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Physiology of resistance to fungal diseases in plants

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Literature Cited

  1. Akazawa, T. 1956. Nature of protein synthesis in sweetpotato infected withCeratostomella fimbriata. Science123: 1075–1076.

    PubMed  CAS  Google Scholar 

  2. —, andI. Uritanl 1955. Respiratory increase and phosphorus and nitrogen metabolism in sweet potato infected with black rot. Nature176: 1071–1072.

    CAS  Google Scholar 

  3. —, andK. Wada. 1961. Analytical study of ipomeamarone and chlorogenic acid alterations in sweet potato roots infected byCeratocystis fimbriata. Plant Physiol.36: 139–144.

    PubMed  CAS  Google Scholar 

  4. Allen, P. J. 1942. Changes in the metabolism of wheat leaves induced by infection with powdery mildew. Amer. Jour. Bot.29: 425–435.

    CAS  Google Scholar 

  5. —. 1953. Toxins and tissue respiration. Phytopathology43: 221–229.

    Google Scholar 

  6. —. 1954. Physiological aspects of fungus diseases of plants.In: Ann. Rev. Plant Physiol.5: 225–248. Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  7. —. 1955. The role of a self-inhibitor in the germination of rust uredospores. Phytopathology45: 259–266.

    CAS  Google Scholar 

  8. —. 1956. Properties of a volatile fraction from uredospores ofPuccinia graminis var.tritici affecting their germination and development. I. Biological activity. Plant Physiol.31 (Suppl.): xxix.

    Google Scholar 

  9. —. 1957. Properties of a volatile fraction from uredospores ofPuccinia graminis var.tritici affecting their germination and development. I. Biological activity. Plant Physiol.32: 385–389.

    PubMed  CAS  Google Scholar 

  10. —. 1959. Physiology and biochemistry of defense.In: “Plant pathology. Vol. I. The diseased plant.” Ed. byJ. G. Horsfall andA. E. Dimond, Academic Press, New York, pp. 435–467.

    Google Scholar 

  11. — 1959. Metabolic considerations of obligate parasitism.In: “Plant Pathology Problems and Progress 1908–1958,” Univ. Wisc. Press, Madison, pp. 119–129.

    Google Scholar 

  12. —. 1964. Separation and concentration of an endogenous inhibitor of rust uredospore germination. Plant Physiol.39 (Suppl.): xxviii.

    Google Scholar 

  13. Angell, H. R., J. C. Walker, andK. P. Link. 1930. The relation of protocatechuic acid to disease resistance in the onion. Phytopathology20: 431–438.

    CAS  Google Scholar 

  14. Anonymous. 1960. Biochemistry of rust resistance. Nature of resistance. Resistance through induced mutations. U.S. Forest Serv., Intermountain Forest and Range Exp. Sta. Ann. Rep.9: 9–10.

  15. -. 1960. Breakthrough on plant disease. Agr. Res.8: 3–4.

  16. Arthur, J. C. 1929. The plant rusts (Uredinales). John Wiley & Sons, New York, 446 pp.

    Google Scholar 

  17. Atkinson, T. G., andP. J. Allen. 1966 Purification and partial characterization of a factor in cotton wax stimulating the germination of self-inhibited wheat stem rust uredospores. Plant Physiol.41: 28–33.

    PubMed  CAS  Google Scholar 

  18. Bailey, D. L., andR. L. Lowther. 1962. Studies on the nature of resistance in tomato toCladosporium fulvum Cooke. Canad. Jour. Bot.40: 1095–1106.

    CAS  Google Scholar 

  19. Barnes, E. H. 1960. The role of phloridzin and other phenolic compounds in the host-parasite physiology of the apple scab disease, incited byVenturia inaequalis (Cke.) Wint. Diss. Abstr.20: 2509–2510.

    Google Scholar 

  20. ——, andE. B. Williams. 1960. A biochemical response of apple tissues to fungus infection. Phytopathology50: 844–846.

    CAS  Google Scholar 

  21. —— 1961. The role of phloridzin in the host-parasite physiology of apple scab disease. Canad. Jour. Microbiol.7: 525–534.

    CAS  Google Scholar 

  22. Barnes, J. M. 1959. Extraction and bioassay of an antifungal substance from inbreds and hybrids of corn differing in susceptibility toGibberella zea. (Abstr.) Phytopathology49: 533.

    Google Scholar 

  23. Barnett, H. L. 1959. Plant disease resistance.In: Ann. Rev. Microbiol.13: 191–210. Annual Reviews, Inc., Palo Alto, Calif.

    Google Scholar 

  24. —, andV. G. Lilly. 1951. The inhibitory effects of sorbose on fungi. Science114: 439–440.

    PubMed  CAS  Google Scholar 

  25. Barton, R. 1957. Germination of oospores ofPythium mamillatum in response to exudates from living seedlings. Nature180: 613–614.

    Google Scholar 

  26. Bhowmik, T., andR. Prasada. 1963. Self-inhibition of uredospore germination in maize rust,Puccinia sorghi Schw. Indian Phytopath.16: 195–200.

    Google Scholar 

  27. Bier, J. E. 1963. The possibility of establishing clinical indices in trees to determine their level of vigor and vulnerability to diseases caused by facultative parasites. World Consultation on Forest Genetics and Tree Improvement, Stockholm, 8 pp.

    Google Scholar 

  28. Blackhurst, F. M. 1963. Induction ofVerticillium wilt disease symptoms in detached shoots of resistant and susceptible tomato plants. Ann. Appl. Biol.52: 79–88.

    Google Scholar 

  29. Bolar, M. L. 1963. Organic acid metabolism in rust-affected plant tissues. Diss. Abstr.24: 1330.

    Google Scholar 

  30. Braun, A. C. 1959. The role of toxins and other metabolites in the causation of disease in plants. Trans. New York Acad. Sci.21: 613–619.

    Google Scholar 

  31. —, andR. B. Pringle. 1959. Pathogen factors in the physiology of disease -toxins and other metabolites.In: “Plant Pathology Problems and Progress 1908–1958,” Univ. Wisc. Press, Madison, pp. 88–99.

    Google Scholar 

  32. Brian, P. W. 1955. The role of toxins in the etiology of plant diseases caused by fungi and bacteria. Symp. Soc. Gen. Microbiol.5: 294–319.

    Google Scholar 

  33. Brown, W. 1934. Mechanism of disease resistance in plants. Trans. Brit. Mycol. Soc.19: 11–33.

    CAS  Google Scholar 

  34. —. 1936. The physiology of host-parasite relations. Bot. Rev.2: 236–281.

    Google Scholar 

  35. —. 1955. On the physiology of parasitism in plants. Ann. Appl. Biol.43: 325–341.

    Google Scholar 

  36. —,F. T. Brooks, andF. C. Bawden. 1948. A discussion on the physiology of resistance to disease in plants. Proc. Roy. Soc. (London) B135: 171–195.

    Google Scholar 

  37. —, andC. C. Harvey. 1927. Studies in the physiology of parasitism. X. On the entrance of parasitic fungi into the host plant. Ann. Bot.41: 643–662.

    Google Scholar 

  38. Browning, J. A. 1954. Breakdown of rust resistance in detached leaves of normally resistant oat varieties. (Abstr.) Phytopathology44: 483.

    Google Scholar 

  39. Burkhardt, H. J., J. V. Maizell, andH. K. Mitchell. 1964. Avenacin, an antimicrobial substance isolated fromAmena sauva. II. Structure. Biochemistry3: 426–431.

    CAS  Google Scholar 

  40. Burrows, V. D. 1960. Nature of resistance of oat varieties to races of oat stem rust. Nature188: 957–958.

    Google Scholar 

  41. Bushnell, W. R., andP. J. Allen. 1962. Respiratory changes in barley leaves produced by single colonies of powdery mildew. Plant Physiol.37: 751–758.

