Защитные реакции пульмонат (Gastropoda)

Список литературы

1. Аванесян А. А. 2002. Влияние защитных реакций моллюсков на развитие партенит трематод (на примере семейства Echinostomatidae): Автореф. дис.. канд. биол. наук. СПб: СПбГУ, 18 с.
2. Алякринская И. О. 1970. Количественная характеристика гемолимфы и гемоглобина роговой катушки Planorbis corneus (Gastropoda, Pulmonata) // Зоологический журнал, 69 (3): 349−353.
3. Атаев Г. J1. 2000. Развитие партенит трематод: Автореф. дис. .докт. биол. наук. СПб: СПбГУ, 34 с.
4. Атаев Г. Л., Добровольский А. А. 1992. Развитие микогемипопуляций редий Philophtalmus rhionica, природно-заражённых другими видами трематод // Паразитология, 26: 227−233.
5. Атаев Г. Л., Дьячков И. С., Полевщиков А. В. 2006. Сравнительно-иммунологический анализ защитных реакций брюхоногих моллюсков // Известия РГПУ им. Герцена, 39(1): 265−281.
6. Атаев Г. Л., Ерёмина Е. Е., Полевщиков А. В. 2005. Защитные реакции брюхоногих моллюсков: 2. Гуморальные реакции // Паразитология, 39 (1): 3—15.
7. Атаев Г. Л., Полевщиков А. В. 2004. Защитные реакции брюхоногих моллюсков: 1. Клеточные реакции // Паразитология, 38 (4): 342—351.
8. Галактионов В. Г. 1995. Очерки эволюционной иммунологии. М.: Наука, 256 с.
9. Галактионов К. В., Добровольский А. А. 1998. Происхождение и эволюция жизненных циклов трематод. СПб: Наука, 402 с.
10. Гипеципская Т. А. 1968. Трематоды, их жизненные циклы, биология и эволюция. Л.: Наука, 411с.
11. Добровольский А. А., Галактионов К. В., Мухамедов Г. К., Синха Б. К., Тихомирова И. А. 1983. Партеногенетические поколения трематод // Труды Ленинградского общества естествоиспытателей, 82 (4), 108 с.
12. Ерёмина-Е. Е. 2005. Клеточный состав гемолимфы моллюсков Biomphalaria glabrata (Gastropoda, Pulmonata) // Вестник студенческого научного общества РГПУ им. А. И. Герцена. СПб.: РГПУ, 227−229.
13. Ивантер Э. В., Коросов А. В. 1992. Основы биометрии. Петрозаводск: ПГУ, 168 с.
14. Канев И. 1987. Инкапсулиране и инактивиране на спороцисти на Echinostoma revolution (Froelinch, 1802) (Trematoda: Echinostomatidae) на тьканите и хемолимфата на охлюви Lymnaea stagnalis (L.) (Mollusca: Gastropoda) // Хельминтология. София, 24: 26−31.
15. Кульберг А. Я. 1985. Молекулярная иммунология. М.: Высшая школа, 285 с.
16. Купер Э. 1980. Сравнительная иммунология. М.: Мир, 422 с.
17. Лахтин В.М. 1987. Лектины в исследовании белков и углеводов // Итоги науки и техники. Сер. Биотехнология. Т.2. М.: ВИНИТИ, 288 с.
18. Лилли. Р. 1969. Патогистологическая техника и практическая гистохимия. М.: Мир, 645 с.
19. Луговская С. А., Морозова В. Т., Почтарь М. Е., Долгов В. В. 2002. Лабораторная гематология. М.: ЮНИМЕД-пресс, 120 с.
20. Макгрегор Г., Варли Дж. 1986. Методы работы с хромосомами животных. М.: Мир, 268с.
21. Полевщиков А. В. 1996. Лектины в защитных реакциях беспозвоночных // Журнал общей биологии, 57 (6): 718−739.
22. Прохорова Е. Е. 2007. Клеточный состав гемолимфы моллюсков Planorbarius corneus (Gastropoda, Pulmonata) // Функциональная морфология, экология и жизненные циклы животных. Сб. научи, трудов каф. зоологии РГПУ им. А. И. Герцена. СПб.: ТЕССА, 7: 70−75.
