Abstract
The beginning of research on insect viruses is marked by the discovery and description of polyhedral bodies in the silkworm by Maestri (1856) and Cornalia (1856) just 100 years ago. Since then reports of several hundred investigations that deal with insect viruses have been published. Many fundamental results were obtained before 1900 and since then several important investigations have been carried out in Europe, America, and Japan. A great stimulus to this field was given by the development of new research tools and the progress in plant virology in the late 30’s. Several books1, reviews2, and reference collections3 cover the subject well to about 1950. Therefore in the following only the most important contributions of the past will be referred to or those which were not mentioned before4. It is not intended to describe the diseases and viruses of all host species but rather to discuss the principles of the virus itself and the problems of its relationship to the host.
Contribution No. 306, Division of Forest Biology, Science Service, Department of Agriculture, Ottawa, Canada.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Abul-Nasr, S.: Polyhedrosis-virus disease on cotton leaf-worm, Prodenia litura F. Bull. Soc. Entom. d’Egypte 40, 321–332 (1956).
Acqua, C.: La poliedria o giallume. Il bombice del gelso. Ascoli Piceno (1930).
Aizawa, K.: (1) Turbidity-time curve of the infected blood in the silkworm jaundice. Sanshi-Kenkyu (Acta Sericologia) 2, 78–80 (1952a).
— (2) Some immunological characters of the blood jaundice-diseased blood and polyhedral bodies in Bombyx mori L. Sanshi-Kenkyu 1, 43–53 (1952b).
— (3) Preliminary note on the successive passage through Philosamia ricini Boisd. of the jaundice virus of Bombyx mori L. J. Seric. Sci. Japan 21, 170–172 (1952c).
— (4) On the virus amount in the fractions of the polyhedral bodies of the silkworm jaundice in the isoelectric precipitation. Jap. J. Appl. Zool. 17, 56–60 (1952d).
— (5) Multiplication Mode of the Silkworm Jaundice Virus. I. On the multiplication mode in connection with the latent period and LD50-time curve. Bull. Sericul. Exp. Sta. 14, 201–228 (1953a).
— (6) Some methods of keeping the virus activity of the silkworm jaundice. Sanshi-Kenkyu 3, 75–77 (1953b).
Aizawa, K.: (7) On the inactivation of the silkworm jaundice virus. Jap. J. Appl. Zool. 17, 181–190 (1953c).
— (8) Silkworm jaundice virus in the excrements of the infected larvae. Jap. J. Appl. Zool. 18, 143–144 (1953d).
— (9) On the dissolving curve of polyhedral bodies of the silkworm jaundice in Na2CO3 solution. Jap. J. Appl. Zool. 17, 145–154 (1953e).
— (10) Neutralisation and adsorption test of the silkworm jaundice virus. J. of Virology 4, 238–240 (1954a).
— (11) Agglutination reaction of thepolyhedral bodies. J. of Virology 4, 241–244 (1954b).
— (12) Experiments on the defence of infection in the silkworm jaundice. J. of Virology 4, 245–248 (1954c).
— (13) Dissolving curve and the virus activity of the polyhedral bodies of Bombyx mori L., obtained 37 years ago. Sanshi-Kenkyu (acta Sericologia) 8, 52–54 (1954d).
— (14) A preliminary note on the tetragonal polyhedra in the silkworm. Sanshi-Kenkyu (Acta Sericologia) 14–4, 11–13 (1955a).
— (15) Electrophoresis of the blood of silkworm Bombyx mori, on the filter paper. J. Sericult. Sci. Japan 24, 393–397 (1955b).
— (16) Inactivation of the silkworm jaundice virus by the ultraviolet irradiation. J. Sericult. Sci. Japan 24, 398–399 (1955c).
Akune, S.: (1) Respiration and catalase action of the silkworm attacked by polyhedral disease. J. Sericult. Sci. Japan 20, 30–32 (1951a).
— (2) Studies on the potassium content of virus diseased bodies. Sci. Bull. Fac. Agr. Kyushu Univ. 13, 149–153 (1951b).
Andrewes, C. H.: (1) Viruses and Linaeus. Acta Path. Microbiol. Scand. 28, 211–225 (1951).
— (2) The place of viruses in nature. Proc. Royal Soc. B. 139, 313–326 (1952).
— (3) Report of the subcommittee on viruses. Int. Bull. Bact. Nomenclature and Taxonomy 4, 109–114 (1954a).