    PubMed  CAS  Google Scholar 

  42. ——. 1962. Induction of disease symptoms in barley by powdery mildew. Plant Physiol.37: 50–59.

    PubMed  CAS  Google Scholar 

  43. Byrde, R. J. W. 1957. The varietal resistance of fruits to brown rot. II. The nature of resistance in some varieties of cider apples. Jour. Hort. Sci.32: 227–238.

    Google Scholar 

  44. —,A. H. Fielding, andA. H. Williams. 1960. The role of oxidized polyphenols in the varietal resistance of apples to brown rot.In: “Phenolics in Plants in Health and Disease,” Ed. byJ. B. Pridham, Pergamon Press, New York, pp. 95–99.

    Google Scholar 

  45. Caltrider, P. G. 1963. Germination and enzymes for glucose metabolism in fungus spores. Diss. Abstr.23: 4058.

    Google Scholar 

  46. —, andD. Gottlieb. 1963. Respiratory activity and enzymes for glucose catabolism in fungus spores. Phytopathology53: 1021–1030.

    CAS  Google Scholar 

  47. —,S. Romachandran, andD. Gottlieb. 1963. Metabolism during germination and function of glyoxalate enzymes in uredospores of rust fungi. Phytopathology53: 86–92.

    CAS  Google Scholar 

  48. Chester, K. S. 1933. The problem of acquired physiological immunity in plants. Quart. Rev. Biol.8: 129–154, 275–324.

    Google Scholar 

  49. Christensen, J. J., andJ. E. DeVay. 1955. Adaptation of plant pathogen to host.In: Ann. Rev. Plant Physiol.6: 367–392. Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  50. Clark, R. S., J. Kuć, R. E. Henze, andF. W. Quackenbush. 1959. The nature and fungitoxicity of an amino acid addition product of chlorogenic acid. Phytopathology49: 594–597.

    CAS  Google Scholar 

  51. Condon, P., andJ. Kuć. 1959. A biochemical mechanism for the resistance of carrot root tissue to attack byCeratostomella fimbriata. (Abstr.) Phytopathology49: 536.

    Google Scholar 

  52. ——. 1960. Isolation of a fungitoxic compound from carrot tissue inoculated withCeratocystis fimbriata. Phytopathology50: 267–270.

    CAS  Google Scholar 

  53. Couey, H. M., andF. G. Smith. 1961. Effect of cations on germination and germ tube development ofPuccinia coronata uredospores. Plant Physiol.36: 14–19.

    PubMed  CAS  Google Scholar 

  54. Craft, C. C., andW. V. Audia. 1962. Phenolic substances associated with woundbarrier formation in vegetables. Bot. Gaz.123: 211–219.

    CAS  Google Scholar 

  55. Cruikshank, I. A. M. 1962. Studies on phytoalexins. IV. The antimicrobial spectrum of pisatin. Austral. Jour. Biol. Sci.15: 147–159.

    Google Scholar 

  56. —. 1963. Disease resistance in plants-a review of some recent developments. Jour. Austral. Inst. Agr. Sci.29: 23–30.

    Google Scholar 

  57. —. 1963. Phytoalexins.In: Ann. Rev. Phytopath.1: 351–374. Annual Reviews, Inc., Palo Alto, Calif.

    Google Scholar 

  58. —, andD. R. Perrin. 1961. Studies on phytoalexins. III. The isolation, assay, and general properties of a phytoalexin fromPisum sativum L. Austral. Jour. Biol. Sci.14: 336–348.

    Google Scholar 

  59. ——. 1963. Studies on phytoalexins. VI. Pisatin: the effect of some factors on its formation inPisum sativum L., and the significance of pisatin in disease resistance. Austral. Jour. Biol. Sci.16: 111–128.

    Google Scholar 

  60. Daly, J. M., A. A. Bell, andL. R. Krupka. 1961. Respiratory changes during development of rust diseases. Phytopathology51: 461–471.

    Google Scholar 

  61. ——, andJ. H. Pazur. 1957. The hexose monophosphate shunt as the major respiratory pathway during sporulation of rust of safflower. Plant Physiol.32: 44–48.

    PubMed  CAS  Google Scholar 

  62. —, andB. J. Deverall. 1963. Metabolism of indoleacetic acid in rust diseases. I. Factors influencing rates of decarboxylation. Plant Physiol.38: 741–750.

    PubMed  CAS  Google Scholar 

  63. —, andR. E. Inman. 1958. Changes in auxin levels in safflower hypocotyls infected withPuccinia carthami. Phytopathology48: 91–97.

    CAS  Google Scholar 

  64. —, andS. G. Jensen. 1961. Evidence for functional cytochrome oxidase in tissues infected by obligate parasites. Phytopathology51: 759–765.

    CAS  Google Scholar 

  65. —, andR. M. Sayre. 1957. Relations between growth and respiratory metabolism in safflower infected byPuccinia carthami. Phytopathology47: 163–168.

    CAS  Google Scholar 

  66. Dastur, R. H., andJ. G. Bhatt. 1964. Relation of potassium toFusarium wilt of flax. Nature201: 1243–1244.

    CAS  Google Scholar 

  67. Davis, D. 1964. Host fungitoxicants in selective pathogenicity ofFusarium oxysporum. Phytopathology54: 290–293.

    CAS  Google Scholar 

  68. —, andA. E. Dimond. 1952. Altering resistance to disease with synthetic organic chemicals. Phytopathology42: 563–567.

    CAS  Google Scholar 

  69. ——. 1954. The source and role of phenols inFusarium wilt symptoms. (Abstr.) Phytopathology44: 485–486.

    Google Scholar 

  70. —,P. E. Waggoner, andA. E. Dimond. 1953. Conjugated phenols in theFusarium wilt syndrome. Nature172: 959–961.

    CAS  Google Scholar 

  71. DeGroot, R. C. 1963. Wood extractive content andFames pini infection of eastern white pine. (Abstr.) Phytopathology53: 873.

    Google Scholar 

  72. Dekker, J. 1963. Effect of kinetin on powdery mildew. Nature197: 1027–1028.

    CAS  Google Scholar 

  73. Deverall, B. J., andJ. M. Daly. 1964. Metabolism of indoleacetic acid in rust diseases. II. Metabolites of carboxyl-labelled indoleacetic acid in tissues. Plant Physiol.39: 1–9.

    PubMed  CAS  Google Scholar 

  74. —, andJ. C. Walker. 1963. A physiological difference between bean leaves (Phaseolus vulgaris), resistant and susceptible to halo blight, caused byPseudomonas phaseolicola. Ann. Appl. Biol.52: 105–115.

    Google Scholar 

  75. Dickinson, S. 1949. Studies in the physiology of obligate parasitism. I. The stimuli determining the direction of growth of the germ-tubes of rust and mildew spores. Ann. Bot. N.S.13: 89–104.

    Google Scholar 

  76. —. 1949. Studies in the physiology of obligate parasitism. II. The behavior of the germ-tubes of certain rusts in contact with various membranes. Ann. Bot. N.S.13: 219–236.

    Google Scholar 

  77. —. 1949. Studies in the physiology of obligate parasitism. IV. The formation on membranes of haustoria by rust hyphae and powdery mildew germtubes. Ann. Bot. N.S.13: 345–353.

    Google Scholar 

  78. Dobbs, C. G., andW. H. Hinson. 1953. A widespread fungistasis in soils. Nature172: 197–199.

    PubMed  CAS  Google Scholar 

  79. Doubly, J. A., H. H. Flor, andC. O. Clagett. 1960. Relation of antigens ofMelampsora lini andLinum usitatissitnum to resistance and susceptibility. Science131: 229.