23. Прохорова Е. Е., Атаев Г. Л. 2008. Генетические основы резистентности гастропод // Известия РГПУ им. А. И. Герцена, 10 (64): 86−96.
24. Сорокина 3. А., Зеленская В. С. 1967. Особенности электролитного состава гемолимфы брюхоногих моллюсков// Журнал эволюционной биохимии и физиологии, 3 (1): 25−30.
25. Abdul-Salam J. М., Michelson Е. Н. 1980. Biomphalaria glabrata amocbocytes: assay of factors influencing in vitro phagocytosis // Journal of invertebrate pathology, 36: 52−59.
26. Abrahamson M., Alvarez-Fernandez M., Nathanson С. M. 2003. Cystatins // Biochemical Society symposium, 70: 179−199.
27. Adema С. M., Hertel L. A., Loker E. S. 1999. Evidence from two planorbid snails of a complex and dedicated response to digenean (echinostome) infection // Parasitology, 119: 395 404.
28. Adema С. M., Hertel L. A., Miller R. D., Loker E. S. 1997. A family of fibrinogen-related proteins that precipitates parasite-derived molecules is produced by an invertebrate afterinfection // Proc. Nat. Acad. Sci. USA, 94: 8691−8696.
29. Adema С. M., van Deutekom-Mulder E. C., van der Knaap W. P., Sminia T. 1994. Schistosomicidal activities of Lymnaea stagnalis haemocytes: the role of oxygen radicals // Parasitology, 109 (4): 479−485.
30. Allam В., Ashton-Alcox K. A., Ford S. E. 2001. Haemocyte parameters associated with resistance to brown ring disease in Ruditapes sp. Clams // Developmental and comparative immunology, 25 (5−6): 365—375.
31. Allam В., Ashton-Alcox K. A., Ford S. E. 2002. Flow cytometric comparison of haemocytes from three spccics of bivalve mollusks // Fish & shellfish immunology, 13 (2): 141—158.
32. Ataev G. L., Coustau C. 1999. Cellular response to Echinostoma caproni infection in Biomphalaria glabrata strains selected for susceptibility/ resistance // Developmental and comparative immunology, 23: 187−198.
33. Ataev G. L., Dobrovolskij A. A., Fournier A., Jourddane J. 1997. Migration and development of mother sporocysts of Echinostoma caproni (Digenea: Echinostomatidae) // Journal of Parasitology, 83 (3): 444−453.
34. Azevedo С. M., Borges С. C., Andrade Z. A. 2006. Changes induced in Biomphalaria glabrata (Say, 1818) following trials for artificial stimulation of its internal defense system // Memorias do Instituto Oswaldo Cruz, 101: 199−203.
35. Bachere, E. Y., Gueguen, M., Gonzalez J., de Lorgeril J., Gamier В., Romestand M. 2004. Insights into the anti-microbial defense of marine invertebrates: the penaeid shrimps and the oyster Crassostrea gigas //Immunological reviews, 198: 149−168.
36. Barracco M. A., Medeiros I., Moreira F. M. 1999. Some haemato-immunological parameters in the mussel Pernaperna II Fish & Shellfish Immunology, 9 (5): 387−404.
37. Basch P. F., Lie K. J., Heyneman D. 1969. Antagonist interaction between strigeid and schistosome sporocysts within a snail host // Journal of Parasitology, 55: 753−758.
38. Bayne C. J., Boswell C. A., Loker E. S., Yui M. 1985. A. Plasma components which mediate cellular defaces in the gastropod mollusk Biomphalaria glabrata II Developmental and Comparative Immunology, 9: 523−530.
39. Bayne C. J., Yoshino T. P. 1989. Determinants of compatibility in mollusc-trematode parasitism // American Zoologyst, 29: 399¹⁰⁷.
40. Bayne C.J. 1982. Molluscan immunobiology: isolation of an Aeromonas formicans which escapes the internal defence system of Helix pomatia И Developmental and Comparative Immunology, 6 (4): 675−682.
41. Benson D. A., Karsch-Mizrachi I., Lipman D. J., Ostell J., Wheeler D. L. 2008. GenBank // Nucleic Acids Research, 36: 25−30.
