предыдущая главасодержаниеследующая глава

Список литературы

1. Albershiem P., Jones Т. М., English P. D. 1969. Biochemistry of the cell wall in relation to infective processes. A. Rev. Phytopath. 1, 171-194.

2. Allen E. H., Thomas C. A. 1971. Trans-trans-3,11-tridecadiene-5,7,9-triyne-1,2-diol, an antifungal polyacetylene from diceased safflower (Carthamus tinctorius). Phytochemistry 10, 1579-1582.

3. Allen E. H., Thomas C. A. 1971. A second antifungal polyacetylene compound from Phytophthora infected safflower. Phytopathology 61, 1107-1109.

4. Allen P. J. 1955. The role of a self-inhibitor in the germination of rust uredospores. Phytopathology 45, 259-266.

5. Allen R. F. 1923. A cytological study of infection of Baart and Kanred wheats by Puccinia graminis tritici. J. agric Res. 23, 131-151.

6. Angell H. R., Walker J. C., Link K. P. 1930. The relation of protocatechuic acid to disease resistance in the onion. Phytopathology 20, 431-438.

7. Antonelli E., Daly J. M. 1966. Decarboxylation of indoleacetie acid by near-isogienic lines of wheat resistant and susceptible to Puccinia graminis f. sp., tritici. Phytopathology 56, 610-618.

8. Averre C. W., Kelman A. 1964. Severity of bacterial wilt as influenced by ratio of virulent to avirulent cells of Pseudomonas solanacearum in inoculum. Phytopathology 54, 779-783.

9. Bailey J. A. 1969. Effects of antimetabolites on production of the phytoalexin pisatin. Phytochemistry 8, 1393-1395.

10. Bailey J. A. 1973. Production of antifungal compounds in cowpea (Vigna sinensis) and pea (Pisum sativum) after virus infection. J. gen. Microbiol. 75, 119-123.

11. Вailey J. A. 1974. The relationship between symptom expression and phytoalexin concentration in hypocotyls of Phaseolus vulgaris infected with Colletotrichum lindemuthianum. Physiol. Pl. Path. 4, 477-488.

12. Bailey J. A., Burden R. S. 1973. Biochemical changes and phytoalexin accumulation in Phaseolus vulgaris following cellular browning caused by tobacco necrosis virus. Phusiol. Rl. Path. 3. 171-177.

13. Bailey J. A., Burden R. S., Vincent G. G. 1975. Capsidiol: an antifungal compound produced in Nicotiana tabacum and Nicotiana clevelandii followind infection with tobacco necrosis virus. Phytochemistry 14, 597.

14. Bailey J. A., Deverall B. J. 1971. Formation and activity of phaseollin in the interaction between bean hvpocotyls (Phaseolus vulgaris) and physiological races of Colletotrichum lindemuthianum. Physiol Pl. Path. 1. 435-449.

15. Bailey J. A. Ingham J. L. 1971. Phaseollin accumulation in bean (Phaseolus vulgaris) in response to infection by tobacco necrosis virus and the rust Uromyces appendicular. Physiol. Pl. Path. 1, 451-456.

16. Beckman С. H. 1971. The plasticizing of plant cell walls and tylose formation - a model. Physiol Pl. Path. 1, 1-10.

17. Berard D. F., Kuc J., Williams E. B. 1972. A cultivar specific protection factor from incompatible interactions of green bean with Colletotrichum lindemuthianum. Physiol. Pl. Path. 2, 123-127.

18. Berard D. F., Kuc J., Williams E. B. 1973. Relationship of genes for resistance to protection by diffusates from incompatible interactions of Phaseolus vulgaris with Colletotrichum lindemuthianum. Physiol Pl. Path. 3, 51-56.

19. Bernard N. 1909. devolution dans la symbiose. Les orchidées et leurs champignons commenseaux. Annls Sci. nat. (Bot.) 9, 1-196.

20. Bernard N. 1911. Sur la fonction fungicide des bulbes d'Ophrydées. Annls Sci. nat. (Bot.). 14, 221-234.

21. Blakeman J. P., Fraser A. K. 1971. Inhibition of Botrytis cinerea spores by bacteria on the surface of chrysanthemum leaves. Physiol. Pl. Path. 1, 45-54.

22. Bonde M. R., Millar R. L., Ingham J. L. 1973. Induction and indentification of sativan and vestitol as two phytoalexins from Lotus corniculatus. Phytochemistry 12, 2957-2959.

23. Bracker С. E., Littlefield L. J. 1973. Structural concepts of host-pathogen interfaces. In Fungal pathogenicity and the plant's response, pp. 159-313 (ed. R. J. W. Byrde, С. V. Cutting). Academic Press, London. New York.

24. Brown A. E., Swinburne T. R. 1971. Benzoic acid: an antifungal compoud formed in Bramley's Seedling apple fruits following infection by Nectria galligena Bres. Physiol Pl. Path. 1, 469-475.

25. Brown A. E., Swinburne T. R. 1973. Degradation of benzoic acid by Nectria galligena Bres. in vitro and in vivo. Physiol. Pl. Path. 3, 453-459.

26. Brown J. F., Shipton W. A. 1964. Relationship of penetration to infection type when seedling wheat leaves are inoculated with Puccinia graminis tritici. Phytopathology. 54, 89-91.

27. Brown J. F., Shipton W. A., White N. H. 1966. The relationship between hypersensitive tissue and resistance in wheat seedlings infected with Puccinia graminis tritici. Ann. appl. Biol. 58, 279-290.

28. Brown W. 1922. Studies on the physiology of parasitism. 8. On the exosmosis of nutrient substances from the host tissue into the infection drop. Ann. Bot., Lond. 36, 101-119.

29. Bullock J. D. 1964. Polyacetylenes and related compounds in nature. In Progress in organic chemistry, 6, pp. 86-134 fed. J. Cook, W. Carruthers. Butterworths. London.

30. Burden R. S., Bailey J. A. 1975. Structure of the phytoalexin from sovbean. Phytochemistry 14. 1389-1390.

31. Burden R. S., Bailey J. A., Dawson G. W. 1972. Structures of three new isoflavonoids from Phaseolus vulgaris infected with tobacco necrosis virus. Tetrahedron Lett. 1972, 4175-4178.

32. Burden R. S., Вaileу J. A., Vincent G. G. 1974. Metabolism of phaseollin by Colletotrichum lindemuthianum Phytochemistry 13, 1789-1791.

33. Burden R. S., Bailey J. A., Vincent G. G. 1975. Glutinosone, a new antifungal sesquiterpene from Nicotiana glutinosa infected with tobacco mosaic virus. Phytochemistry 14, 221-223.

34. Вuxtоn E. W. 1957. Some effects of pea root exudates on physiological reces of Fusarium oxysporum f. pisi (Linf.) Snyder and Hansen. Trans. Br. mycol. Soc. 40, 145-154.