    PubMed  Google Scholar 

  80. Dufrenoy, J. 1936. Cellular immunity. Amer. Jour. Bot.23: 70–79.

    Google Scholar 

  81. —, andT. Fremont. 1931. [The influence of temperature on the reactions of maize to fusarial infection.] Phytopath. Zeitschr.4: 37–41.

    Google Scholar 

  82. Echandi, E., andC. E. Fernandez. 1962. Relation between chlorogenic acid content and resistance to coffee canker incited byCeratocystis fimbriata. Phytopathology52: 544–546.

    Google Scholar 

  83. Elnaghy, M. A., andP. Linko. 1962. The role of 4-o-glucosyl-2, 4-dihydroxy-7methoxy-l,4-benzoxazin-3-one in resistance of wheat to stem rust. Physoil. Plant.15: 764–771.

    CAS  Google Scholar 

  84. Emge, R. G. 1958. The influence of light and temperature on the formation of infection-type structures ofPuccinia graminis var.tritici on artificial substrates. Phytopathology48: 649–652.

    Google Scholar 

  85. Ezekial, W. N. 1930. Studies on the nature of physiologic resistance toPuccinia graminis tritici. Minn. Agr. Exp. Sta., Tech. Bull.67: 1–62.

    Google Scholar 

  86. Farkas, G. L. 1957. Some notes on the metabolic interactions between host and parasite. Acta Biol., Acad. Sci. Hungary7: 315–322.

    CAS  Google Scholar 

  87. —, andZ. Király. 1955. Studies on the respiration of wheat infected with stem rust and powdery mildew. Physiol. Plant.8: 877–887.

    CAS  Google Scholar 

  88. ——. 1958. Enzymological aspects of plant diseases. I. Oxidative enzymes. Phytopath. Zeitschr.31: 251–272.

    Google Scholar 

  89. ——. 1961. Amide metabolism in wheat leaves infected with stem rust. Physiol. Plant.14: 344–353.

    CAS  Google Scholar 

  90. ——. 1962. Role of phenolic compounds in the physiology of plant diseases and disease resistance. Phytopath. Zeitschr.44: 105–150.

    CAS  Google Scholar 

  91. —, andG. A. Ledingham. 1959. The relation of self-inhibition of germination to the oxidative metabolism of stem rust uredospores. Canad. Jour. Microbiol.5: 141–151.

    CAS  Google Scholar 

  92. ——. 1959. Studies on the polyphenol-polyphenoloxidase system of wheat stem rust uredospores. Canad. Jour. Microbiol.5: 37–46.

    CAS  Google Scholar 

  93. Flentje, N. T. 1957. Studies onPellicularia filamentosa (Pat.) Rogers. III. Host penetration and resistance, and strain specialization. Trans. Brit. Mycol. Soc.40: 322–336.

    Google Scholar 

  94. —. 1959. The physiology of penetration and infection.In: “Plant Pathology Problems and Progress 1908–1958,” Univ. Wisc. Press, Madison, pp. 76–87.

    Google Scholar 

  95. —,R. L. Dodman, andA. Kerr. 1963. The mechanism of host penetration byThanatephorus cucumeris. Austral. Jour. Biol. Sci.16: 784–799.

    Google Scholar 

  96. Flor, H. H. 1955. Host-parasite interaction in flax rust-its genetics and other implications. Phytopathology45: 680–685.

    Google Scholar 

  97. —. 1956. The complementary genic systems in flax and flax rust.In: “Advances in Genetics,” Academic Press, New York, pp. 29–52.

    Google Scholar 

  98. Forsyth, F. R. 1955. The nature of the inhibiting substance emitted by germinating urediospores ofPuccinia graminis var.tritici. Canad. Jour. Bot.33: 363–373.

    CAS  Google Scholar 

  99. —, andD. J. Samborski. 1958. The effect of various methods of breaking resistance on stem rust reaction and content of soluble carbohydrate and nitrogen in wheat leaves. Canad. Jour. Bot.36: 717–723.

    CAS  Google Scholar 

  100. Frear, D. S., andM. A. Johnson. 1961. Enzymes of the glyoxalate cycle in germinating uredospores ofMelampsora lini (Pers.) Lev. Biochim. et Biophys. Acta47: 419–421.

    CAS  Google Scholar 

  101. French, R. C., L. M. Massey, Jr., andR. L. Weintraub. 1957. Properties of a volatile fraction from uredospores ofPuccinia graminis var.tritici affecting their germination and development. II. Some physical and chemical properties. Plant Physiol.32: 389–393.

    PubMed  CAS  Google Scholar 

  102. Fuchs, W. H. 1956. Ein Beitrag zur pathologischen Physiologie. Angew. Bot. 30: 141–146.

    Google Scholar 

  103. Garber, E. D. 1961. Nutritional aspects of the host-parasite relationship.In: “Recent Advances in Botany II,” Univ. Toronto Press, pp. 1004–1007.

  104. Gäumann, E. R. Braun, undG. Bazzigher. 1950. Über induzierte Abwehrreaktionen bei Orchideen. Phytopath. Zeitschr.17: 36–62.

    Google Scholar 

  105. Gerwitz, D. L. 1963. Some physiological changes in bean due to infection byUromyces phaseoli typica. Diss. Abstr.24: 21–22.

    Google Scholar 

  106. Givan, C. V., andK. R. Bromfield. 1964. Light inhibition of uredospore germination inPuccinia graminis var.tritici. Phytopathology54: 382–384.

    Google Scholar 

  107. Goodwin, R. H., andF. Kavanagh. 1949. The isolation of scopoletin, a bluefluorescing compound from oat roots. Bull. Torrey Bot. Club76: 255–265.

    CAS  Google Scholar 

  108. Gothoskar, S. S., R. P. Scheffer, M. A. Stahmann, andJ. C. Walker. 1955. Further studies on the nature ofFusarium resistance in tomato. Phytopathology45: 303–307.

    Google Scholar 

  109. Gottlieb, D. 1950. The physiology of spore germination in fungi. Bot. Rev.16: 229–257.

    CAS  Google Scholar 

  110. —, andP. G. Caltrider. 1962. Synthesis during the germination of uredospores of rust fungi. (Abstr.) Phytopathology52: 11.

    Google Scholar 

  111. —, andJ. A. Garner. 1946. Rust and phosphorus distribution in wheat leaves. Phytopathology36: 557–564.

    CAS  Google Scholar 

  112. —, andH. Hart. 1943. Growth substances and the rust fungi. Phytopathology33: 724–728.

    CAS  Google Scholar 

  113. Grainger, J. 1956. Host nutrition and attack by fungal parasites. Phytopathology46: 445–456.

    CAS  Google Scholar 

  114. Greathouse, G. A., andN. E. Rigler. 1940. The chemistry of resistance of plants toPhymatotrichum root rot. IV. Toxicity of phenolic and related compounds. Amer. Jour. Bot.27: 99–108.

    CAS  Google Scholar 

  115. Gubanov, G. Ya. 1963. [The conversion of phenolic substances in wilt-infected cotton.] Soviet Plant Physiol.9: 489–492.

    Google Scholar 

  116. Hadwiger, L. A., andC. V. Hall. 1963. A biochemical study of the host-parasitic relationship betweenColletotrichum lagenarium Ell. & Halst, and cucurbit hosts. Amer. Soc. Hort. Sci. Proc.82: 378–387.

    CAS  Google Scholar 

  117. Hafiz, A. 1952. Basis of resistance in gram toMycosphaerella blight. Phytopathology42: 422–424.

    Google Scholar 

  118. Hampton, R. E. 1963. Activity of some soluble oxidases in carrot slices infected withThielaviopsis basicola. Phytopathology53: 497–499.

    CAS  Google Scholar 

  119. Hare, R. C. 1964. Indoleacetic acid oxidase. Bot. Rev.30: 129–165.

    CAS  Google Scholar 

  120. Harrison, E. M. 1960. Some chemical aspects of resistance toCercospora leaf spot in sugar beets. Diss. Abstr.21: 1357.