— (4) Nomenclature of viruses. Nature 173, 620 (1954b).
— (5) The classification of viruses. J. Gen. Microbiol. 12, 358–361 (1955a).
— (6) Report on a questionaire concerning nomenclature. Int. Bull. Bact. Nomenclature and Taxonomy 5, 79–81 (1955b).
Angus, T. A.: Use of methyl cellulose in laboratory tests of bacterial pathogens of insects. Can. Entomologist 86, 206 (1954).
Aoki, K. and Y. Chigasaki: Immunisatorische Studien über die Polyederkörperchen bei Gelbsucht von Seidenraupen (ZeLleinschluß). Zentr. Bact. Parasitenk. Abt. I Orig. 86, 481–485 (1921).
Arvy, L.: Sur la présence probable d’un virus du genre Paillotella Steinhaus dans les leucocytes de Malacosoma neustria L. (Lépidoptère, Lasiocampidae). Rev. d’Hématol. 8, 204–212 (1953).
Balch, R. E.: The disease of the European Spruce sawfly. Can. Dept. Agric. Bimonthly Progr. Rept. 2(5), 1 (1946).
Balch, R. E. and F. T. Bird: A disease of the European Spruce Sawfly, Gilpinia hercyniae (Htg.) and its place in natural control. Sci. Agric. 25, 65–80 (1944).
Bawden, F. C.: Plant viruses and virus diseases. P. 335, 3rd ed. Chronica Botanica, Waltham, Massachusetts. (1950).
Bergold, G. H.: (1) Polyederfreie Insektenzuchten. Naturwissenschaften 30, 422–423 (1942).
— (2) Über Polyederkrankheiten bei Insekten. Biol. Zentr. 63, 1–55 (1943).
— (3) Die Isolierung des Polyedervirus und die Natur der Polyeder. Z. Naturforsch. 2b, 122–143 (1947).
— (4) Bündeiförmige Ordnung in Polyederviren. Z. Naturforsch. 3b, 25–26 (1948a).
— (5) Inaktivierung des Polyedervirus durch Kollidon. Z. Naturforsch. 3b, 300–301 (1948b).
— (6) Über die Kapselviruskrankheit. Z. Naturforsch. 3b, 338–342 (1948c).
— (7) The multiplication of insect viruses as organisms. Can. J. Research E. 28, 5–11 (1950a).
Bergold, G. H.: (8) Insect viruses. In “Viruses 1950” p. 40-43. M. Delbruck, California Inst. Technology (1950b).
— (9) The polyhedral disease of the spruce budworm, Choristoneura fumiferana (Clem.). Can. J. Zool. 29, 17–23 (1951a).
— (10) Notes on polyhedral disease of forest tent caterpillar Malacosoma disstria. Can. Dept. Agr. Bi-monthly Progr. Rept. 7(4), 1–2 (1951b).
— (11) Fortschritte und Probleme auf dem Gebiete der Insektenviren. Z. angew. Entomol. 33, 267–278 (1951c).
— (12) Demonstration of polyhedral virus in blood cells of silk-worms. Biochim. et Biophys. Acta 8, 397–400 (1952).
— (13) In “The nature of virus multiplication”, pp. 276–280. Soc. Gen. Microbiol. University Press, Cambridge. (1953a.)
— (14) On the nomenclature and classification of insect viruses. Ann. N. Y. Acad. Sci. 56, 495–516 (1953b).
— (15) Insect viruses, Advances in Virus Research 1, 91–139 (1953c).
— (16) Viruses as organisms with particular reference to insect viruses. Atti VI. Congr. Inter. Microbiologia 3, 7–10 (1953d).
— (17) Radioactive experiments with silkworms. Can. Dept. Agr. Bi-monthly Progr. Rept. 10(3), 2 (1954).
— (18) The structure of insect viruses and inclusion bodies. In preparation (1957).
Bergold, G. H. und R. Brill: Spreitungsversuche mit Insektenviren. Kolloid-Z. 99, 1–6 (1942).
Bergold, G. H. und H. Friedrich-Freksa: Zur Größe und Serologie des Bombyxmori-Polyedervirus. Z. Naturforsch. 2b, 410–414 (1947).
Bergold, G. H. und L. Pister: Zur quantitativen Mikrobestimmung von Desoxy-und Ribonucleinsäure. Z. Naturforsch. 3b, 406–410 (1948).