35. Вuxtоn E. W. 1962. Root exudates from banana and their relationship to strains of the Fusarium causing Panama wilt. Ann. appl. Biol. 50, 269-282.

36. Carroll R. В., Lukejic F. L., Levine R. G. 1972. Absence of a common antigen relationship between Corynebacterium insidiosutn and Medicago sativa as a factor in disease development. Phytopathology 62, 1351-1360.

37. Chester K. S. 1933. The problem of acquired physiological immunity in plants. Q. Rev. Biol. 8, 119-154; 275-324.

38. Chou M. С., Preece T. F. 1968. The effect of pollen grains on infections caused by Botrytis cinerea Fr. Ann. appl. Biol. 62, 11-22.

39. Condon P., Kuc J. 1960. Isolation of a fungitoxic compound from carrot tissue inoculated with Ceratocystis fimbriata. Phytopathology 50, 267-270.

40. Condon P., Kuc J. 1962. Confirmation of the identity of a fungitoxic compound produced by carrot root tissue. Phytopathology 52, 182-183.

41. Сoxon D. Т., Curtis R. F., Price K. R., Howard B. 1974. Phytuberin: a novel antifungal terpenoid from potato. Tetrahedron Lett. 1974, 2363-2366.

42. Crosse J. E., Сarrett С. M. E. 1970. Pathogenicity of Pseudomonas morsprunogum in relation to host specificity. J. gen. Microbiol. 62, 315-327.

43. Cruickshank I. A. M. 1962. Studies on phytoalexins. IV. The antimicrobial spectrum of pisatin. Aust. J. biol. Sci. 15, 147-159.

44. Cruickshank I. A. M. 1963. Phytoalexins. A. Rev. Phytopath. 1, 351-374.

45. Cruiскshanк I. A. M., Mandrук M. 1960. The effect of stem infestation of tobacco with Peronospora tabacina on foliage infection to blue mould. J. Aust. Inst. agric. Sci. 26, 369-372.

46. Cruickshank I. A. M., Perrin D. R. 1960. Isolation of a phytoalexin from Pisum sativum L. Nature, Lond. 187, 799-800.

47. Cruickshank I. A. M., Perrin D. R. 1963. Phytalexins of the Leguminosae. Phaseollin from Phaseolus vulgaris. L. Life Sci. 2, 680-682.

48. Cruickshank I. A. M., Perrin D. R. 1963. Studies on phytoalexins. VI. Pisatin: The effect of some factors on its formation in Pisum sativum L., and the significance of pisatin in disease resistance. Aust. J. biol. Scii 16, 111-128.

49. Cruickshank I. A. M., Perrin D. R. 1965. Studies on phytoalexins. IX. Pisatin formation by cultivars of Pisum sativum L. and several other Pisum species. Aust. J. biol. Sci. 18, 829-835.

50. Cruickshank I. A. M., Perrin D. R. 1968. The isolation and partial characterization of monilicolin A, a polypeptide with phaseollin-inducing activity from Monilinia fructicola. Life Sci. 7, 449-458.

51. Cruickshank I. A. M., Perrin D. R. 1971. Studies on phytoalexins. XI. The induction, antimicrobial spectrum and chemical assay of phaseollin. Phytopath. Z. 70, 209-229.

52. Cruickshank I. A. M., Veeraraghavan J., Perrin D. R. 1974. Some physical factors affecting the formation and/or net accumulation of medicarpin in infection droplets on white clover leaflets. Aust. J. PI. Physiol. 1, 149-156.

53. Daly J. M. 1972. The use of near-isogenic lines in biochemical studies of the resistance of wheat to stem rust. Phytopathology 62. 392-400.

54. Davis D. 1967. Cross-protection in Fusarium wilt diseases. Phytopathology 57, 311-314.

55. Day P. R. 1974. Genetics of host - parasite interactions. W. H. Freeman and Company, San Francisco, 238 pp.

56. Day P. R. 1976. Gene function in host - parasite interactions. In Specificity of plant diseases (ed. R. K. S. Wood, A. Graniti). Plenum Press, London. (In press).

57. Devay J. E., Charudattan R., Wimalajeewa D. L. S. 1972. Common antigenic determinants as a possible regulation of host - pathogen compatibility. Am. Nat. 106, 185-194.

58. Deverall B. J., Rogers P. M. 1972. The effect of pH and composition of test solutions on the inhibitory activity of wyerone acid towards germination of fungal spores. Ann. appl. Biol. 72, 301-305.

59. Deverall B. J., Vessey J. C. 1969. Role of a phvtoalexin in controlling lesion development in leaves of Vicia faba after infection by Botrytis spp. Ann. appl. Biol. 63, 449-458.

60. Dickinson S. 1964. The nature of thigmotropic stimuli affecting uredospore germ tubes of Puccinia spp. Trans. Br. mycol. Soc. 47, 300.

61. Dijkman A. van, Kaars Sijpesteijn A. 1973. Leakage of preabsorbed 32P from tomato leaf disks infiltrated with high molecular weight products of incompatible races of Cladosporium fulvum. Physiol. PI. Path. 3, 57-67.

62. Dineen J. K. 1963. Antigenic relationships between host and parasite. Nature, Lond 97, 471-472.

63. Daubly J. A., Flor H. H., Clagget С. O. 1960. Relation of antigens of Melampsora lini and Linum usitatissimum to resistance and susceptibility. Science 131, 229.

64. Ehrlich H. G., Ehrlich M. A. 1963. Electron microscopy of the host - parasite relationships in stem rust of wheat. Am. J. Bot. 50, 123-130.

65. Ellingboe A. H. 1968. Inoculum production and infection by foliage pathogens. A. Rev. Phytopath. 6, 317-330.

66. Ellingboe A. H. 1972. Genetics and physiology of primary infection by Erysiphe graminis. Phytopathology 62, 401-413.

67. Ellingboe A. H. 1976. Genetics of host - parasite interactions. In Physiological plant pathology (ed. P. H. Williams, R. Heitefuss). Springer - Verlag, Berlin. (In press).

68. Elliston J., Kuc J., Williams E. B. 1971. Induced resistance to bean anthrocnose at a distance from the site of the inducing interaction. Phytopathology 61, 1110-1112.

69. Ercolani G. L., Crosse J. E. 1966. The growth of Pseudomonas phaseolicola and related plant pathogens in vivo J. gen. Microbiol. 45, 429-439.

70. Fawcett С. H., Firn R. D., Spencer D. M. 1971. Wverone increase in leaves of broad bean (Vicia faba L.) after infection by Botrytis fabae. Physiol. Pl. Path. 1. 163-166.

71. Flentie N. T. 1957. Studies on Pellicularia filamentosa (Pat.) Rogers. III. Host penetration and resistance and strain specialization. Trans. Br. mycol. Soc. 40, 322-336.

72. Flentje N. Т., Dodman R. L., Kerr A. 1963. The mechanism of host penetration by Thanatephorus cucumeris. Aust. J. biol. Sci. 16, 784-799.