    Google Scholar 

  121. Hart, H. 1949. Nature and variability of disease resistance in plants.In: Ann. Rev. Microbiol.3: 289–316 Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  122. —, andI. L. Forbes. 1935. The effect of light on the initiation of rust infection. Phytopathology25: 715–725.

    Google Scholar 

  123. Heimburger, C. 1962. Breeding for disease resistance in forest trees. Forestry Chron.38: 356–362.

    Google Scholar 

  124. Heitefuss, R., D. J. Buchanan-Davidson, M. A. Stahmann, andJ. C. Walker. 1960. Electrophoretic and immunochemical studies of proteins in cabbage infected withFusarium oxysporum f.conglutinans. Phytopathology50: 198–205.

    CAS  Google Scholar 

  125. —, undW. H. Fuchs. 1961. Untersuchungen zum Phosphatstoffwechsel von Weizenkeimpflanzen nach Infection mitPuccinia graminis tritici. Naturwiss.48: 505–506.

    CAS  Google Scholar 

  126. Hellinga, J. J. A. 1940. On the effect of substances produced by fungi on the respiration of the tissue of potato tubers. I, II. K. Nederland. Akad. Wetenschap. Proc.43: 249–276.

    CAS  Google Scholar 

  127. Herrman, K. 1962. [The importance of polyphenolic compounds and o-polyphenoloxidases for the disease resistance of cultivated plants.] (English summary.) Planta Med.10: 29–47.

    Google Scholar 

  128. Hillis, W. E., andM. Hasegawa. 1963. The formation of polyphenols in trees. I. Administration of14C glucose and subsequent distribution of radioactivity. Phytochemistry2: 195–199.

    CAS  Google Scholar 

  129. Hobbs, C. D., andM. C. Futrell. 1963. Influence of vitamins and other compounds on the degree of infection of wheat byPuccinia graminis tritici. Phytopathology53: 230–231.

    Google Scholar 

  130. Hobbs, E. L. 1960. Factors affecting germinability of urediospores ofPuccinia coronata. (Abstr.) Phytopathology50: 639.

    Google Scholar 

  131. Holowczak, J., J. Kuc, andE. B. Williams. 1962. Metabolism of dland 1phenylalanine inMalus related to susceptibility and resistance toVenturia inaequalis. Phytopathology52: 699–703.

    CAS  Google Scholar 

  132. Horsfall, J. G., andA. E. Dimond (eds.) 1960. Plant Pathology-An Advanced Treatise. Vols. I, II, III. Academic Press, N. Y.

    Google Scholar 

  133. Hubbes, M. 1962. Inhibition ofHypoxylon pruinatum by pyrocatechol isolated from bark of aspen. Science136: 156.

    PubMed  CAS  Google Scholar 

  134. Hughes, J. C., andT. Swain. 1960. Scopolin production in potato tubers infected withPhytophthora infestans. Phytopathology50: 398–400.

    CAS  Google Scholar 

  135. Humphrey, H. B., andJ. Dufrenoy. 1944. Host-parasite relationship between the oat plant (Avena spp.) and crown rust (Puccinia coronata). Phytopathology34: 21–40.

    Google Scholar 

  136. Hutchinson, W. G. 1935. Resistance ofPinus sylvestris to a gall-formingPeridermium. Phytopathology25: 819–843.

    Google Scholar 

  137. Ivanova, T. M, andB. A. Rubin. 1963. [Dehydrogenase participation in defense reactions of cabbage againstBotrytis cinerea.] (English summary). Biochimiya28: 288–294.

    CAS  Google Scholar 

  138. Jackson, L. W. R., andJ. N. Parker. 1958. Anatomy of fusiform rust galls on loblolly pine. Phytopathology48: 637–640.

    Google Scholar 

  139. Jain, A. C., andR. L. Pelletier. 1958. Effects of rust infection on the carbohydrate metabolism of wheat seedlings. Nature182: 882–883.

    CAS  Google Scholar 

  140. Johnson, G., andL. A. Schaal. 1957. Chlorogenic acid and other orthodihydricphenols in scab-resistant Russet Burbank and scab-susceptible Triumph potato tubers of different maturities. Phytopathology47: 253–255.

    CAS  Google Scholar 

  141. ——. 1957. Accumulation of phenolic substances and ascorbic acid in potato tuber tissue upon injury and their possible role in disease resistance. Amer. Potato Jour.34: 200–209.

    CAS  Google Scholar 

  142. Johnson, T. 1946. The effect of DDT on the stem rust reaction of Khapli wheat. Canad. Jour. Res. (C)24: 23–25.

    Google Scholar 

  143. Johnstone, K. H. 1931. Observations on the varietal resistance of the apple to scab (Venturia inaequalis Aderh.) with special reference to its physiological aspects. Part II. Jour. Pomol.9: 195–227.

    CAS  Google Scholar 

  144. Kasting, R., A. J. McGinnis, andW. C. Broadfoot. 1959. Biosynthesis of some amino-acids from sucrose by germinating uredospores of wheat stem rust, race 15B. Nature184: 1943.

    CAS  Google Scholar 

  145. Kerr, A., andN. T. Flentje. 1957. Host infection inPellirularia filamentosa controlled by chemical stimuli. Nature179: 204–205.

    CAS  Google Scholar 

  146. Király, Z., andG. L. Farkas. 1957. Decrease in glycolic acid oxidase activity of wheat leaves infected withPuccinia graminis var.tritici. Phytopathology47: 277–278.

    Google Scholar 

  147. ——. 1959. Biochemical trends in plant pathology. Phytopath. Zeitschr.34: 341–364.

    Google Scholar 

  148. ——. 1962. Relation between phenol metabolism and stem rust resistance in wheat. Phytopathology52: 657–664.

    Google Scholar 

  149. Kirkham, D. S. 1954. Significance of the ratio between the water soluble aromatic and nitrogen constituents of apple and pear in the host-parasite relationships ofVenturia species. Nature173: 690–691.

    PubMed  CAS  Google Scholar 

  150. —. 1957. The significance of polyphenolic metabolites of apple and pear in the host relations ofVenturia inaequalis andVenturia pirina. Jour. Gen. Microbiol.17: 491–504.

    CAS  Google Scholar 

  151. —. 1959. Host factors in the physiology of disease.In: “Plant Pathology Problems and Progress 1908–1958,” Univ. Wisc. Press, Madison, pp. 110–118.

    Google Scholar 

  152. —, andA. E. Flood. 1956. Inhibition ofVenturia spp. by analogues of host metabolites. Nature178: 422–423.

    PubMed  Google Scholar 

  153. —, andL. D. Hunter. 1964. Systemic antifungal activity of isobutyl o-coumarate in apple. Nature201: 638–639.

    PubMed  CAS  Google Scholar 

  154. Klarman, W. L. 1963. Resistance of soybeans to threePhytophthora species due to the production of a phytoalexin. Diss. Abstr.23: 4059–4060.

    Google Scholar 

  155. —, andJ. W. Gerdemann. 1963. Induced susceptibility in soybean plants genetically resistant toPhytophthora sojae. Phytopathology53: 863–864.

    Google Scholar 

  156. Kline, D. M., D. M. Boone, andG. W. Keitt. 1957.Venturia inaequalis (Cke.) Wint. XIV. Nutritional control of pathogenicity of certain induced biochemical mutants. Amer. Jour. Bot.44: 797–803.

    CAS  Google Scholar 

  157. Knypl, J. S. 1963. A fungistatic action of coumarin. Nature200: 800–802.

    PubMed  CAS  Google Scholar 

  158. Krupka, L. R. 1959. Metabolism of oats susceptible toHelminthosporium victoriae and victorin. Phytopathology49: 587–594.