Bergold, G. H. und G. Schramm: Biochemische Charakterisierung von Insektenviren. Biol. Zentr. 62, 105–118 (1942).
Bergold, G. H. and E. F. Wellington: Isolation and chemical composition of the membranes of an insect virus and their relation to the virus and polyhedral bodies. J. Bact. 67, 210–216 (1954).
Biliotti, E., P. Grison and D. Martouret: L’utilisation d’une maladie à virus comme méthode de lutte biologique contre Pieris brassicae L. Entomophaga 1, 35–44 (1956).
Bird, F. T.: (1) Control effects of the polyhedral disease of the spruce sawfly. Can. Dept. Agr. Bi-monthly Progr. Rept. 4(2), 1 (1948).
— (2) Tumours associated with a virus infection in an insect. Nature 163, 777–778 (1949a).
— (3) The polyhedral disease of the spruce budworm, Choristoneura fumiferana (Clem.). Histopathology and Epidemiology. Can. Dept. Agr. Bi-monthly Progr. Rept. 5(3), 2–3 (1949b).
— (4) A virus (polyhedral) disease of the European spruce sawfly, Gilpinia hercyniae (Htg.), Thesis, McGill University, Montreal. (1949c.)
— (5) The dissemination and propagation of a virus disease affecting the European pine sawfly, Neodiprion sertifer (Geoffr.). Can. Dept. Agr. Bi-monthly Progress Report 6(5), 2–3 (1950).
— (6) On the multiplication of an insect virus. Biochim. et Biophys. Acta 8, 360–368 (1952).
— (7) The effect of metamorphosis on the multiplication of an insect virus. Can. J. Zool. 31, 300–303 (1953a).
— (8) The use of a virus disease in the biological control of the European Pine Sawfly, Neodiprion sertifer (Geoffr.). Can. Entomologist 85, 437–446 (1953b).
— (9) The use of a virus disease in the biological control of the European Spruce Sawfly, Diprion hercyniae (Htg.). Can. Dept. Agric. Bi-monthly Progr. Rept. 10(1), 2–3 (1954).
— (10) Virus diseases of sawflies. Can. Entom. 87, 124–127 (1955).
— (11) On the development of insect viruses. Virulogy 3, 237–242 (1957).
Bird, F. T. and D. Elgee: Virus disease and introduced parasites as factors controlling the European Spruce Sawfly, Diprion hercyniae (Htg.) in central New Brunswick. Can. Entomologist in press (1957).
Bird, F. T. and M. M. Whalen: (1) A virus disease of the European Pine Sawfly Neodiprion sertifer (Geoffr.). Can. Entom. 85, 433–437 (1953).
— (2) A nuclear and a cytoplasmic polyhedral virus disease of the spruce budworm. Can. J. Zool. 32, 82–86 (1954).
Black, L. M.: (1) Transmission of clover club-leaf virus through the egg of its insect vector. Phytopathology 38, 2 (1948).
— (2) A plant virus that multiplies in its insect vector. Nature 166, 852–853 (1950).
— (3) Occasional transmission of some plant viruses through the eggs of their insect vectors. Phytopathology 43, 9–10 (1953a).
— (4) Viruses that reproduce in plants and insects. Ann. N. Y. Acad. Sci. 56, 398–413 (1953b).
— (5) Arthropod transmission of plant viruses. Exptl. Parasitol. 3, 72–104 (1954).
— (6) Concepts and problems concerning purification of labile insect transmitted plant viruses. Phytopathology 45, 208–216 (1955).
Black. L. M. and M. K. Brakke: Multiplication of wound tumor virus in an insect vector. Phytopathology 42, 269–273 (1952).
Black, L. M., V. M. Mosley and R. W. G. Wyckoff: Electron microscopy of potato yellow dwarf virus. Biochim. Biophys. Acta 2, 121–123 (1948).
Bolle, J.: (1) Jahrb. K. K. Seidenbau-Versuchsstation, Görz. p. 112 (1893).
— (2) Die Gelb-oder Fettsucht der Seidenraupe, eine parasitäre Krankheit. In „Der Seidenbau in Japan“, pp. 94–141. Hartlebens Verlag. Budapest, Wien und Leipzig (1898).
— (3) Tätigkeitsbericht der Vers. Anst. Görz für das Jahr 1904. Z. f. d. landw. Versuchswesen 8, 247 (1905).