73. Flоr H. H. 1956. The complementary genic systems in flax and flax rust. Adv. Genet. 8, 29-54.

74. Fokkema N. J. 1968. The influence of pollen on the development of Cladosporium herbarum in the phyllosphere of rye. Neth. J. PL Path. 74, 159-165.

75. Fokkema N. J. 1971. The effect of pollen in the phyllosphere of rye on colonization by saprophytic fungi and on infection by H elminthosporium sativum and other leaf pathogens. Neth. J. Pl. Path. 77 (sppl. 1). 160.

76. Fries N. (1966). Chemical factors in the germination of spores of Basidiomycetes. In The fungus spore, pp. 189-199 (ed. M. F. Madelin) Butterworths, London.

77. Garibaldi A., Bateman D. F. 1970. Pectic enzymes produced by Erwinia chrysanthemi and their effect on plant tissue. Physiol. Pl. Path. 1, 25-40.

78. Garrett С. M. E., Crosse J. E. 1975. Interactions between Pseudomonas morsprunorum and other pseudomonads in leaf-scar infections of cherry. Physiol. Pl. Path. 5, 89-94.

79. Gäumann E. 1964. Weitere Untersuchungen über die chemische Infektabwehr der Orchideen. Phytopath. Z. 49, 211-232.

80. Gäumann E., Jaag O. 1945. Über induzierte Abwehr- reaktionen bei Pflanzen. Experientia 1, 21-22.

81. Gäumann E., Kern H. 1959. Über die isolierung und den chemischen Nachweis des Orchinols. Phytopath. Z. 35. 347-356.

82. Gäumann E., Kern H. 1959. Über chemische Abwehrreaktionen bei Orchideen. Phytopath. Z. 36, 1-26.

83. Geigert J., Stermitz F. R., Johnson D., Maag D. D., Johnson D. K. 1973. Two phytoalexins from sugar beet (Beta vulgaris) leaves. Tetrahedron 29, 2703-2706.

84. Gordon M., Stoessl A., Stothers J. B. 1973. Postinfectional inhibitors from plants. IV. The structure of capsidiol, an antifungal sesquetcrpene from sweet peppers Can. J. Chem. 51, 748-752.

85. Grisebach H. 1965. Biosynthesis of flavonoids. In Chemistry and biochemistry of plant pigments, pp. 279-308 (ed. T. W. Goodwin). Academic Press, London.

86. Crisebach H., Hahlbrock K. 1974. Enzymology and regulation of flavonoid and lignin biosynthesis in plants and plant cell suspension cultures. Rec. Adv. Phytochem. 8, 21-52.

87. Hadwiger L. A. 1967. Changes in phcnvlalanine metabolism associated with pisatin production. Phytopathology 57, 1258-1259.

88. Hadwiger L. A., Jafri A., von Broembsen S., Eddy R. Jr. 1974. Mode of pisatin induction. Increased template activity and dyebinding capacity of chromatin isolated from polypeptide treated pea pods. Pl. Physiol. 53, 52-63.

89. Hadwiger L. A., Schwochau M. E. 1970. Induction of phenylalanine ammonia lyase and pisatin in pea pods by polylysine, spermidine or histone fractions. Biochem. biophys. Res. Commun. 38, 683-691.

90. Hardegger E., Biland H. R., Corrodi H. 1963. Synthese von 2,4-Dimethoxy-6-hydroxy-phenanthren und Konstitution des Orchinols. Helv. chim. Acta. 46, 1354-1360.

91. Heath M. 1974. Light and electron microscope studies, of the interactions of host and non-host plants with cowpea rust - Uromyces phaseoli var. vignae. Physiol. Pl. Path. 4, 403-414.

92. Heath M. С., Heath I. B. 1971. Ultrastructurc of an immune and a susceptible reaction of cowpea leaves to rust infection. Physiol. Pl. Path. I, 277-287.

93. Heath M. C., Higgins V. J. 1973. In vitro and in vivo conversion of phaseollin and pisatin by an alfalfa pathogen Stemphylium botryosum. Physiol. Plant Path. 3, 107-120.

94. Hecht E. I., Bateman D. F. 1964. Nonspecific acquired resistance to pathogens resulting from localized infections by Thielaviopsis basicola or viruces in tobacco leaves. Phytopathology 54, 523-530.

95. Hess S. L., Hadwiger L. A., Schwochau M. E. 1971. Studies on biosynthesis of phaseollin in excised pods of Phaseolus vulgaris. Phytopathology 61, 79-82.

96. Heuvel J. van den, Van Etten N. D. 1973. Detoxification of phaseollin by Fusarium solani f. sp. phaseoli. Physiol. Pl. Path. 3, 327-339.

97. Heuvel J. van den, Van Etten H. D., Serum J. W, С of fen D. L., Williams Т. H. 1974. Identification of α-hydroxyphaseollone, a phaseollin metabolite produced by Fusarium solani. Phytochemistry 13, 1129-1131.

98. Hickman C. J., Ho H. H. 1966. Behaviour of zoospores in plantpathogenic Phycomycetes. A. Rev. Phytopath. 4, 195-220.

99. Hietala P. K., Wahlroos O. 1956. The synthesis of 6-methoxy-2(3)-benzoxazolinone. Acta chem. scand. 10, 1196- 1197.

100. Higgins V. J. 1972. Role of the phytoalexin medicarpin in three leaf spot diseases of alfalfa. Physiol Pl. Path. 2, 289-300.

101. Higgins V. J. 1975. Induced conversion of the phytoalexin maackiain to dihydromaackiain by the alfalfa pathogen Stemphylium botryosum. Physiol. Pl. Path. 6, 5-18.

102. Higgins V. J., Millar R. L. 1968. Phytoalexin production by alfalfa in response to infection by Colletotrichum phomoides, Helminthosporium turcicum, Stemphylium loti and S. botryosum. Phytopathology 58, 1377-1383.

103. Higgins V. J., Millar R. L. 1969. Comparative abilities of Stemphylium botryosum and Helminthosporium turcicum to induce and degrade a phytoalexin from alfalfa Phytopathology 59, 1493-1499.

104. Higgins V. J., Millar R. L. 1969. Degradation of alfalfa phytoalexin by Stemphylium botryosum. Phytopathology 59, 1500-1506.

105. Higgins V. J., Smith D. G. 1972. Separation and identification of two pterocarponoid phytoalexins produced by red clover leaves. Phytopathology 62, 235-238.

106. Higgins V. J., Stoessl A., Heath M. C. 1974. Conversion of phaseollin to phaseollinisoflavan by Stemphylium botryosum. Phytopathology 64, 105-107.

107. Hiura M. 1943. Studies in storage and rot of sweet potato, Sci. Rep. Gifu agric. Coll. Japan 50, 1-5.

108. Howes N. K., Samborski D. J., Rohringer R. 1974. Production and bioassay of gene-specific RNA determining resistance of wheat to stem rust. Can. J. Bot. 52, 2189-2497.