42. Bezerra F. S., Coelho P. M., Chaves M. M., Martins R. L., Nogueira-Machado J. A. 1999. Comparative study on the effect of cyclic nucleotides related to the function of
43. Biomphalaria glabrata hemocytes and human granulocytes // Acta Tropica, 72 (3): 275 280.
44. Borges С. M. C., Azevedo С. M., Andrade Z. A. 2006. A contribution to the pathobiology of Biomphalaria glabrata hemocytes // Memorias do Instituto Oswaldo Cruz, 101: 193 198.
45. Bouchut A., Roger E., Coustau C., Gourbal В., Mitta G. 2006a. Compatibility in the Biomphalaria glabrata! Echinostoma caproni model: Potential involvement of adhesion genes // International Journal for Parasitology, 36: 175−184.
46. Bouchut A., Sautiere P. E., Coustau C., Mitta G. 2006b. Compatibility in the Biomphalaria glabrata! Echinostoma caproni model: Potential involvement of proteins from hemocytes revealed by a proteomic approach // Acta Tropica, 98: 234—246.
47. Butt D., Raftos D. 2008. Phenoloxidase-associated cellular defence in the Sydney rock oyster, Saccostrea glomerata, provides resistance against QX disease infections // Developmental and Comparative Immunology, 32 (3): 299−306.
48. Byrd E. E., Maples W. P. 1969. Intramolluscan stages of Dasymetra conferta Nicoll, 1911 (Trematoda: Plagiorchiidae) // Journal of Parasitology, 55 (3): 509−526.
49. Chai L-Q., Tian Y-Y., Yang D-T., Wang J-X., Zhao X-F. 2008. Molecular cloning and characterization of a C-type lectin from the cotton bollworm, Helicoverpa armigera // Developmental and Comparative Immunology, 32 (1): 71 -83.
50. Cheng Т. C. 1975. Functional morphology and biochemistry of molluscan phagocytes // Annals of the New York Academy of Sciences, 266: 343 -379.
51. Cheng Т. C. 1984. A classification of molluscan hemocytes based on functional evidence // Comparative Pathobiology, 6: 111−146.
52. Cheng Т. C., Cali A. 1974. An electron microscope study of the tegument of the fate of bacteria phagocytized by granulocytes of Crassostrea virginica II Contemporary topics in immunobiology, 4: 25−35.
53. Cheng Т. C., Galloway P. C. 1970. Transplantation immunity in mollusks: the histoincompatibility of Helisoma duryi normale with allografts and xenografts // Journal of invertebrate pathology, 15 (2): 177−192.
54. Cheng Т. C., Jourdane J. 1987. Transient cellular reaction in Biomphalaria glabrata (Mollusca) to heterotopic isografts // Journal of invertebrate pathology, 49: 273 -278.
55. Cheng Т. С., Rifkin Е. 1970. Cellular reactions in marine mollusks in response to helminth parasitism // Symposium on diseases of fishes and shellfishes, 5: 443⁴⁹⁶.
56. Cheng, Т. C. 1996. Hemocytes: forms and functions // The eastern oyster factors in marine bivalves, 18: 178−188.
57. Combes C. 1995. Interactions durables //Ecologie et evolution du parasitisme. Paris- Milan-Barcelone. Masson, 524 p.
58. Connors V. A. 2003. The schistosome-snail interaction: factors involved in host immunodefense activation and parasite killing in susceptible and resistant Biomphalaria glabrata. II Taxonomy, ecology and evolution of mctazoan parasites. Tome I: 203−224.
59. Connors V. A., De Buron I., Jourdane J., Theron A., Agner A., Granath W. O. 1998. Interleukin -1 mediated killing of Schistosoma mansoni primary sporocysts in Biomphalaria glabrata //Journal of Parasitology, 84: 920−926.
60. Connors V.A., Yoshino T. P. 1990. In vitro effect of larval Schistosoma mansoni excretory-secretory products on phagocytosis-stimulated superoxide production in hemocytes from Biomphalaria glabrata II Journal of Parasitology, 76 (6): 895−902.
61. Conte A., Ottaviani E. 1995. Nitric oxide synthase activity in molluscan hemocytes // FEBS letters, 365 (2−3): 120−124.