— (4) Tätigkeitsbericht der Vers. Anst. Görz für das Jahr 1906. Z. f. d. landw. Versuchswesen 10, 233 (1907).
— (5) Tätigkeitsbericht der Vers. Anst. Görz für das Jahr 1907. Z. f. d. landw. Versuchswesen 11, 279–280 (1908).
— (6) Tätigkeitsbericht der Vers. Anst. Görz für das Jahr 1910. Z. f. d. landw. Versuchswesen 14, 443–446 (1911).
— (7) Tätigkeitsbericht der Vers. Anst. Görz für das Jahr 1912. Z. f. d. landw. Versuchswesen 16, 291–293 (1913).
Boyden, S. V.: The adsorption of proteins on erythrocytes treated with tannic acid and subsequent haemaglutination by anti protein sera. J. exp. Med. 93, 107–120 (1951).
Brakke, M. K., L. M. Black and R. W. G. Wyckoff: The sedimentation rate of potato yellow-dwarf virus. Amer. Jour. Bot. 38, 332–342 (1951).
Brakke, M. K., A. E. Vatter and L. M. Black: Size and shape of wound-tumor virus. Brookhaven Symposia in Biology 6, 137–156 (1954).
Breed, R. S. and A. Petraitis: Some Russian contributions to taxonomy and nomenclature of viruses. Int. Bull. Bact. Nomenclature and Taxonomy 4, 189–214 (1954).
Breindl, V.: Ergänzende Studie über die Polyedrie der Nonne (L. monacha) und des Schwammspinners (L. dispar). Věst. Českoslov. Zool. Spol. Praze 5, 94–115 (1938).
Breindl, V. und O. Jirovec: Polyeder und Polyedervirus im Lichte der Feulgenschen Nucleareaktion. Věst. Českoslov. Zool. Spol., Praha 3, 9–11 (1935).
Brun, G. et A. Sigot: Installation du virus dans la lignée germinale à la suite d’une inoculation. Annales Institut Pasteur 88, 488 (1955).
Burnet, McF.: Viruses as organisms. pp. 139, Harvard University Press, Chambridge, Mass. (1946).
Ceriotti, G.: A microchemical determination of desoxyribonucleic acid. J. Biol. Chem. 198, 297–303 (1952).
Clark, E. C.: Observations on the epizootiology of a polyhedrosis of the Great Basin tent caterpillar, Malacosoma fragilis (Stretch.). Ecology 36, 373–376 (1955).
Clark, E. C. and C. E. Reiner: (1) The possible use of a polyhedrosis virus in the control of the Great Basin tent caterpillar. J. Econ. Entom. 49, 653–659 (1956a).
— (2) The availability of certain proprietary adjuvants for use with the polyhedrosis viruses of insects. J. Econ. Entom. 49, 703–704 (1956b).
Comel, A.: L’Instituto Chimico-Agrario Sperimentale di Gorizia. Nuovi Annali 1, 61–67; 145-149; 216-227; 232 (1950).
Conte, A.: Remarques sur l’hérédité des maladies chez les vers à soie. C. R. 36. Session Assoc. Franc. pour L’Avancement des Sci., 622-623 (1907).
Conte, A. and D. Levrat: Les Maladies du ver à soie. I. La Grasserie. Trav. Lab. etude soie Lyon. 13, 41–60 (1909).
Cornalia, E.: Monografïa del bombice del gelso. Mem. R. Instit. Lombardo Sci. Lett. Arte 6, 3 (1856).
Day, M. F.: The mechanism of the transmission of potato leaf roll virus by aphids. Austr. J. Biol. Sci. 8, 498–513 (1955).
Day, M. F., I. F. B. Common, J. L. Farrant and C. Potter: A polyhedral virus disease of a pasture caterpillar, Pterolocera amplicornis Walker (Anthelidae). Austr. J. Biol. Sci. 6, 574–579 (1953).
Day, M. F., J. L. Farrant and C. Potter: Stages in the development of a polyhedral virus disease. Proc. Electron Microscope Soc. Meeting J. appl. Phys. 26, 1396 (1956).
Desnuelle, P., Chi Tan Chang, and Cl. Fromageot: Sur la protéine du virus de la maladie à polyèdres (Grasserie) du ver à soie. Ann. Inst. Pasteur 69, 75–86 (1943).