109. Hsu S. C., Ellingboe A. H. 1972. Elongation of secondary hyphae and transfer of 35S from barley to Erysiphe graminis f. sp. hordei during primary infection. Phytopathology 62, 876-882.

110. Hutchinson J. 1964. The genera of flowering plants, 1 Dicotyledons. Clarendon, Oxford.

111. Ingham J. L. 1972. Phytoalexins and other natural products as factors in plant disease resistance. Bot. Rev. 38, 343-424.

112. Ingham J. L. 1973. Disease resistance in higher plants. She concept of pre-infectional and post-infectional resistance. Phytopath. Z. 78, 314-335.

113. Ingham J. L., Millar R. L. 1973. Sativin: an induced isoflavan from the leaves of Medicago sativa L. Nature, Lond. 242, 125-126.

114. Johnson C., Brannon D. R., Kuc J. 1973. Xanthotoxin. Phytoalexin of Pastinaca sativa root. Phytochemistry 12. 2961-2962.

115. Johnson R. 1976. Genetics of fungal-plant interactions. In Biochemical aspects of plant parasite relationships (ed. J. Friend). Academic Press, London. (In press).

116. Johnson R. 1976. Genetics of host - parasite interactions. In Specificity in plant diseases (ed. R. K. S. Wood, A. Graniti). Plenum Press, London. (In press).

117. Johnston С. O., Huffman M. D. 1958 Evidence of local antagonism between two cereal rust fungi. Phytopathology 48, 69-70.

118. Jones D. R., Graham W. G., Ward E. W. B. 1974. Ultrastructural changes in pepper cells in a compatible intefaction with Phutophthora capsici. Phytopathology 64, 1084-1090.

119. Jones D. R., Graham W. G., Ward E. W. B. 1975. Ultrastrural changes in pepper cells in an incompatible interaction with Phytophthora infestans. Phytopathology 65, 1274-1285.

120. Jones D. R., Graham W. G., Ward E. W. B. 1975. Iltrastructural changes in pepper cells in interactions with Phytopthora capsici (isolate 18) and Monilinia fructicola. Phytopathology 65. 1409-1416.

121. Кatsui N., Murai A., Tаkasugi M., Imaizumi K., Masumane Т., Tomiyama K. 1968. The structure of rishitin, a new antifungal compound from diseased potato tubers. Chem. Commun. 1968. 4-3-44.

122. Keen N. T. 1971. Hydroxyphaseollin production by soybeans resistant and susceptible to Phytophthora megasperma var. sojae. Physiol. PI Path. 1, 265-275.

123. Keen N. T. 1972 Accumulation of wyerone in broad bean and demethylhomopterocarpin in jack bean following inoculation with Phytophthora megasperma var. sojae. Phytopathology 62, 1365.

124. Keen N. T. 1975. Isolation of phytoalexins from germinating seeds of Cicer arietinum. Vigna sinensis, Arachis hypogaea and other plants. Phytopathology 65, 91-92.

125. Keen N. T. 1975. Specific elicitors of plant phytoalexin production: determinants of racespecificity in pathogens. Science 187, 74-75.

126. Keen N. Т., Kennedy B. W. 1974. Hydroxvphaseollin and related isoflavanoids in the hypersensitive resistance reaction of soybeans to Pseudomonas glycinea. Physiol. PL Path. 4, 173-185.

127. Kerr A. 1972. Biological control of crown gall: seed inoculation. J. appl. Bad. 35, 493-497.

128. Kerr A., Flentje N. T. 1957. Host infection in Pellicularia filamentosa controlled by chemical stimuli. Nature. Lond. 179, 204-205.

129. Kerr A., Htay K. 1974. Biological control of crown gall through bacteriocin production. Physiol. Pl. Path. 4, 37-44.

130. Khew K. L., Zentmyer G. A. 1973. Chemotactic response of zoospores of five species of Phytophthora. Phytopathology 63, 1511-1517.

131. Khew K. L., Zentmyer G. A. 1974. Electrotactic response of zoospores of seven species of Phytopthora. Phytopathology 64, 500-507.

132. King L., Hampton R. E., Diachun S. 1964. Resistance to Erysiphe polygoni of red clover infected with bean yellow mosaic virus. Science 146, 1054-1055.

133. Кirally Z., Вarnа В., Ersek Т. 1972. Hypersensitivity as a consequence, not the cause, of plant resistance to infection. Nature, Lond. 239, 456-458.

134. Kitazawa K., Tomiyama K. 1969. Microscopic observatens of infection of potato cell by compatible and incompatible races of Phytophthora infestans. Phytopath. Z. 66, 317-324.

135. Кlement Z., Goodman R. N. 1967. The hypersensitive reaction to infection by bacterial plant pathogens. A. Rev Phytopath. 5, 17-44.

136. Kochman J. K., Brown J. F. 1975. Studies on the mechanism of cross-protection in cereal rusts. Physiol. PI. Path. 6, 19-27.

137. Kommedahl T. 1966. Relation of exudates of pea roots to germination of spores in races of Fusarium oxysporum f. pisi. Phytopathology 56, 721-722.

138. Kubotа Т., Matsuura T. 1953. Chemical studies on the black rot disease of sweet potato. J. Chem. Soc. Japan (Pure Chem. Sect.) 74, 248-251.

139. Kuc J. 1976. Terpenoid phytoalexins. In Biochemical aspects of plant parasite relationships (ed. J. Friend). Academic Press, London. (In press).

140. Kuc J., Shockley G., Kearney K. 1975. Protection of cucumber against Colletotrichum lagenarium by Colletotrichum lagenarium. Physiol. Pl. Path. 7, 195-199.

141. Kuo M. S., Yoder О. C., Scheffer R. P. 1970. Comparative specificity of the toxins of Helminthosporium carbonum and Helminthosporium victoriae. Phytopathology 60, 365-368.

142. Lesepann D. E., Fuchs W. H. 190. Die Ultrastruktur des Penetrations-vorganges von Olpidium brassicae an Kohlrabi- Wurzeln. Archs Mikrobiol 71. 20-30.

143. Letcher R. M., Widdowson D. A., Deverall B. J., Mansfield J. W. 1970. Identification and activity of wyerone acid as a phytoalexin in broad bean (Vicia faba) after infection by Botrytis. Phytochemistry 9, 249-252.

144. Link К. P., Dickson A. D., Walker J. C. 1929. Further observations on the occurrence of protocatechuic acid in pigmented onion scales and its relation to disease resistance in the onion. J. biol. Chem. 84, 719-725.

145. Link K. P., Walker J. C. 1933. The isolation of catechol from pigmented onion scales and its significance in relation to disease resistance in onions. J. biol. Chem. 100, 379-383.

146. Lippincott В. В., Lippincott J. A. 1969. Bacterial attachment to a specific wound site as an essential stage in tumor initiation by Agrobacterium tumefaciens. J. Bad. 97. 620-628.