    CAS  Google Scholar 

  159. Kuc, J. 1957. A biochemical study of the resistance of potato tuber tissue to attack by various fungi. Phytopathology47: 676–680.

    CAS  Google Scholar 

  160. —,E. Barnes, A. Daftsios, andE. B. Williams. 1959. The effect of amino acids on susceptibility of apple varieties to scab. Phytopathology49: 313–315.

    Google Scholar 

  161. —,R. E. Henze, A. J. Ullstrup, andF. W. Quackenbush. 1956. Chlorogenic and caffeic acids as fungistatic agents produced by potatoes in response to inoculation withHelminthosporium carbonum. Jour. Amer. Chem. Soc.78: 3123–3125.

    Google Scholar 

  162. —,A. J. Ullstrup, andF. W. Quackenbush. 1955. Production of fungistatic substances by plant tissue after inoculation. Science122: 1186–1187.

    Google Scholar 

  163. Kuprevitch, W. T. 1940. [Intercellular enzymes of rusts and some other parasitic fungi.] Compt. rend. (Doklady) Acad. Sci. U.R.S.S.26: 702–705.

    Google Scholar 

  164. Lee, S. F., andD. Le Tourneau. 1958. Chlorogenic acid content andVerticillium wilt resistance of potatoes. Phytopathology48: 268–274.

    CAS  Google Scholar 

  165. Le Tourneau, D.,J. G. McLean, andJ. W. Guthrie. 1957. Effect of some phenols and quinones on growthin vitro ofVerticillium albo-atrum. Phytopathology47: 602–606.

    Google Scholar 

  166. Lewis, R. W. 1953. An outline of the balance hypothesis of parasitism. Amer. Naturalist87: 273–281.

    CAS  Google Scholar 

  167. —. 1962. Effects of some metabolites on the susceptibility of rye toClaviceps purpurea. Phytopathology52: 973–975.

    CAS  Google Scholar 

  168. Lieberman, M., andJ. B. Biale. 1956. Oxidative phosphorylation by sweet potato mitochondria and its inhibition by polyphenols. Plant Physiol.31: 420–424.

    PubMed  CAS  Google Scholar 

  169. Lilly, V. G., andH. L. Barnett. 1953. The utilization of sugars by fungi. West Virginia Univ. Agr. Exp. Sta. Bull. 362T, 58 pp.

  170. Line, R. F. 1963. Factors affecting the germination of spores ofPuccinia graminis var.tritici. Diss. Abstr.24: 23.

    Google Scholar 

  171. Link, K. P., andJ. C. Walker. 1933. The isolation of catechol from pigmented onion scales and its significance in relation to disease resistance in onions. Jour. Biol. Chem.100: 379–383.

    CAS  Google Scholar 

  172. Litzenberger, S. C. 1949. Nature of susceptibility toHelminthosporium victoriae and resistance toPuccinia coronata in Victoria oats. Phytopathology39: 300–318.

    CAS  Google Scholar 

  173. Livne, A. 1964. Photosynthesis in healthy and rust-affected plants. Plant Physiol.39: 614–621.

    PubMed  CAS  Google Scholar 

  174. Lucas, G. B., andC. von Ramm. 1963. The effect of gibberellin, indole acetic acid and kinetin on brown spot incidence of flue-cured tobacco. Plant Dis. Rep.47: 7–9.

    CAS  Google Scholar 

  175. Ludwig, R. A., E. Y. Spencer, andC. H. Unwin. 1960. An antifungal factor from barley of possible significance in disease resistance. Canad. Jour. Bot.38: 21–29.

    CAS  Google Scholar 

  176. Mace, M. E. 1963. Histochemical localization of phenols in healthy and diseased banana roots. Physiol. Plant.16: 915–925.

    CAS  Google Scholar 

  177. —, andT. T. Hebert, 1963. Naturally occurring quinones in wheat and barley and their toxicity to loose smut fungi. Phytopathology53: 692–700.

    CAS  Google Scholar 

  178. Maine, E. C., andA. Kelman. 1960. Changes in the oxidation rates of polyphenols and ascorbic acid in tobacco stem tissue invaded byPseudomonas solanacearum. (Abstr.) Phytopathology50: 645.

    Google Scholar 

  179. -, and -. 1960. Comparative physiological studies on hosts resistant and susceptible to southern bacterial wilt. Symp. Physiol. Genetics, Birmingham, Ala., pp. 13–24.

  180. ——. 1961. The influence of reducing substances on resistance to bacterial wilt in tobacco. Phytopathology51: 491–492.

    Google Scholar 

  181. Mains, E. B. 1917. The relation of some rusts to the physiology of their hosts. Amer. Jour. Bot.4: 179–220.

    Google Scholar 

  182. Maizel, J. V., H. J. Burkhardt, andH. K. Mitchell. 1964. Avenacin, an antimicrobial substance isolated fromAvena saliva. I. Isolation and antimicrobial activity. Biochemistry3: 424–426.

    PubMed  CAS  Google Scholar 

  183. Martin, J. T., R. F. Batt, andR. T. Burchill. 1956. Fungistatic properties of apple leaf wax. Nature180: 796–797.

    Google Scholar 

  184. Matta, A. 1963. [Polyphenol oxidase activity and induced resistance toFusarium wilt in tomato.] Rev. Patol. Veg.3: 99–106.

    Google Scholar 

  185. McKenzie, M. A. 1942. Experimental autoecism and other biological studies of a gall-formingPeridermium on northern hard pines. Phytopathology32: 785–798.

    Google Scholar 

  186. McLean, J. G., D. Le Tourneau, andJ. W. Guthrie. 1956.Verticillium wilt resistance of potatoes correlated with histochemical tests for phenols. (Abstr.) Phytopathology46: 638.

    Google Scholar 

  187. ———. 1961. Relation of histochemical tests for phenols toVerticillium wilt resistance of potatoes. Phytopathology51: 84–89.

    CAS  Google Scholar 

  188. Millerd, A., andK. J. Scott. 1962. Respiration of the diseased plant.In: Ann. Rev. Plant Physiol.13: 559–574. Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  189. ——. 1963. Host pathogen relations in powdery mildew of barley. III. Utilization of respiratory energy. Austral. Jour. Biol. Sci.16: 775–783.

    CAS  Google Scholar 

  190. Minamikawa, T., T. Akazawa, andI. Uritani. 1963. Analytical study of umbelliferone and scopoletin synthesis in sweet potato roots infected byCeratocystis fimbriata. Plant Physiol.38: 493–497.

    PubMed  CAS  Google Scholar 

  191. Mukherjee, K. L., andM. Shaw. 1962. The physiology of host-parasite relations. XL The effect of stem rust on the phosphate fractions in wheat leaves. Canad. Jour. Bot.40: 975–985.

    CAS  Google Scholar 

  192. Müller, K. O. 1958. Studies on phytoalexins, I. The formation and the immunological significance of phytoalexin produced byPhaseolus vulgaris in response to infections withSclerotinia jructicola andPhytophthora infeslans. Austral. Jour. Biol. Sci.11: 275–300.

    Google Scholar 

  193. Müller, K. O. 1961. The phytoalexin concept and its methodological significance.In: “Recent Advances in Botany I,” Univ. Toronto Press, pp. 396–400.

  194. —, andL. Behr. 1949. “Mechanism” ofPhytophthora-resistance of potatoes. Nature163: 498–499.

    Google Scholar 

  195. —, undH. Börger. 1940. Experimentelle Untersuchungen uber diePhytophthora-Resistenz der Kartoffel. Arb. Biol. Reichsanstalt. Land-u. Forstwirtsch. Berlin,23: 189–231.

    Google Scholar 

  196. Nair, P. N. 1958. Effect of maleic hydrazide, thiourea, and 2,4-dinitrophenol on resistance to flax wilt. Phytopathology48: 288–289.