Desnuelle, P. and Chi Tan Chang: (1) Sur la protéine du virus de la grasserie du ver à soie. II. Répartition du soufre et teneur en alanine. Ann. Inst. Pasteur 69, 248–250 (1943).
— (2) Sur la protéine du virus de la grasserie du ver à soie. III. Etude de certains de ses groupements libres. Ann. Inst. Pasteur 71, 264–272 (1945).
Dikasova, E. T.: (1) Electrophoresis in research on eggs of silkworms infected with silkworm jaundice virus. Mikrobiologiya 18, 67–70 (1949a).
— (2) Investigation of mulberry silkworm egg mass obtained from the moth affected with yellow disease. Mikrobiologiya 18, 356–360 (1949b).
— (3) The effect of the virus of jaundice on the vitality of the silkworm. Mikrobiologiya 19, 444–448 (1950).
Doeksen, J.: De tarwegalmuggen Contarimia tritici Kirby en Sitodiplosis mosellana Gehin (Diptera; Cecidomyidae in Nederland). Versl. Techn. Tarwe. Comm. 12, 237–296 (1938).
Dowden, P. B. and H. B. Girth: Use of a virus disease to control European Pine sawfly. J. Econ. Entom. 46, 525–526 (1953).
Drilhon, A.: Identification chromatographique et chimique d’une substance fluorescente du sang et du tube de Malpighi de la larve Bombyx mori atteinte de grasserie. Compt. rend. 232, 1876–1878 (1951).
Drilhon, A., R. G. Busnel and C. Vago: Les acides aminés libres et les substances fluorescentes du sang et des tubes de Malpighi, de la chenille de Bombyx mori L., atteinte de la maladie à polyèdres et la flacherie. Compt. rend 232, 360–361 (1951).
Drilhon, A., C. Vago and R. A. Busnel: Essai de diagnostic précoce de la grasserie et de la flacherie par l’analyse chromatographique du sang de Bombyx mori. Compt. rend. 146, 11 (1952).
Duhamel, C.: Etude de la sensibilité héréditaire à l’anhydride carbonique chez la drosophile. Description de quelques variants du virus. C. R. Acad. Sci. 239, 1157–1159 (1954).
Duhamel, C. and N. Plus: Phénomène d’interférence entre deux variants du virus de la Drosophile. Compt. Rend. Acad. Sci. 242, 1540–1543 (1956).
Duspiva, F. and G. H. Bergold: Über Peptidase-und Phosphatasebestimmungen im Nonnenpolyedervirus. Naturwissenschaften 30, 604–605 (1942).
Dutky, S. R. and E. L. Gooden: Coxiella popilliae n. sp., a Rickettsia causing blue disease of Japanese Beetle larvae. J. Bact. 63, 743–750 (1952).
Escherich, K.: (1) Neues über Polyederkrankheiten. Naturw. Z. Land-u. Forstwirtsch. 11, 86–97 (1913).
— (2) Polyederkrankheiten. In „Die Forstinsekten Mitteleuropas” 3, pp. 78–82. Parey, Berlin (1931).
Escherich, K. and M. Miyajima: Studien über die Wipfelkrankheit der Nonne. Naturw. Z. Land-u. Forstwirtsch. 9, 381–402 (1911).
Eto, M.: (1) Behaviour of polyhedral bodies and host-cells of silkworms in alcohol. J. Fac. Agr. Kyùshù Univ. 10, 373–384 (1956).
— (2) Dissolution of polyhedral protein in alcohol by trichloroacetic acid. Sci. Bull. Fac. Agr. Kyùshù Univ. 15, 465–471 (1956).
Faulkner, P. and G. H. Bergold: The desoxyribonuclease content of an insect virus. Virology, in press (1957).
Fischer, E.: Über die Ursachen der Disposition und über Frühsymptome der Raupenkrankheiten. Biol. Zentr. 26, 448–463; 534-544 (1906).
Fong, J., F. L. Schaffer and P. L. Kirk: The Ultra micro determination of glycogen in liver. A comparison of the anthrone and reducing sugar methods. Arch. Biochem. Biophys. 45, 319–326 (1953).
Fraisse, R.: (1) Alimentation, croissance, cocon et soie chez Bombyx mori L. Variations physiques et chimiques des feuilles de Morus alba L. Revue du ver à soie 4, 99–122 (1952).
