. (Mooi, R., & Telford, M., eds.) Balkema Press, Rotterdam. 923 pps.

Kerr, RG., & Chen, Z., 1995. In vivo and in vitro biosynthesis of saponins in sea cucumbers. Journal Natural Products. 58: 172-176.

Kerrick, WGL., & Bolles, LL., 1983. Evidence that myosin light chain phosphorylation regulates contraction in the body wall muscles of the sea cucumber. Journal Cellular Physiology. 112: 307-315.

Khotimchenko, YS., 1991. Biogenic monoamines in oocytes of echinoderms and bivalve molluscs. A formation of intracellular regulatory systems in oogenesis. Comparative Biochemistry Physiology C. 100: 671-675.

Khotimchenko, YS., Deridovich, II., & Voronova, GP., 1988. Gonad innervation in echinoderms. Biologiya Morya. 1988: 51-58.

Khotimchenko, YS., Deridovich, II., Zalutskaya, EA., 1985. Spectrofluorometric determination of indolylalkylamines in gonads of echinoderms. Comparative Biochemistry Physiology C. 81: 457-459.

Khotimchenko, YS., Deridovich, II., & Zalutskaya, EA., 1986. Identification of biogenic monoamines in sex glands of echinoderms and bivalve molluscs. Biologiya Morya. 1986: 52-57.

Khripounoff, A., & Sibuet, M., 1980. La nutrition d'echinodermes abyssaux. 1. Alimentation des holothuries. Marine Biology. 60: 17-26.

Kikuchi, T., 1937. A larva collecting device used in a sea cucumber propagating operation. Suisan Kenkyu Shi. 32: 495-498.

Kille, FR., 1931. Induced Autotomy in Thyone. Science. 74: 396-397.

Kille, FR., 1935. Regeneration in Thyone briareus following induced autotomy. Biological Bulletin. 69: 82-108.

Kille, FR., 1937. Regernation of the gonad tubules in Thyone briareus Lesueur following extripation. Biological Bulletin. 76: 70-79.

Kille, FR., 1939. Regeneration in Holothurians. Yearbook Carnegie Instution, Washington. 36: 85-86.

Kille, FR., 1942. Regenration of the reproductive system following binary fission in the sea cucumber Holothuria parvula (Selenka). Biological Bulletin. 83: 55-66.

Kincaid, T., 1964. A gastropod parasitic on the holothurian Parastichopus californicus (Stimpson). Transactions American Microscopical Society. 83: 373-376.

Kinch, J., 2002. Overview of the bêche-de-mer fishery in Milne Bay Province, Papua New Guinea. SPC Bêche-de-mer Information Bulletin. 17: 2-16.

Kinch, J., 2005. The commercial use of Thelenota rubralineata in the Solomon Islands. SPC Bêche-de-mer Information Bulletin. 21: 3-4.

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Kirkegaard, JB., & Billett, D., 1980. Eunoe laetmogonensis, a new species of polynoid worm, commensal with the bathyal holothurian Laetmogone violacea, in the north east Atlantic. Steenstrupia. 6: 101-109.

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Kishimoto, T., & Kanatani, H., 1980. Induction & oocyte maturation by disulfide-reducing agent in the sea cucumber Stichopus japonicus. Development Growth & Differentiation. 22: 163-167.

Kishimoto, T., Kuriyama, R., Kondo, H., & Kanatani, H., 1982. Generality of the action of various maturation-promoting factors. Experimental Cell Research. 137: 121-126.

Kishinouye, K., 1894. Note on the development of a Holothurian spicule. Zoologischer Anzeiger. 17: 146-147.

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Kitao, Y., 1935. On the structure of anus of a Holothurian, Caudina chilensis (J. Müller). Science Reports Tohoku University. (4) 9: 447-453.

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Koob-Emunds, MM., Trotter, JA., & Koob, TJ., 2000. Factors from sea cucumber (Cucumaria frondosa) dermis affecting collagen fibril aggregation. Bulletin Mount Desert Island Biological Laboratory. 39: 116-119.

Koob-Emunds, MM., Trotter, JA., & Koob, TJ., 2001. Cell culture from sea cucumber (Cucumaria frondosa) dermis. Bulletin Mount Desert Island Biological Laboratory. 40: 40-43.

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Kostetskii, EY., Sanina, NM., & Naumenko, NV., 1992. The influence of fatty acid composition on the structure of thermogram - phase transition of phosphatidylcholine from the holothurian Cucumaria fraudatrix. Journal Evolutionary Biochemistry Physiology. 28: 426-433.

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Kozloff, EN., & Shinn, GL., 1987. Wahlia pulchella n. sp., a turbellarian flatworm (Neorhabdocoela: Umagillidae) from the intestine of the sea cucumber Stichopus californicus. Journal Parasitology. 73: 194-202.

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