62. Davids B. J., Wu X. J., Yoshino T. P. 1999. Cloning of a beta-integrin subunit cDNA from an embryonic cell line derived from the freshwater mollusk Biomphalaria glabrata. Gene, 228: 213−223.
63. Davids B. J., Yoshino T. P. 1998. Integrin-like RGD-dependent binding mechanism involved in the spreading response of circulating molluscan phagocytes // Developmental and Comparative Immunology, 22 (1): 39−53.
64. Deininger M. H., Meyrmann R., Schluesener H. J. 2002. The allograft inflammatory factor-1 family of proteins // FEBS letters, 514 (2−3): 115−121.
65. Dikkeboom R., van der Knaap W. P., van den Bovenkamp W., Tijnagel J. M., Bayne C. J. 1988. The production of toxic oxygen metabolites by hemocytes of different snail species // Developmental and Comparative Immunology, 12 (3): 509−520.
66. Dobrovolskij A. A., Ataev G. L. 2003. The nature of reproduction of digenea rediae and sporocysts // Taxonomy, ecology and evolution of metazoan parasites. Tome I: 249−272.
67. Doolittlc R.F. 1992. A detailed consideration of a principal domain of vertebrate fibrinogen and its relatives// Protein science, 1: 1563−1577.
68. Duclermortier P., Lardans V., Serra E., Trottein F., Dissous C. 1999. Biomphalaria glabrata embryonic cells express a protein with a domain homologous to the lectin domain of mammalian selectins // Parasitology research, 85: 481¹⁸⁶.
69. Feng S.Y. 1965. Heart rate and leucocyte circulation in Cassostrea virginica (Gmelin) // The Biological bulletin, 128: 198−210.
70. Files V., Cram E. B. 1949. A study on the comparative susceptibility of snail vectors to strains of Schistosoma mansoni II Parasitology, 41: 264−269.
71. Foley D. A., Cheng Т. C. 1975. A quantitative study of phagocytosis by hemolymph cells of the pelecypods Crassostrea virginica and Mercenaria mercenaria II Journal of Invertebrate Pathology, 25 (2): 189−197.
72. Ford С. E., Hamerton J. L. 1956. A colchicine, hypotonic citrate, squash sequence for mammalian chromosomes // Stain technology. 31 (6): 247−251.
73. Fraser I. P., Ezekowitz R. A. B. 1999. Receptors for microbial products: carbohydrates // Inflammation: Basic Principles and Clinical Correlates: 515−523.
74. Glinski Z., Jarosz J. 1997. Molluscan immune defenses // Archivum immunologiae et therapiae experimentalis, 45 (2−3): 149−155.
75. Gorbushin A. M., Iakovleva N. V. 2006. Haemogram of Littorina littorea II Journal of the Marine Biological Association of the United Kingdom, 86: 1175−1181.
76. Gorbushin A. M., Iakovleva N. V. 2008. The enigma of the haemogram «left-shift» in periwinkles infected with trematodes // Fish & Shellfish Immunology, 24 (6): 745−751.
77. Gourdine J-P., Markiv A., Smith-Ravin J. 2007. The three-dimensional structure of codakine and related marine C-type lectins // Fish & Shellfish Immunology, 23: 831−839.
78. Granath W. O., Spray F. J. 1987. Analysis of the interlacing components between larval Schistosoma mansoni and schistosome-susceptible and resistant Biomphalaria glabrata II Memorias do Instituto Oswaldo Cruz, 82: 229−230.
79. Granath W. O., Yoshino Jr., Yoshino T. P. 1984. Schistosoma mansoni: Passive transfer ofresistance by serum in the vector snail Biomphalaria glabrata // Experimental Parasitology, 58: 188−193.
80. Guillou F., Mitta G., Galiniera R., Coustau C. 2007. Identification and expression of gene transcripts generated during an anti-parasitic response in Biomphalaria glabrata II Developmental and Comparative Immunology, 31: 657−671.
81. Hahn U. K., Bender R. C., Bayne C. J. 2001. Killing of Schistosoma mansoni sporocysts by hemocytes from resistant Biomphalaria glabrata: role of reactive oxygen species // Journal of Parasitology, 87 (2): 292−299.