    CAS  Google Scholar 

  197. Newton, R., andJ. A. Anderson. 1929. Studies on the nature of rust resistance in wheat. IV. Phenolic compounds of the wheat plant. Canad. Jour. Res.1: 86–99.

    CAS  Google Scholar 

  198. Nienstaedt, H. 1953. Tannin as a factor in the resistance of chestnut,Castanea spp., to the chestnut blight fungus,Endothia parasitica (Murr.) A. and A. Phytopathology43: 32–38.

    CAS  Google Scholar 

  199. Noveroske, R. L. 1963. Phloridzin-its metabolism and role in conditioning resistance inMalus toVenturia inaequalis. Diss. Abstr.23: 3585–3586.

    Google Scholar 

  200. —,J. Kuć, andE. B. Williams. 1964. Oxidation of phloridzin and phloretin related to resistance ofMalus toVenturia inaequalis. Phytopathology54: 92–97.

    CAS  Google Scholar 

  201. —,E. B. Williams, andJ. Kuć. 1962. Phloridzin-its metabolism and role in resistance toVenturia inaequalis, incitant of apple scab. (Abstr.) Phytopathology52: 746.

    Google Scholar 

  202. ———. 1962. Breakdown of host resistance toVenturia inaequalis by a polyphenol-oxidase inhibitor. (Abstr.) Phytopathology52: 23.

    Google Scholar 

  203. ———. 1964. B-Glycosidase and phenoloxidase in apple leaves and their possible relation to resistance toVenturia inaequalis. Phytopathology54: 98–103.

    CAS  Google Scholar 

  204. Oaks, A., andM. Shaw. 1960. An indoleacetic acid “oxidase” system in the mycelium ofMelampsora lini (Pers.) Lev. Canad. Jour. Bot.38: 761–767.

    CAS  Google Scholar 

  205. Oku, H. 1960. Biochemical studies onCochliobolus miyabeanus. IV. Fungicidal action of polyphenols and the role of polyphenoloxidase of the fungus. Phytopath. Zeitschr.38: 342–354.

    CAS  Google Scholar 

  206. Owens, R. G. 1953. Studies on the nature of fungicidal action. I. Inhibition of sulfhydryl-, amino-, iron-, and copper-dependent enzymesin vitro by fungicides and related compounds. Contr. Boyce Thompson Inst.17: 221–242.

    CAS  Google Scholar 

  207. Paquin, R., andE. R. Waygood. 1957. The effect ofFusarium toxins on the enzymic activity of tomato hypocotyl mitochondria. Canad. Jour. Bot.35: 207–218.

    Google Scholar 

  208. Patil, S. S., R. L. Powelson, andR. A. Young. 1964. Relation of chlorogenic acid and free phenols in potato roots to infection byV erticillium albo-atrum. Phytopathology54: 531–535.

    CAS  Google Scholar 

  209. Pavgi, M. S., andJ. G. Dickson. 1961. Influence of environmental factors on development of infection structures ofPuccinia sorghi. Phytopathology51: 224–226.

    Google Scholar 

  210. Peresypkin, V. F., andV. D. Gotsulyak. 1961. [A biochemical characterization of the resistance of wheat to brown rust (Puccinia rubigovera).]In: [Material from the symposium on the application of biophysics in the field of plant protection.] Leningrad, pp. 35–37. Referat. Zhur., Biol. No. 20G102. (Translation 1962.)

  211. Perrin, D. R., andW. Bottomley. 1961. Pisatin: an antifungal substance fromPisum sativum L. Nature191: 76–77.

    PubMed  CAS  Google Scholar 

  212. Pozsar, B. I., andZ. Király. 1958. Effect of rust infection on oxidative phosphorylation of wheat leaves. Nature182: 1686–1687.

    CAS  Google Scholar 

  213. Rasevskaja, V. F., andV. P. Nilova. 1952. [The effect of catalase activity upon the resistance of wheat to brown rust.] Izv. Akad. Nauk SSSR Ser. Biol.4: 63–67.

    Google Scholar 

  214. Rich, S., andF. G. Horsfall. 1954. Relation of polyphenol oxidases to fungitoxicity. Proc. Natl. Acad. Sci. U.S.40: 139–145.

    CAS  Google Scholar 

  215. Rohringer, R., D. J. Samborski, andC. O. Person. 1961. Ribonuclease activity in rusted wheat leaves. Canad. Jour. Bot.39: 775–784.

    CAS  Google Scholar 

  216. —,M. A. Stahmann, andJ. C. Walker. 1958. Effect ofFusarium oxysporum f.lycopersici and its metabolites on leaf constituents of susceptible and resistant tomatoes. Agr. and Food Chem.6: 838–843.

    CAS  Google Scholar 

  217. Romanko, R. R. 1959. A physiological basis for resistance of oats to Victoria blight. Phytopathology49: 32–36.

    CAS  Google Scholar 

  218. Rubin, B. A., Ye. V. Artsikhovskaya, andT. A. Proskornikova. 1947. [Oxidative changes of phenols and their role in the resistance of potatoes againstPhytophthora infeslans.] Biokhimiya12: 141–152.

    CAS  Google Scholar 

  219. ——. 1963. Biochemistry and physiology of plant immunity. (Translated by Helen Wareing.) Pergamon Press, Oxford; Distr. by Macmillan Co., New York, 358 pp.

    Google Scholar 

  220. —, andT. M. Ivanova. 1959. [The role of amino acid oxidases in the immunity of cabbage to Botrytis cinerea.] Translation of Biokhimiya Plodov i Ovoshchei (USSR)5: 113–132, 1955.

    Google Scholar 

  221. —, andO. L. Ozeretskovskaya. 1963. [Uncoupling phosphorylation in necrotic potato tissues.] (English summary.) Biokhimiya28: 80–88.

    CAS  Google Scholar 

  222. Sadasivan, T. S. 1961.In vivo changes inFusarium wilted cotton.In: “Recent Advances in Botany II,” Univ. Toronto Press, pp. 1021–1024.

  223. Sahai, B. I., andM. Shaw. 1961. The physiology of host-parasite relations. VIII. Effects of rust infection on ascorbic acid and glutathione in wheat leaves. Canad. Jour. Bot.39: 1327–1336.

    CAS  Google Scholar 

  224. Samborski, D. J., F. R. Forsyth, andC. Person. 1958. Metabolic changes in detached wheat leaves floated on benzimidazole and the effect of these changes on rust reaction. Canad. Jour. Bot.36: 591–601.

    CAS  Google Scholar 

  225. —, andM. Shaw. 1957. The physiology of host-parasite relations. IV. The effect of maleic hydrazide and indoleacetic acid on the rust resistance of Khapli and Little Club wheats. Canad. Jour. Bot.35: 449–455.

    CAS  Google Scholar 

  226. ——. 1957. The physiology of host-parasite relations. IVA. The effect of maleic hydrazide on the carbohydrate, nitrogen, and free amino acid content of the first leaf of Khapli wheat. Canad. Jour. Bot.35: 457–461.

    CAS  Google Scholar 

  227. Sanwal, B. D. 1956. Polyphenoloxidase and ascorbic acid oxidase activity in tomato plants infected withFusarium lycopersici Sacc. Proc. Indian Acad. Sci.44: 257–270.

    Google Scholar 

  228. —, andE. R. Wayrood. 1963. Glycolic acid oxidase and fusariose wilt of tomatoes. Canad. Jour. Bot.41: 55–63.

    CAS  Google Scholar 

  229. Schaal, L. A., andG. Johnson. 1955. The inhibitory effect of phenolic compounds on the growth ofStreptomyces scabies as related to the mechanism of scab resistance. Phytopathology45: 626–628.