— (2) Alimentation et croissance de la larve chez Bombyx mori L. Revue du ver à soie 5, 31–65 (1953).
Franz, J.: Die künstliche Verbreitung von Virosen einiger Blattwespen (Diprionidae) innerhalb und außerhalb ihres Endemiegebietes. Verh. dtsch. Zool. Erlangen 1955, 407–412 (1956).
Franz, J. and O. F. Niklas: Feldversuche zur Bekämpfung der roten Kiefernbuschhornblattwespe (Neodiprion sertifer [Geoffr.]) durch künstliche Verbreitung einer Virusseuche. Nachrichtenblatt Dtsch. Pflanzenschutzdienstes 6, 131–134 (1954).
Franz, J., A. Krieg and R. Langenbuch: Untersuchungen über den Einfluß der Passage durch den Darm von Raubinsekten und Vögeln auf die Infektiosität von Insekten pathogener Viren. Ztschr. Pflanzenkrankh. u. Pflanzensch. 62, 721–726 (1955).
Fukushi, T.: (1) Transmission of the virus through the eggs of an insect vector. Proc. Imp. Acad. Japan 9, 457–460 (1933).
— (2) Further studies on the dwarf disease of rice plants. F. Fac. Agric. Hokkaido Imp. Univ. 45, 83–154 (1940).
Gershenzon, S. M.: (1) Specificity of polyhedral viruses of insects. Mikrobiologiya 24, 90–98 (1955).
— (2) The nature of intra-nuclear inclusions of polyhedral diseases of insects (in Russian). Akad. Nauk S.S.S.R. Doklady 104, 925–928 (1955).
— (3) On initial stages of development of the polyhedral disease of insects (in Russian). Mikrobiologiya 25, 90–98 (1956).
Gershenzon, S. M., E. P. Yakushkina and R. M. Pukhovich: Problems of jaundice induced in silkworm by hydroxylamine. Mikrobiologiya 24, 223–228 (1955).
Gierer, A. and G. Schramm: Die Infektiosität der Nucleinsäure aus Tabakmosaikvirus. Z. Naturforsch, 11b, 138–142 (1956).
Glaser, R. W.: (1) Wilt of gypsy-moth caterpillars. J. Agr. Research 4, 101–128 (1915).
— (2) Virus diseases of insects. In “Filtrable Viruses” pp. 301–326. T. M. Rivers. Williams and Wilkins, Baltimore (1928).
Glaser, R. W. and J. W. Chapman: The nature of the polyhedral bodies found in insects. Biol. Bull. 30, 367–391 (1916).
Glaser, R. W. and W. M. Stanley: Biochemical studies on the virus and the inclusion bodies of silkworm jaundice. J. Exp. Med. 77, 451–466 (1943).
Gösswald, K.: Physiologische Untersuchungen über die Einwirkung ökologischer Faktoren, besonders Temperatur und Luftfeuchtigkeit, auf die Entwicklung von Diprion (Lophyms) pini L. zur Feststellung der Ursachen des Massenwechseis. Ztschr. Angew. Ent. 22, 331–384 (1934).
Graham, K.: (1) Studies on the Spruce Budworm in Ontario. Can. Dept. Agric. Bi-monthly Progr. Rept. 3(2), 3 (1947).
— (2) Insect pathology. Can. Dept. Agric. Bi-monthly Progr. Rept. 4(3), 2 (1948).
Gratia, A. and A. Paillot: (1) Etude sérologique du virus de la grasserie des vers à soie. Compt. rend. soc. biol. 129, 507–509 (1938).
— (2) Etude sérologique du virus de la grasserie des vers à soie isolé par ultracentrifugation. Arch. ges. Virusforsch. 1, 130–139 (1939).
Gratia, A., J. Brachet and R. Jeener: Etude histochimique et microchimique des acides nucléiques au cours de la grasserie du ver à soie. Bull. Acad. roy. med. Belg. 10, 72–81 (1945).
Green, R. C.: On the nature of filtrable viruses. Science 82, 443–445 (1935).
Gregoire, Ch.: Virus-like bodies in the blood of the house cricket. J. Gen. Microbiol. 5, 121–123 (1951).
Grison, P. et C. Vago: La régulation des infestations de chenilles processionnaires du pin par les maladies à virus. C. R. Acad. Agric. France 39, 485–487 (1953).
Haberlandt, F.: Il giallume. Sericultura austrïaca 4, 49–52 (1872).