82. Hall T. A. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT // Nucleic acids symposium series, 41: 95−98.
83. Hartmann S., Lucius R. 2003. Modulation of host immune responses by nematode cystatins // International journal for parasitology, 33(11): 1291−1302.
84. Hernroth B. 2003. The influence of temperature and dose on antibacterial peptide response against lipopolysaccharide in the blue mussel, Mytilus edulis II Fish & Shellfish Immunology, 14 (1): 25−37.
85. Humbert E., Coustau C. 2001. Refractoriness of host haemocytes to parasite immunosuppressive factors as a putative resistance in the Biomphalaria glabrata — Echinostoma caproni system. // Journal of Parasitology, 122: 651−660.
86. Jiang Y., Loker E. S., Zhang S. 2006. M. In vivo and in vitro knockdown of FREP2 geneexpression in the snail Biomphalaria glabrata using RNA interference // Developmentaland Comparative Immunology, 30: 855−866.
87. Jimenez-Vega F., Vargas-Albores F., Soderhall K. 2005. Characterisation of a serine proteinase from Penaeus vannamei haemocytes // Fish & Shellfish Immunology, 18: 101−108.
88. Jourdane J., Cheng Т. C. 1987. The two-phase recognition process of allografts in Brazilian strain of Biomphalaria glabrata II The Journal of Invertebrate Parasitology, 49: 145 158.
89. Mahmoud A. H., Rizk M. Z. 2004. Free radical scavengers in susceptible/resistant Biomphalaria alexandrina snails before and after infection // Comparative Biochemistry and Physiology, 138: 523−553.
90. Malham S. K., Runhama N. W., Secombes C. J. 1998. Lysozyme and antiprotease activity in the lesser octopus Eledone cirrhosa (Lam.) (Cephalopoda) // Developmental & Comparative Immunology, 22 (1): 27−37.
91. Matozzo V., Marina M. G., Cimaa F., Ballarina L. 2008. First evidence of cell division in circulating haemocytes from the Manila clam Tapes philippinarum // Cell Biology International, 32 (7): 865−868.
92. Matricon-Gondran M., Letocart M. 1999a. Internal defenses of the snail Biomphalaria glabrata.
93. Characterization of hemocytes and fixed phagocytes // Journal of invertebrate pathology, 74 (3): 224−234.
94. Matricon-Gondran M., Letocart M. 1999b. Internal defenses of the snail Biomphalaria glabrata.1. Defense cells have different phagocytic responses to various injected foreign material // Journal of invertebrate pathology, 74 (3): 235−247.
95. McGinnis S., Madden T. L. 2004. BLAST: at the core of a powerful and diverse set of sequence analysis tools // Nucleic acids research, 32 (Web Server issue): 20−25.
96. McGreal E. P., Martinez-Pomares L., Gordon S. 2004. Divergent roles for C-type lectins expressed by cells of the innate immune system // Molecular immunology, 41(11): 1109— 1121.
97. Mitta G., Vandenbulcke F., Hubert F., Roch P. 1999. Mussels defensins are synthesized and processed in granulocytes then released into the plasma after bacterial challenge // Journal of Cell Science, 112: 4233^1242.
98. Mitta G., Vandenbulcke F., Noel Т., Romestand В., Beauvillain J. C., Salzet M., Roch P. 2000a. Differential distribution and defence involvement of antimicrobial peptides in mussel // Journal of cell science, 113 (15): 2759−2769.
99. Mitta G., Vandenbulcke F., Roch P. 2000b. Original involvement of antimicrobial peptides in mussel innate immunity// FEBS letters, 486 (3): 185−190.
100. Mouachid A., Mone H. 1990. Interference of Echinoparyphium elegans with the host- parasite system Bulinus truncates — Schistosoma bovis in natural conditions // Annals of Tropical Medicine and Parasitology, 84 (4): 341−348.
101. Newton W. L. 1953. The inheritance of susceptibility to infection with Schistosoma mansoni in Australorbis glabratus II Experimental Parasitology, 2: 242−257.
102. Newton W. L. 1954. Albinism in Australorbis glabratus И Proceedings of the Helminthological Society of Washington, 21: 72−74.