    CAS  Google Scholar 

  230. Scheffer, R. P. 1961. Association of disease resistance with host metabolic activity.In: “Recent Advances in Botany II,” Univ. Toronto Press, pp. 1007–1012.

  231. —, andJ. C. Walker. 1954. Distribution and nature ofFusarium resistance in the tomato plant. Phytopathology44: 94–101.

    Google Scholar 

  232. Schnathorst, W. C. 1959. Resistance in lettuce to powdery mildew related to osmotic value. Phytopathology49: 562–571.

    Google Scholar 

  233. —. 1963. Effect of various carbon sources on the development ofErysiphe cichoracearum on epidermal strips ofLactuca sativa. Bull. Torrey Bot. Club90: 402–407.

    Google Scholar 

  234. Scott, K., A. Millerd, andN. H. White. 1957. Mechanism of resistance in barley varieties to powdery mildew disease. Austral. Jour. Sci.19: 207–208.

    CAS  Google Scholar 

  235. Sempio, C. 1950. Metabolic resistance to plant disease. Phytopathology40: 799–819.

    CAS  Google Scholar 

  236. Sen, B., andH. C. Joshi. 1957. Relation between permeability of the plasma membrane and resistance to parasite. Modern Dev. in Plant Physiol., Report of Seminar, Univ. of Delhi, pp. 150–152.

  237. Sequira, L. 1963. Growth regulators in plant disease.In: Ann. Rev. Phytopath.1: 5–30. Annual Reviews, Inc., Palo Alto, Calif.

    Google Scholar 

  238. Sharp, E. L., andF. G. Smith. 1952. The influence of pH and zinc on vesicle formation inPuccinia coronata avenae Corda. Phytopathology42: 581–582.

    CAS  Google Scholar 

  239. Shaw, M. 1961. The respiratory pattern in diseased plants with particular refer-ence to rust-infected leaves.In: “Recent Advances in Botany II,” Univ. Toronto Press, pp. 1017–1021.

  240. —. 1963. The physiology and host-parasite relations of the rusts.In: Ann. Rev. Phytopath.1: 259–294. Annual Reviews, Inc., Palo Alto, Calif.

    Google Scholar 

  241. —, andN. Colotelo. 1961. The physiology of host-parasite relations. VII. The effect of stem rust on the nitrogen and amino acids in wheat leaves. Canad. Jour. Bot.39: 1351–1372.

    CAS  Google Scholar 

  242. —, andA. R. Hawkins. 1958. The physiology of host-parasite relations. V. A preliminary examination of the level of free endogenous indoleacetic acid in rusted and mildewed cereal leaves and their ability to decarboxylate exoge-nously supplied radioactive indoleacetic acid. Canad. Jour. Bot.36: 1–16.

    CAS  Google Scholar 

  243. —, andD. J. Samborski. 1957. The physiology of host-parasite relations. III. The pattern of respiration in rusted and mildewed cereal leaves. Canad. Jour. Bot.35: 389–407.

    Google Scholar 

  244. Shear, G. M., andS. A. Wingard. 1944. Some ways by which nutrition may affect severity of disease in plants. Phytopathology34: 603–605.

    CAS  Google Scholar 

  245. Shu, P., andG. A. Ledingham. 1956. Enzymes related to carbohydrate metabolism in uredospores of wheat stem rust. Canad. Jour. Microbiol.2: 489–495.

    CAS  Google Scholar 

  246. Silverman, W. 1960. The development of stem rust on wheat leaves treated with some sugars and sugar alcohols. Phytopathology50: 114–119.

    CAS  Google Scholar 

  247. Sinha, A. K., andR. K. S. Wood. 1964. Control ofVerticillum wilt of tomato plants with “Cycocel” ((2-chloroethyl) trimethylammonium chloride). Nature202: 824.

    Google Scholar 

  248. Smith, J. E., andE. R. Waygood. 1963. Enzyme-coenzyme relationships in glutamic acid metabolism of rust-infected sunflower cotyledons. Canad. Jour. Bot.41: 41–54.

    CAS  Google Scholar 

  249. Sondheimer, E. 1961. Possible identity of a fungitoxic compound from carrot roots. Phytopathology51: 71–72.

    CAS  Google Scholar 

  250. Spinks, G. T. 1913. Factors affecting susceptibility to disease in plants. Jour. Agr. Sci.5: 231–247.

    CAS  Google Scholar 

  251. Sproston, T., Jr. 1957. Studies in the disease resistance ofImpatiens balsamina. Phytopathology47: 534.

    Google Scholar 

  252. Srivastava, B. I. S., andM. Shaw. 1962. The physiology of host-parasite relations. X. The metabolism of indoleacetic acid-l-C14 by wheat and oat coleoptile sections, uninfected and infected wheat leaves and uredospores of wheat stem rust. Canad. Jour. Bot.40: 511–521.

    CAS  Google Scholar 

  253. Stahmann, M. A., I. Uritani, andK. Tomiyama. 1960. Changes in potato proteins induced by fungus infections. (Abstr.) Phytopathology50: 655.

    Google Scholar 

  254. Staples, R. C. 1962. Initial products of acetate utilization by bean rust uredospores. Contr. Boyce Thompson Inst.21: 487–498.

    CAS  Google Scholar 

  255. —, andM. A. Stahmann. 1963. Malate dehydrogenases in the rusted bean leaf. Science140: 1320–1321.

    PubMed  CAS  Google Scholar 

  256. ——. 1964. Changes in proteins and several enzymes in susceptible bean leaves after infection by the bean rust fungus. Phytopathology54: 760–764.

    CAS  Google Scholar 

  257. Struckmeyer, B. E., andA. J. Riker. 1951. Wound-periderm formation in whitepine trees resistant to blister rust. Phytopathology41: 276–281.

    Google Scholar 

  258. Talieva, M. N. 1954. [The significance of anthocyanins in the immunity of plants.] Glavnyi bot. Sad Akad. Nauk SSSR, Byul.17: 91–94.

    Google Scholar 

  259. Thatcher, F. S. 1942. Further studies in osmotic and permeability relations in parasitism. Canad. Jour. Res. (C)20: 283–311.

    Google Scholar 

  260. —. 1943. Cellular changes in relation to rust resistance. Canad. Jour. Res. (C)21: 151–172.

    Google Scholar 

  261. Thomas, C. A., andR. G. Orellana. 1963. Biochemical tests indicative of reaction of castor bean toBotrytis. Science139: 334–335.

    PubMed  CAS  Google Scholar 

  262. Tomiyama, K. 1963. Physiology and biochemistry of disease resistance of plants.In: Ann. Rev. Phytopath.1: 295–324. Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  263. —,J. Akai, andT. Washio. 1952. Studies on the specific affinity between the host-plant juice and parasitic fungus. I. Res. Bull. Hokkaido Natl. Agr. Exp. Sta.63: 84–95.

    Google Scholar 

  264. —, andM. A. Stahmann. 1964. Alteration of oxidative enzymes in potato tuber tissue by infection withPhytophthora infesians. Plant Physiol.39: 483–490.

    PubMed  CAS  Google Scholar 

  265. —,M. Takakuwa, andN. Takase. 1958. The metabolic activity in healthy tissue neighboring the infected cells in relation to resistance toPhytophthora infestans (Mont.) de Bary in potatoes. Phytopath. Zeitschr.31: 237–250.

    Google Scholar 

  266. Topps, J. H., andR. L. Wain. 1957. Fungistatic properties of leaf exudates. Nature179: 652–653.

    PubMed  CAS  Google Scholar 

  267. True, R. P. 1938. Gall development onPinus sylvestris attacked by the WoodgatePeridermium, and morphology of the parasite. Phytopathology28: 24–46.

    Google Scholar 

  268. Turner, E. M. C. 1953. The nature of the resistance of oats to the take-all fungus. Jour. Exp. Bot.4: 264–271.

    CAS  Google Scholar 

  269. —. 1960. An enzymic basis for pathogenic specificity. Nature186: 325–326.