147. Littlefield L. J. 1969. Flax rust resistance induced by prior inoculation with an avirulent race of Melampsora lini. Phytopathology 59, 1323-1328.

148. Lоebenstein G., Lovrekovich L. 1966. Interference with tobacco mosaic virus local lesion formation in tobacco by injecting heat-killed cells of Pseudomonas syringae. Virology 30, 587-591.

149. Loegering W. Q. 1966. The relationship between host and pathogen in stem rust of wheat. Proceedings of the 2nd International Wheat Genetics Symposium (Lund, 1963). Hereditas, Suppl. 2, 167-177.

150. Lozano J. C., Sequeira L. 1970. Prevention of the hypersensitive reaction in tobacco leaves by heat-killed bacterial cells. Phytopathology 60, 875-879.

151. Lyon F. M., Wood R. K. S. 1975. Production of phaseollin, coumestrol and related compounds in bean leaves inoculated with Pseudomonas spp. Physiol. Pl. Path. 6, 117-124.

152. Lyon G. D. 1972. Occurrence of rishitin and phytuberin in potato tubers inoculated with Erwinia carotovora var. atroseptica. Physiol. Pl. Path. 2, 411-416.

153. Lyon G. D., Bayliss С. E. 1975. The effect of rishitin on Erwinia carotovora var. atroseptica and other hacteria. Physiol. Pl. Path. 6, 177-186.

154. Lyon G. D., Lund В. M., Bayliss С. E., Wyatt G. H. 1975. Resistance of potato tubers to Erwinia carotovora and formation of rishitin and phytuberin in infected tissue. Physiol. Pl. Path. 6, 43-50.

155. Mackо V., Staples R. C., Allen P. J., Renwick J. A. A. 1971. Identification of the germination self-inhibitor from wheat stem rust uredospores. Science 173, 835-836.

156. Macko V., Staples R. C., Renwick J. A. A., Pirone J. 1972. Germination self-inhibitors of rust uredospores. Physiol. Pl. Path. 2, 347-355.

157. Maclean D. J., Sargent J. A. Tommerup I. С., Ingram D. S. 1974. Hypersensitivity as the primary event in resistance to fungal parasites. Nature, Lond 249, 186-187.

158. Magrou J. 1924. L'immunité humorale chez les plantes. Rev. Path. Vég. Entom. Agr. 11, 189-192.

159. Maheshwari R., Allen P. J., Hildebrand A. C. 1967. Physical and chemical factors controlling the development of infection structures from urediospore germ tubes of rust fungi. Phytopathology 57, 855 862.

160. Mansfield J. W., Deverall B. J. 1971. Mode of action of pollen in breaking resistance of Vicia faba to Botrytis cinerea. Nature. Lond. 232, 339.

161. Mansfield J. W., Deverall B. J. 1974. The rates of fungal development and lesion formation in 1 eaves of Vicia faba during infection by Botrytis cinerea and Botrytis fabae. Ann. appl. Biol. 76, 77-89.

162. Mansfield J. W., Deverall B. J. 1974. Changes in wyerone acid concentrations in leaves of Vicia faba after infection by Botrytis cinerea or B. fabae. Ann. appl. Biol. 77, 227-235.

163. Mansfield J. W., Hargreaves J. A., Boyle F. C. 1974. Phytoalexin production by live cells in broad bean leaves infected with Botrytis cinerea. Nature, Lond. 252, 316-317.

164. Mansfield J. W., Widdowson D. A. 1973. The metabolism of wyerone acid (a phytoalexin from Vicia faba L.) by Bolrytis fabae and B. cinerea. Physiol. PL Path. 3, 393-404.

165. Marks G. C., Berbee J. G., Riker A. J. 1965. Direct penetration of leaves of Populus tremuloides by Colletotrichum gloeosporioides. Phytopathology 55, 408-412.

166. Martin J. T. 1964. Role of cuticle in the defense against plant disease. A. Rev. Phytopath. 2, 81-100.

167. Martin J. Т., Juniper В. E. 1970. The cuticles of plants. Edward Arnold, London, 347 pn.

168. Martin T. J., Stuckey R. E., Safir G. R., Ellingboe A. H. 1975. Reduction of transpiration from wheat caused by germinating conidia of Erysaphe graminis f. sp. tritici Physiol. Pl. Path. 7, 71-77.

169. Matthews R. E. F. 1970. Plant virology. Academic Press, New York, London 778 pp.

170. Mayama S., Daly J. M., Rehfeld D. W., Daly C. R. 1975. Hypersensitive response of near-isogenic wheat carrying the temperature-sensitive Sr6 allele for resistance to stem rust Physiol. Pl. Path. 7, 35-47.

171. McIntyre J. L., Kuc J., Williams E. B. 1975. Protection of Bartlett pear against fire blight with deoxyribonucleic acid from virulent and avirulent Erwinia amylovora: Physiol. Pl. Path 7, 153-170.

172. McKeen W. E. 1974. Mode of penetration of epidermal cell walls of Vicia caba by Botrytis cinerea. Phytopathology 64, 461-467.

173. Meehan F. L., Murphy H. C. 1946. A new Helminthosporium blight of oats. Science 104, 413-414.

174. Meehan F. L., Murphy H. C. 1947. Differential phytotoxicity of metabolic by-products of I. elminthosporium victoriae. Science 106. 270-271.

175. Mercer R. С., Wood R. K. S., Greenwood A. D. 1974. Resistance to anthracnose of French bean. Rhysiol. Pl. Path. 4, 291-306.

176. Metlitsкii L. V., Оzeretsкоvsкауa O. L., Vul'fson N. S., Сhalоva L. I. 1971. Chemical nature of lubiinin, a new phytoalexin of potatoes. Dokl. Akad. Nauk SSSR 200, 1470-1472.

177. Müller К. O. 1958. Studies on phytoalexins. I. The formation and immunological significance of phytoalexin produced by Phaseolus vulgaris in response to infections with Sclerotinia fructicola and Phytophthora infestans. Aust. J. biol. Sci. 11; 275-300.

178. Müller К. O. 1959. Hypersensitivity. In Plant pathology, 1, pp. 469-519 (ed. J. G. Horsfall, A. E. Dimond). Academic Press, New York.

179. Müller К. O., Börger H. 1941. Experimented Untersuchungen über die Phytophthora - Resistenz der Kartoffel. Arb. biol. Anst. (Reichsaust) Berl. 23, 189-231.

180. New P. В., Kerr A. 1972. Biological control of crown gall: field measurements and glasshouse experiments. J. appl. Bad. 35, 279-287.

181. Nobecourt P. 1923. Sur la production d'anticorp par les tubercules des Ophrydées. C. r. Acad. Sci. Paris 177, 1055-1057.

182. Nusbaum C. J., Keitt G. W. 1938. A cytological study of host - parasite relations of Venturia inaequatis on apple leaves. J. agric. Res. 56, 595-618.