103. Newton W. L. 1955. The establishment of a strain of Australorbis glabratus which combines albinism and high susceptibility to infection with Schistosoma mansoni II Journal of Parasitology, 29: 539−544.
104. Novas A., Barcia R., Ramos-Martinez J. I. 2007. Nitric oxide production by haemocytes from Mytilus galloprovincialis shows seasonal variations // Fish & Shellfish Immunology, 23: 886−891.
105. Ottaviani E., Franchini A. 1988. Ultrastructural study of haemocytes of the freshwater snail Planorbarius corneus (Gastropoda, Pulmonata) 11 Acta Zoolologica, 69 (3): 157—162.
106. Ottaviani E., Franchini A., Cassanelli S., Genedani S. 1995. Cytokines and invertebrate immune responses//Biology of the cell, 85 (1): 87−91.
107. Ottaviani E., Franchini A., Fontanili P. The presence of immunoreactive vertebrate bioactive peptide substances in hemocytes of the freshwater snail Viviparus ater (Gastropoda, Prosobranchia)// Cellular and molecular neurobiology, 12 (5): 455¹⁶².
108. Pan С. Т. 1958. The general histology and topographic microanatomy of Australorbis glabratus II Bulletin of Museum of Comparative Zoology. Harvard collection, 119: 237—299.
109. Parisi M.-G., Lia H., Jouvetc L. B. P., Dyryndac E. A., Parrinellob N., Cammaratab M., Rocha P. Differential involvement of mussel hemocyte sub-populations in the clearance of bacteria // Fish & Shellfish Immunology, 25 (6): 834−840.
110. Pereira C.A.J., Martins-Souza R.L., Coelho P.M.Z., Limaa W.S., Negrao-Correa D. 2006. Effect of Angiostrongylus vasorum infection on Biomphalaria tenagophila susceptibility to Schistosoma mansoni II Acta Tropica, 98: 224−233.
111. Pipe R. K., Farley S. R., Coles J. A. 1997. The separation and characterisation of haemocytes from the mussel Mytilus edulis II Cell and tissue research, 289: 537−545.
112. Pruitt K. D., Tatusova Т., Maglott D. R. 2007. NCBI reference sequences (RefSeq): a curated non-redundant sequence database of genomes, transcripts and proteins // Nucleic acids research, 35 (Database issue): 61−65.
113. Qiu L., Song L., Yu Y., Xu W., Ni D., Zhang Q. 2007. Identification and characterization of a myeloid differentiation factor 88 (MyD88) cDNA from Zhikong scallop Chlamys farreri I I Fish & Shellfish Immunology, 23: 614−623.
114. Richards C. S. 1970. Genetics of a molluscan vector of schistosomiasis // Nature, 227: 806−810.
115. Richards C. S. 1980. Genetic studies on amoebocytic accumulations in Biomphalaria glabrata II Journal of invertebrate pathology, 35: 49−52.
116. Richards C. S. 1984. Influence of snail age on genetic variations in susceptibility of Biomphalaria glabrata for infection with Schistosoma mansoni II Malacologia, 25: 493 502.
117. Richards C. S., Shade P. C. 1987. The genetic variation of compatibility in Biomphalaria glabrata and Schistosoma mansoni II Journal of Parasitology, 73: 1146−1151.
118. Rodelaud D., Barthe D. 1981. The development of the amoebocyte-producing ogan in Lymnaea truncatula Muller infected by Fasciola hepatica L. // Zeitschrift fur Parasitenkude, 65: 331−341.
119. Rondelaud D., Barthe D. 1980. Description and characteristics of an ameboeytic reaction in Lymnaea truncatula Miiller infested by Fasciola hepatica L. // Zeitschrift fur Parasitenkunde, 61 (2): 187−196.
120. Sambrook J., Fritsch E. F., Maniatis T. 1989. Molecular cloning: a laboratory manual // New York: Cold Spring Harbor Laboratory Press, Second Edition. Tome 1−3.
121. Santamaria-Kisiel L., Rintala-Dempsey A. C., Shaw G. S. 2006. Calcium-dependent and -independent interactions of the SI 00 protein family // The Biochemical journal, 396 (2): 201−214.