    PubMed  CAS  Google Scholar 

  270. —. 1961. An enzymic basis for pathogenic specificity inOphiobolus graminis. Jour. Exp. Bot.12: 169–175.

    CAS  Google Scholar 

  271. Uehara, K. 1962. [Identification and estimation of phytoalexin produced by pea pods by means of the ultraviolet absorption spectrum.] (English summary.) Bull. Hiroshima Agr. Coll.2: 1–7.

    Google Scholar 

  272. Uritani, I., andT. Akazawa. 1955. Antibiotic effect onCeratostomella fimbriata of ipomeamarone, an abnormal metabolite in black rot of sweet potato. Science121: 216–217.

    PubMed  Google Scholar 

  273. ——. 1959. Alteration of the respiratory pattern in infected plants.In: “Plant Pathology I,” Ed. byJ. G. Horsfall andA. E. Dimond, Academic Press, New York, pp. 349–390.

    Google Scholar 

  274. —, andI. Hoshiya. 1953. Phytopathological chemistry of the black-rotted sweet potato. Part 6. Isolation of coumarin substances from sweet potato and their physiology. Jour. Agr. Chem. Soc. Japan27: 161–164.

    CAS  Google Scholar 

  275. Valenta, J. R., andH. D. Sisler. 1962. Evidence for a chemical basis of resistance of lima bean plants to downy mildew. Phytopathology52: 1030–1037.

    CAS  Google Scholar 

  276. Valle, E. 1957. On antifungal factors in potato leaves. Acta Chem. Scand.11: 395–397.

    CAS  Google Scholar 

  277. Van Sumere, C. F.,C. van Sumere-de Preter, L. C. Vining, andG. A. Ledingham. 1957. Coumarins and phenolic acids in the uredospores of wheat stem rust. Canad. Jour. Microbiol.3: 847–862.

    Google Scholar 

  278. Van Valsen, R. J. 1957. A study of the pathogenicity ofHelminthosporium spp. B. Agr. Sci. Hons. Thesis, Univ. of Adelaide.

  279. Virtanen, A. I., andP. K. Hietala. 1955. 2(3)-Benzoxazolinone, ananti-Fusarium factor in rye seedlings. Acta Chem. Scand.9: 1543–1544.

    CAS  Google Scholar 

  280. ——, andO. Wahlroos. 1956. An antifungal factor in maize and wheat plants. Suomen KemistilehtiB29: 143–144.

    Google Scholar 

  281. Vörös, J., Z. Király, andG. L. Farkas. 1957. Role of polyphenolase in streptomycin-induced resistance toPhytophthora in potato. Science126: 1178.

    PubMed  Google Scholar 

  282. Walker, J. C. 1923. Disease resistance to onion smudge. Jour. Agr. Res.24: 1019–1039.

    Google Scholar 

  283. —. 1959. Progress and problems in controlling plant diseases by host resistance.In: “Plant Pathology Problems and Progress 1908–1958,” Univ. Wisc. Press, Madison, pp. 32–41.

    Google Scholar 

  284. —, andM. A. Stahmann. 1955. Chemical nature of disease resistance in plants.In: Ann. Rev. Plant Physiol.6: 351–366. Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  285. Wang, D. 1957. Studies on the nature of resistance of plants to disease. Alterations in the nitrogen and keto acid metabolism of resistant and susceptible wheat varieties associated with infection byPuccinia graminis tritici Erikss. and Henn. Ph.D. Thesis, McGill Univ., Montreal.

    Google Scholar 

  286. —. 1959. Effect of benzimidazole, dimethylbenzimidazole, glucose, and metal ions on the development ofPuccinia graminis tritici on detached leaves of Khapli wheat. Canad. Jour. Bot.37: 239–244.

    CAS  Google Scholar 

  287. —. 1961. The nature of starch accumulation at the rust infection site in leaves of Pinto bean plants. Canad. Jour. Bot.39: 1595–1604.

    CAS  Google Scholar 

  288. White, G. A., andG. A. Ledingham. 1960. Studies on the cytochrome oxidase and oxidation pathways in uredospores of wheat stem rust. (Abstr.) Plant Physiol.35 (Suppl.): xi.

    Google Scholar 

  289. ——. 1961. Studies on the cytochrome oxidase and oxidation pathways in uredospores of wheat stem rust. Canad. Jour. Bot.39: 1131–1148.

    CAS  Google Scholar 

  290. White, N. H., andE. P. Baker. 1954. Host pathogen relations in powdery mildew of barley. I. Histology of host reactions. Phytopathology44: 657–662.

    Google Scholar 

  291. Whitmore, F. W., andR. Zahner. 1964. Indoleacetic acid synthesis by polyphenols in the extraction ofPinus phloem and cambial tissue. Science145: 166–167.

    PubMed  CAS  Google Scholar 

  292. Whitney, H. S., M. Shaw, andJ. M. Naylor. 1962. The physiology of hostparasite relations. XII. A cytophotometric study of the distribution of DNA and RNA in rust-infected leaves. Canad. Jour. Bot.40: 1533–1544.

    CAS  Google Scholar 

  293. Wilcoxon, F., andS. E. A. McCallan. 1934. The stimulation of fungus spore germination by aqueous plant extracts. (Abstr.) Phytopathology24: 20.

    CAS  Google Scholar 

  294. Williams, P. H., andR. C. Staples. 1964. Acid phosphatases from healthy and rust infected pinto bean leaves. Contr. Boyce Thompson Inst.22: 269–282.

    CAS  Google Scholar 

  295. Wilson, E. M. 1958. Aspartic and glutamic acid as self-inhibitors of uredospore germination. Phytopathology48: 595–600.

    CAS  Google Scholar 

  296. Wingard, S. A. 1953. The nature of resistance to diseases.In: U.S. Dep. Agr. Yearbook of Agr., Plant Diseases, pp. 165–173.

  297. Winstead, N. N., andJ. C. Walker. 1954. Toxic metabolites of the pathogen in relation toFusarium resistance. Phytopathology44: 159–166.

    CAS  Google Scholar 

  298. Woolley, D. W. 1959. The application of biochemical principles in the rational approach to the study of parasitism.In: “Plant Pathology Problems and Progress 1908–1958,” Univ. Wis. Press, Madison, pp. 130–134.

    Google Scholar 

  299. Yarwood, C. E. 1934. The comparative behavior of four clover-leaf parasites on excised leaves. Phytopathology24: 797–806.

    Google Scholar 

  300. —. 1954. Mechanism of acquired immunity to a plant rust. Proc. Natl. Acad. Sci. U.S.40: 374–377.

    CAS  Google Scholar 

  301. —. 1956. Obligate parasitism.In: Ann. Rev. Plant Physiol.7: 115–142. Annual Reviews, Inc., Palo Alto, Calif.

    CAS  Google Scholar 

  302. —, andL. Jacobson. 1955. Accumulation of chemicals in diseased areas of leaves. Phytopathology45: 43–48.

    CAS  Google Scholar 

  303. Yirgou, D., andR. M. Caldwell. 1963. Stomatal penetration of wheat seedlings by stem and leaf rust: Effect of light and carbon dioxide. Science141: 272–273.

    PubMed  CAS  Google Scholar 

  304. Zscheile, F. P. 1955. Some physiological aspects of bunt resistance in wheat. Plant Physiol.30: 432–437.

    PubMed  CAS  Google Scholar 

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  1. Institute of Forest Genetics Southern Forest Experiment Station Forest Service, U. S. Department of Agriculture, Gulfport, Mississippi

    Robert C. Hare

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Hare, R.C. Physiology of resistance to fungal diseases in plants. Bot. Rev 32, 95–137 (1966). https://doi.org/10.1007/BF02858657

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