183. Ogle H., Brown J. F. 1971. Quantitative studies of the post-penetration phase of infection by Puccinia graminis tritici. Ann. appl. Biol. 67, 309-319.

184. Оguni I., Uritani I. 1974. Dehydroipomeamarone as an intermediate in the biosynthesis of ipomeamarone, a phytoalexin from sweet potato root infected with Ceratocystis fimbriata. Pl. Physiol. 53, 649-652.

185. Olah A. F., Sherwood R. T. 1971. Flavones, isoflavones, and coumestans in alfalfa infected by Ascochyta imperfecta. Phytopathology 61, 65-69.

186. Olah A. F., Sherwood R. T. 1973. Glycosidase activity and flavanoid accumulation in alfalfa infected by Ascochyta imperfecta. Phytopathology 63, 739-742.

187. Paxton J., Goodchild D. J., Cruickshank I. A. M. 1974. Phaseollin production by live bean endocarp. Physiol. Pl. Path. 4, 167-171.

188. Perrin D. R. 1964. The structure of phaseollin. Tetrahedron Lett. 1964, 29-35.

189. Perrin D. R., Bottomley W. 1962. Studies on phytoalexins. V. The structure of pisatin from Pisum sativum. L J. Am. chem. Soc. 84, 1919-1922.

190. Perrin D. R., Cruickshank I. A. M. 1965. Studies on phytoalexins. VII. Chemical stimulation of pisatin formation in Pisum sativum L. Aust. J. biol. Sci. 18, 803-816.

191. Perrin D. R., Whittle C. P., Batterham T. J. 1972. The structure of phaseollidin. Tetrahedron Lett. 1972, 1673-1676.

192. Pierre R. E., Millar R. L. 1965. Histology of pathogensuscept relationship of Stemphylium botryosum and alfalfa. Phytopathology 55, 909-914.

193. Pont W. 1959. Blue mould (Peronospora tabacina Adam) of tobacco in North Queensland: some aspects of chemical control. Q. J. agric. Sci. 16, 299-327.

194. Preece T. F. 1963. Micro-exploration and mapping of apple scab infections. Trans. Br. mycol. Soc. 46, 523-529.

195. Preece T. F., Dickinson С. H. 1971. Ecology of leaf surface microorganisms. Academic Press, London, New York. 640 pp.

196. Pringle R. B. 1972. Chemistry of host-specific phytotoxins. In Phytotoxins in plant diseases, pp. 139-154 (ed. R. K. S. Wood, A. Ballio, A. Graniti). Academic Press, London, New York.

197. Pringle R. В., Braun A. С. 1957. The isolation of the toxin of Helminthosporium victoriae. Phytopathology 47, 369-371.

198. Pueppke S. G., Van Etten H. D. 1974. Pisatin accumulation and lesion development in peas infected with Aphanomyces euteiches, Fusarium solani f. sp. pisi, or Rhizoctonia solani. Phytopathology 64. 1433-1440.

199. Rahe J. E. 1973. Occurrence and levels of the phytoalexin phaseollin in relation to delimitation at sites of infection of Phaseolus vulgaris by Colletotrichum lindemuthianum. Can. J. Bot. 51, 2423-2430.

200. Rahe J. E., Arnold R. M. 1975. Injury-related phaseollin accumulation in Phaseolus vulgaris and its implications with regard to specficity of host - parasite interaction. Can. J. Bot. 53, 921-928.

201. Rathmell W. G. 1973. Phenolic compounds and phenylalanine ammonia lyase activity in relation to phytoalexin biosynthesis in infected hypocotyls of Phaseolus vulgaris. Physiol. RL Path. 3, 259-267.

202. Rathmell W. G., Bendall D. S. 1972. The peroxidase-catalysed oxidation of a chalcone and its possible physiological significance. Biochem. J. 127. 125-132.

203. Roberts M. F., Martin J. Т., Peries O. S. 1961. Studies on plant cuticles. IV. The leaf cuticle in relation to invasion by fungi. A. Rep. Long Ashton Res. Sta. I960. 102-110.

204. Rohde R. A., Jenkins W. R. 1958. The chemical basis for resistance of asparagus to the nematode Trichodorus christiei Phytopathology 48, 463.

205. Rоhringer R., Howes N. K., Kim W. K., Sambоrski D. J. 1974. Evidence for a gene-specific RNA determining resistance in wheat to stem rust. Nature, Load. 249, 585-587.

206. Ross A. F., Israel H. W. 1970. Use of heat treatments in the study of acquired resistance to tobacco mosaic virus in hypersensitive tobacco. Phytopathology 60, 755-770.

207. Rоvira A. D. 1965. Plant root exudates and their influence upon soil microorganisms. In Ecology of soil-borne plant pathogens, pp. 170-184. (ed. K. F. Baker, W. C. Snyder). Univ. Calif. Press, Berkeley.

208. Royle D. J., Hickman C. J. 1964. Analysis of factors governing in vitro accumulation of zoospores of Pythium aphanidermatum on roots. I. Behaviour of zoospores. Can J. Microbiol. 10, 151-162.

209. Royle D. J., Hickman C. J. 1964. Analysis of factors governing in vitro accumulation of zoospores of Pythium aphanidermatum on roots. II. Substances causing response. Can. J. Microbiol. 10. 201-219.

210. Royle D. J., Thomas G. G. 1971. The influence of stomatal opening on the infection of hop leaves by Pseudoperonospora humuli. Physiol. Rl. Path. 1, 329 -343.

211. Royle D. J., Thomas G. G. 1973. Factors affecting zoospore responses towards stomata in hop downy mildew (Pseudoperonospora humuli) including some comparisons with grapevine downy mildew (Plasmopara viticola). Physiol. RL Path. 3, 405-417.

212. Sato N., Tomiyama K., Katsui N., Masamune T. 1968. Isolation of rishitin from tomato plants. Ann. Phytopath. Soc. Japan 34, 344-345.

213. Scheffer R. P., Pringle R. B. 1963. Respiratory effects of the selective toxin of Helminthosporium victoriae. Phytopathology 53, 465-468.

214. Scheffer R. P., Yoder О. C. 1972. Host-specific toxins and selective toxicity. In Phytotoxins in plant diseases, pp. 251-269 (ed. R. K. S. Wood, A. Ballio, A. Graniti). Academic Press, London, New York.

215. Schnathorst W. C., Devay J. E. 1963. Common antigens in Xanthomonas malvacearum and Gossypium hirsutum and their possible relationship to host specificity and disease resistance. Phytopathology 53, 1142 (abstr.).

216. Schroth M. N., Hildebrand D. C. 1964. Influence of plant exudates on root-infecting fungi. A. Rev. Phytopath. 2, 101-132.

217. Sequeira L., Aist S., Ainslie V. 1972. Prevention of the hypersensitive reaction in tobacco by proteinaceous constituents of Pseudomonas solanacearum. Phytopathology 62, 536-541.