122. Schreiber F. G., Schubert M. 1949. Results on exposure, of the snail Australobis glabratus to varying numbers of miracidia of Schistosoma mansoni II The Journal of Parasitology, 37: 42-^-7
123. Sire C., Rognon A., Theron A. 1998. Failure of Schistosoma mansoni to reinfect Biomphalaria glabrata snails: acquired humoral resistance or intra specific larval antagonism? // Parasitology, 117: 117−122.
124. Sminia T. 1974. Haematopoiesis in the freshwater snail Lymnaea stagnalis studied by electron microscopy and autoradiography// Cell and tissue research, 150: 443−454.
125. Sminia Т., Barendsen L. 1980. A comparative morphological and enzymes histochemical study on blood cells of the freshwater snails Lymnaea stagnalis, Biomphalaria glabrata, and Bulinus truncatus II Journal of morphology, 165: 31−39.
126. Sorensen R. E., Minchella D. J. 2001. Snail-trematode life history interactions: past trends and future directions // Parasitology, 123: 3−18.
127. Souza S. S., Andrade Z. A. 2006. On the origin of the Biomphalaria glabrata hemocytes // Memorias do Institute Oswaldo Cruz, 101: 213−218.
128. Stumpf J. L., Gilbertson D. E. 1978. Hemocytes of Biomphalaria glabrata: Factors affecting variability // Journal of invertebrate pathology, 32: 177−181.
129. Sullivan J. T. 1988. Hematopoiesis in three species of Gastropods following infection with Echinostoma paraensei (Trematoda: Echinostomatidae) // Transactions of the American Microscopical Society, 107 (4): 335−361.
130. Sullivan J. T. 1990. Long-term survival of heterotopic allografts of the amoebocyte-producing organ in Biomphalaria glabrata (Mollusca: Pulmonata) // Transactions of the American Microscopical Society, 109 (1): 52−60.
131. Sullivan J. Т., Ни P. С. 1996. Fate of Shistosoma mansoni in Biomphalaria obstructa II The Journal of Parasitology, 82 (2): 743−747.
132. Sullivan J. Т., Spence J. V. 1999. Factors affecting adoptive transfer of resistance to Schistosoma mansoni in the snail intermediate host, Biomphalaria glabrata. II Journal of Parasitology, 85 (6): 1065−1071.
133. Swarnakar S., Chowdhury P. S., Sarkar M. 1991. N-glycolylneuraminic acid specific lectin from Pila globosa snail // Biochemical and biophysical research communications, 178 (1): 8594.
134. Thompson J. D., Gibson T. J., Plewniak F., Jeanmougin F., Higgins D. G. 1997. The CLUSTALX windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools // Nucleic acids research, 25 (24): 4876^1882.
135. Tripp M. R. 1961. The fate of foreign materials experimentally introduced into the snail Austalorbis glabratus II Journal of Parasitology, 23: 90−133.
136. Van der Knaap W.P.W., Loker E. S. 1990. Immune mechanisms in trematode snail interactions // Parasitology today, 6 (6): 176−182.
137. Wootton E. C., Pipe R. K. 2003. Structural and functional characterisation of the blood cells of the bivalve mollusk, Scrobicularia plana II Fish & Shellfish Immunology, 15 (3): 249 262.
138. Yayne С.J., Boswell С.A., Loker E.S., Yui M.A. 1985. Plasma components which mediate cellular defenses in the gastropod mollusk, Biomphalaria glabrata II Developmental and Comparative Immunology, 9 (3): 523−530.
139. Yssel E., Wolmarans С. T. 1989. Factors influencing the leukocyte concentration of the freshwater snail Bulinus africanus. I I Journal of invertebrate pathology, 53 (2): 269−271.
140. Zelck U. E., Gege В. E., Schmid S. 2007. Specific inhibitors of mitogen-activated protein kinase and PI3-K pathways impair immune responses by hemocytes of trematode intermediate host snails // Developmental and Comparative Immunology, 31:321−331.
141. Zhang S.M., Loker E. S. 2004 Representation of an immune responsive gene family encoding flbrinogen-related proteins in the freshwater mollusk Biomphalaria glabrata, an intermediate host for Schistosoma mansoni II Gene, 341: 255−266.