Hack, M. H.: Analysis of Lipids by Spot Tests on Filter-paper Disk Chromatograms. Biochem. J. 54, 602–605 (1953).
Heidenreich, E.: Die Polyederkrankheit der Nonne. Arch. ges. Virusforsch. l, 582–644 (1940).
L’Héritier, Ph.: (1) Sensitivity to CO2 in Drosophila. A review. Heredity 2, 325–348 (1948).
— (2) The CO2 sensitivity problem in Drosophila. Cold Spring Harbour Symp. Quant. Biol. XVI, 99–112 (1951).
— (3) Les virus intégrés et l’unité cellulaire. Ann. Biol. 31, 481–496 (1955).
L’Heritier, Ph. et N. Plus: Inactivation par les rayons X du virus responsable de la sensibilité au CO2 chez la Drosophile. C. R. Acad. Sci., 231, 192–194 (1950).
L’Heritier, Ph. and G. Teisser: Une anomalie physiologique héréditaire chez la Drosophila. C. R. Acad. Sci. 205, 1099–1101 (1937).
Holmes, F. O.: Borrelinaceae. In Bergey’s Manual of Determinative Bacteriology, 6th edition. pp. 1225–1228. Williams and Wilkins, Baltimore (1948).
Holoway, C. F. and G. H. Bergold: (1) Iron content of an insect virus. Science 117, 251–252 (1953).
— (2) Determination of Magnesium in an insect virus. Science 122, 1266–1267 (1955).
Hughes, K.M.: (1) A demonstration of the nature of polyhedra using alkaline solutions. J. Bact. 59, 189–195 (1950).
— (2) Development of the inclusion bodies of a granulosis virus. J. Bact. 64, 375–380 (1952).
— (3) The development of an insect virus within cells of its host. Hilgardia 22, 391–406 (1953).
— (4) Insects reported to have virus disease. Hilgardia in press (1957).
Hughes, K. M. and C. G. Thompson: A granulosis of the omnivorous looper Sabulodes caberata Guenee. J. Infectious Diseases 89, 173–179 (1951).
Husson, R.: Cas de polyédrose chez le Géométride Ennomos quercinaria Hufn. et considérations générales sur les polyédroses. Revue Pathol. Végétale et D’Entom. Agric. de France 33, 208–221 (1954).
Ikeda, H.: (1) Biochemical studies on the polyhedron body in the silkworm. J. Agr. Chem. Soc. Japan 21, 24 (1946).
— (2) The polyhedra of the silkworm. Elementary analyses and ultraviolet adsorptionspectra of the polyhedra. J. Sci. Res. Inst. 45, 217–225 (1951).
Ishimori, N.: Contribution à l’étude de la grasserie du ver à soie (Bombyx mori). Compt. rend. soc. biol. 116, 1169 (1934).
Ishimori, N. and M. Muto: Free amino acids in the blood of the normal and grasserie silkworm by paper chromatography. J. Sericult. Sci. Japan 20, 128–131 (1951).
Ishimori, N. and M. Osawa: (1) Changes of catalase activity in silkworm blood due to hydrogen peroxide injection. Med. and Biol. 22, 81–84 (1952a).
Ishimori, N. and M. Osawa: (2) Provocation of polyhedral disease in silkworm by injection of hydrogen peroxide. I. A single use of hydrogen peroxide. Med. and Biol. 22, 172–176 (1952b).
— (3) Provocation of polyhedral disease in silkworm by injection of hydrogen peroxide. II. A combined use of hydrogen peroxide and potassium cyanide. Med. and Biol. 23, 3–6 (1952c).
— (4) The effect of the polyhedra on the catalase activity of the silkworm blood. Kaga Ku (Science) 22, 43–44 (1952d).
Jacobsen, C. F. and K. Linderström-Lang: Method for rapid determination of specific gravity. Acta Physiol. Scan. 2, 149–152 (1940).
Janisch, E.: (1) Physiologische Grundlagen der Nonnenprognose. Anzeiger Schädlingskunde 12, 77–88 (1936).
— (2) Mischinfektionen bei Nonnenraupen. Arb. physiol. u. angew. Entomol. 9, 185–202 (1942).
Janisch, E. and S. Roegner-Aust: Der Erreger der Polyederkrankheiten bei Nonnenraupen. Nachrichtenblatt dtsch. Pflanzenschutzdienst. Nr. 2 (1943).