218. Shih M., Kuc J. 1973. Incorporation of 14C from acetate and mevalonate into rishitin and steroid glycoalkaloids by potato tuber slices inoculated with Phytophthora infestans. Phytopathology 63, 826-829.

219. Shih M., Kuc J., Williams E. B. 1973. Suppression of steroid glycoalkaloid accumulation as related to rishitin accumulation in potato tubers. Phytopathology 63, 821-826.

220. Shimony C., Friend J. 1975. Ultrastructure of the interaction between Phytophthora infestans and leaves of two cultivars of potato (Solanum tuberosum L.) Orion and Majestic. New Phytol. 74, 59-65.

221. de Silva R. L., Wood R. K. S. 1964. Infection of plants by Corticium solani and C. praticola - effect of plant exudates. Trans. Br. mycol. Soc. 47, 15-24.

222. Sims J. J., Keen N. Т., Honwad V. K. 1972. Hydroxyphaseollin, an induced antifungal compound from soybeans. Phytochemistry 11, 827-828.

223. Skipp R. A., Deverall B. J. 1972. Relationships between fungal growth and host changes visible by light microscopy during infection of bean hypocotyls (Phaseolus vulgaris) susceptible and resistant to physiologic races of Colletotrichum lindemuthianum. Physiol. PL Path. 2, 357-374.

224. Skipp R. A., Deverall B. J. 1973. Studies on crossprotection in the anthracnose disease of bean. Physiol. Rl. Path. 3, 299-314.

225. Skipp R. A., Samborski D. J. 1974. The effect of the Sr6 gene for host resistance on histological events during the development of stem rust in near-isogenic wheat lines. Can. J. Bot. 52, 1107-1115.

226. Slesinski R. S., Ellingboe A. H. 1969. The genetic control of primary infection of wheat by Erysiphe graminis f. sp. tritici. Phytopatpology 59, 1833-1837.

227. Slesinski R. S., Ellingboe A. H. 1970. Gene-for-gene interactions during primary infection of wheat by Erysiphe graminis f. sp. tritici. Phytopathology 60, 1068-1070.

228. Slesinski R. S., Ellingboe A. H. 1971. Transfer of 35S from wheat to the powdery mildew fungus with compatible and incompatible parasite/host genotypes. Can. J. Bot. 49, 303-310.

229. Smith A. M. 1973. Ethylene as a cause of soil fungistasis. Nature, Lond. 246, 311-313.

230. Smith A. M., Cook R. J. 1974. Implications of ethylene production by bacteria for biological balance of soil. Nature, Lond. 252, 703-705.

231. Smith D. A., Van Etten H. D., Bateman D. F. 1975. Accumulation of phytoalexins in Phaseolus vulgaris hypocotyls following infection by Rhizoctonia solani. Physiol. Pl. Path. 5, 51-64.

232. Smith D. A., Van Etten H. D., Serum J. W., Jones Т. M., Bateman D. F., Williams T. N., Соffen D. L. 1973. Confirmation of the structure of kievitone, an antifungal isoflavanone isolated from Rhizoctonia-infected bean tissues. Physiol. Pl. Path. 3, 293-297.

233. Smith D. G., McInnes A. G., Higgins V. J., Millar R. L. 1971. Nature of the phytoalexin produced by alfalfa in response to fungal infection. Physiol. Pl. Path. 1, 41-44.

234. Smith O. F. 1938. Host-parasite relations in red clover plants resistant and susceptible to powdery mildew, Erysiphe polygoni J. agric. Res. 57, 671-682.

235. Sörensen N. A. 1961. Some naturally occurring acetylenie compounds. Chem. Soc. (Lond.) Proc. 1961, 98-110.

236. Stakman E. C. 1915. Relation between Puccinia graminis and plants highly resistant to its attack. J. agric. Res. 4, 193-200.

237. Steiner G. W., Byther R. S. 1971. Partial characterization and use of a host specific toxin from Helminthosporium sacchari on sugarcane. Phytopathology 61, 691-695.

238. Steiner P. W., Millar R. L. 1974. Degradation of medicarpin and sativan by Stemphylium botryosum. Phytopathology 64, 586 (abstr.).

239. Stephens G. J., Wood R. K. S. 1975. Killing of protoplasts by soft-rot bacteria. Physiol. PI. Path. 5, 165-181.

240. Sthоlasuta P., Bailey J. A., Severin V., Deverall B. J. 1971. Effect of bacterial inoculation of bean and pea leaves on the accumulation of phaseollin and pisatin. Physiol. Pl. Path. 1, 177-184.

241. Stoessl A. 1972. Inermin associated with pisatin in peas inoculated with the fungus Monilinia fructicola. Can. J. Biocheni. 50, 107-108.

242. Stoessl A., Unwin С. H., Ward E. W. B. 1973. Postinfectional fungus inhibitors from plants: fungal oxidation of capsidiol in pepper fruit. Phytopathology 63, 1225-1231.

243. Strange R. N., Majer J. R., Smith H. 1974. The isolation and identification of choline and betaine as the two major components in anthers and wheat germ that stimulate Fusarium graminearutn in vitro. Physiol. Pl. Path. 4, 277-290.

244. Strange R. N., Smith H. 1971. A fungal growth stimulant in anthers which predisposes wheat to attack by Fusarium graminearum. Physiol. Pl. Path. 1. 141-150.

245. Strobel G. A. 1973. Biochemical basis of the resistance of sugarcane to eyespot disease. Proc. natn. Acad. Sci. USA 70, 1693-1696.

246. Strobel G. A. 1973. Helminthosporoside-binding protein of sugarcane. J. biol. Chem. 248, 1321-1328.

247. Strobel G. A., Hess W. M. 1974. Evidence for the presence of the toxin-binding protein on the plasma membrane of sugarcane cells. Proc. natn. Acad. Sci. USA 71, 1413-1417.

248. Stuckey R. E., Ellingboe A. H. 1974. Elongation of secondary hyphae of Erysiphe graminis f. sp. tritici on wheat with compatible and incompatible parasite/host genotypes. Phytopathology 64, 530-533.

249. Sussman A. S. 1966. Dormancy and spore germination. In The fungi, 2 The fungal organism, pp. 733-764 (ed. G. C. Ainsworth, A. S. Sussman). Academic Press, New York, London.

250. Sztejnberg A., Blakeman J. P. 1973. Ultraviolet-induced changes in populations of epiphytic bacteria on beetroot leaves and their effect on germination of Botrutis cinerea spores. Physiol. PL Path. 3, 443-451.

251. Таlboys P. W. 1972. Resistance to vascular wilt fungi. Proc. R. Soc. Lond. В 181, 319-332.

252. Tomiyama K. 1955. Cytological studies on resistance of potato plants to Phytophthora infestans. 2. The death of the intracellular hypha in the hyrersensitive cell. Ann. Phytopath. Soc. Japan 19, 149-154.

253. Tomiyama K. 1967. Further observations on the time requirement for hypersensitive cell death of potatoes infected by Phytophthora infestans and its relation to metabolic activity. Phytopath. Z. 58, 367-378.

254. Tomiyama K., Sakumа Т., Ishizакa N., Sato N.. Katsui N., Takasugi M., Masamune T. 1968. A new antifungal substance isolated from resistant potato tuber tissue infected by pathogens. Phytopathology 58, 115-116.

255. Tribe H. T. 1955. Studies in the physiology of parasitism. XIX. On the killing of plant cells by enzymes from Botrytis cinerea and Bacterium aroideae. Ann. Bot. 19, 351-371.

256. Trione E. J. 1950. The HCN content of flax in relation to flax wilt resistance. Phytopathology 50, 482-486.

257. Troutman J. L., Wills W. H. 1964. Electrotaxis of Phytophthora parasitica zoospores and its possible role in infection of tobacco by the fungus. Phytopathology 54, 225-228.

258. Turner J. G., Nоvаcky A. 1974. The quantitative relation between plant and bacterial cells involved in the hypersensitive reaction. Phytopathology 64, 885-890.

259. Van Etten H. D., Pueppke S. G. 1976. Isoflavonoid Phytoalexins. In Biochemical aspects of plant parasite relationships (ed. J. Friend). Academic Press, London. (In press.)

260. Van Etten H. D., Smith D. A. 1975. Accumulation of antifungal isoflavanoids and la-hydroxyphaseollone, a phaseollin metabolite, in bean tissue infected with Fusariutn solani f. sp. phaseolL Physiol. Rl. Path. 5, 225-237.

261. Varns J. L., Currier W. W., Kuc J. 1971. Specificity of rishitin and phytuberin accumulation by potato. Phytopathology 61, 968-971.

262. Varns J. L., Kuc J. 1971. Suppression of rishitin and phytuberin accumulation and hypersensitive response in potato by compatible races of Phytophthora infestans. Phytopathology 61, 178-181.

263. Varns J. L., Kuc J., Williams E. B. 1971. Terpenoid accumulation as a biochemical response of the potato tuber to Phytophthora infestans. Phytopathology 61, 174-177.

264. Virtanen A. L, Hietala P. K. 1959. On the structure of the precursors of benzoxazolinone in rye plants. Suom. Kemistilehti 32 (B), 252.

265. Wacek T. J., Sequeira L. 1973. The peptidoglycan of Pseudomonas solanacearum: chemical composition and biological activity in relation to the hypersensitive reaction in tobacco. Physiol. Pl. Path. 3, 363-369.

266. Wahlroos О., Virtanen A. I. 1959. The precursors of 6-methoxybenzoxazolinone in maize and wheat plants, their isolation and some of their properties. Acta. chem. scand. 13, 1906-1908.

267. Wallace H. R. 1973. Nematode ecology and plant disease. Edward Arnold, London, 228 pp.

268. Ward E. W. В., Unwin С. H., Stoessl A. 1973. Postinfectional inhibitors from plants. VI. Capsidiol production in pepper fruit infected with bacteria. Phytopathology 63 1537-1538.

269. Ward H. M. 1905. Recent researches on the parasitism of fungi. Ann. Bot. 19, 1-54.

270. Whalley W. M., Taylor G. S. 1973. Influence of pea-root exudates on germination of conidia and chlamydospores of physiologis reces of Fusarium oxysporum f. pisi. Ann. appl Biol., 73, 269-276.

271. Williams P. H., Aist J. R., Bhattacharya P. K. 1973. Host-parasite relations in cabbage clubroot. In Fungal pathogenicity and the host's response, pp. 141-155 (ed. R. J. W. Byrde, С. V. Cutting). Academic Press, London, New York.

272. Williams P. N., McNabola S. S. 1970. Fine structure of the host - parasite interface of Plasmodiophora brassicae in cabbage. Phytopathology 60, 1557-1561.

273. Wimalajeewa D. L. S., Devay J. A. 1971. The occurrence and characterization of a common antigen relationship between Ustilago maydis and Zea mays. Physiol. Rl. Path. 1, 523-535.

274. Winoto Suatmadji R. 1969. Studies on the effect of Tagetes species on plant-parasitic nematodes. Wageningen. Fonds Landbouw. Export. Bur. Publ 47, 1-132. Veenman, Zonen N. V., Wageningen.

275. Wong E. 1970. Structural and biogenetic relationships of isoflavonoids. Prog. Chem. org. hatur. Prod. 28, 1-73.

276. Wood R. K. S. 1967. Physiological plant pathology. Blackwell, Oxford, Edinburgh, 570 pp.

277. Yang S. L., Ellingbоe A. H. 1972. Cuticle layer as a determining factor for the formation of mature appressoria of Erysiphe graminis on wheat and barley. Phytopathology 62, 708-714.

278. Yarwood С. E. 1954. Mechanism of acquired immunity to a plant rust. Proc. natn. Acad. Sci. USA 40, 374-377.

279. Yarwood С. E. 1956. Cross protection with two rust fungi. Phytopathology 46, 540-544.

280. Yoder О. C. 1972. Host-specific toxins as determinants of successful colonization by fungi. In Phytotoxins in plant diseases, pp. 457-460 (ed. R. K. S. Wood, A. Ballio, A. Graniti). Academic Press, London, New York.

281. Zaki A. I., Keen N. Т., Sims J. J., Erwin D. C. 1972. Vergosin and hemigossypol, antifungal compounds produced in cotton plants inoculated with Verticillium alboatrum. Phytopathology 62, 1398-1401.

282. Zentmyer G. A. 1961. Chemotaxis of zoospores for root exudates. Science 133, 1595-1596.

предыдущая главасодержаниеследующая глава

Фрукты, которые могут вас убить

Растения-сорняки отрастили пыточные шипы для защиты от насекомых

Растения в первую очередь защищают от вредителей свои цветки

Десять фактов, которые вы не знали о бамбуке

Тысячелетняя роза - цветок, переживший бомбежки, пожары и разрушения

Ученые открыли новый способ повышения устойчивости растений

Растения умеют искать воду

На Шпицбергене подтопило международный банк семян

Растения научились приручать шмелей никотином

«Все равно что сжечь шедевры Лувра»

Семена вьюнка способны выдержать космическое путешествие

Топ-10 самых ядовитых растений в мире

Растения приспосабливаются к новым опылителям всего за несколько поколений

Биологи рассказали о растениях, имитирующих животных

Растения обнаружены на рекордной высоте

Самые опасные растения, о которых нужно знать, чтобы не стать их жертвами

В МГУ заработал один из крупнейших в мире цифровых гербариев

Растения с трех континентов пришли к хищничеству одним путем

© Злыгостев Алексей Сергеевич, подборка материалов, оцифровка, оформление, разработка ПО, 2001-2018
При копировании материалов проекта обязательно ставить активную ссылку на страницу источник:
http://plantlife.ru/ 'PlantLife.ru: Статьи и книги о растениях'

Рейтинг@Mail.ru Ramblers Top100