Jucci, C.: Introduzione allo Studio della Genetica. Editore Ulrico Hoepli, Corso Matteoti Milano (1944).
King, C. B. R.: Report of the entomologist (for 1930). Bull. The Research Inst. Ceylon No. 5, 17–20 (1931).
Kitajima, E.: Bull. Kayoshima Imp. Coll. Agr. Forest 10, 163. Quoted from Aizawa, 1953d (1932).
Komarek, J.: The different effect of entomoparasites and diseases on invasions of insects. Sbornik, Ceskoslovenska Academie Zemedelske 109th Member’s Session of the Czechoslovak Academy of Agriculture, Prague (1950).
Komarek, J. and V. Breindl: Die Wipfelkrankheit der Nonne und der Erreger derselben. Z. angew. Entom. 10, 99–162 (1924).
Kovačević, Ž.: Die Bedeutung der Polyederkrankheit für das Massenauftreten einiger Insekten (Orig. Jugoslavisch). Zastita bilja H. 23. Beograd (1954).
— (2) Die Nahrungswahl und das Auftreten der Pflanzenschädlinge. Anz. f. Schädlingskunde 29, 97–101 (1956).
Kovačević, Ž. and L. Schmidt: Einfluß der Nahrung auf die Populationsdynamik einiger polyphagen Schädlinge. In press (1957).
Krieg, A.: (1) Untersuchungen über die Polyedrose von Neodiprion sertifer (Geoffr.). Arch. ges. Virusf. 6, 163–174 (1955a).
— (2) Licht-und elektronenmikroskopische Untersuchungen für Pathologie der „Lorscher Erkrankung” von Engerlingen und zur Zytologie der Rickettsia melolonthae nov. spec. Z. Naturf. 10b, 34–37 (1955b).
— (3) Untersuchungen für Wirbeltierpathogenität und zum serologischen Nachweis der Rickettsia melolonthae im Arthropod.-Wirt. Naturwissensch. 42, 609–610 (1955c).
— (4) Zur Frage einer “Künstlichen Viruserzeugung” in Bombyx mori L. Naturwissensch. 42, 589–590 (1955d).
— (5) Zur Differentialdiagnose von Viruskrankheiten bei Insekten. Mikroskopie 10, 258–262 (1955e).
— (6) „Endogene Virusentstehung” und Latenzproblem bei Insektenviren. (Untersuchungen zur Polyedrose von Neodiprion sertifer (Geoffr. II. Mitt.). Arch. ges. Virusf. 6, 472–487 (1956a).
— (7) Virus-Isolierung aus kranken Larven von Hibernia defoliaria L. und Euproctis chrysorrhoea L. Naturwissenschaften 43, 260–261 (1956b).
— (8) Über die Nucleinsäuren der Polyederviren. Naturwissenschaften 43, 537 (1956c).
— (9) „Toleranzphänomen” und Latenzproblem. Arch. ges. Virusf. 7, 212–219 (1957).
Krieg, A. and R. Langenbuch: (1) Eine Polyhedrose von Aporia crataegi L. (Lepidoptera). Ztscht. Pflanzenkrankh. u. Pflanzensch. 63, 95–99 (1956 a).
— (2) Über einige neue Insektenvirosen. Entomophaga 1, 92–93 (1956b).
— (3) Über eine Polyedrose von Dasychira pudibunda L. (Lepidoptera, Lymantriidae). Arch. ges. Virusf. 7, 18–27 (1956c).
Kunkel, L. O.: (1) Studies on Aster-Yellows. Am. J. Botany 13, 646–705 (1926).
— (2) Effect of heat on ability of Cicadula sexnotata (Fall.) to transmit aster yellows: Am. J. Botany 24, 316–327 (1937).
— (3) Isolation of mild strains of Aster-Yellows from heattreated leafhoppers. J. Bact. 34, 132 (1937).
— (4) Heat cure of aster yellows in periwinkles. Am. J. Botany 28, 761–769 (1941).
— (5) Virusdiseases of plants. Michigan College Circular Bulletin 208 (1947).
— (6) Studies on a new corn virus disease. Arch. ges. Virusforsch. 4, 24–46 (1948).
Kuzin, A. M. and R. V. Krzhevova: Enzymic activity of the virus from jaundiced silkworm Bombyx mori L. Biokhimiya 13, 523–529 (1948).
Laidlaw, P. P.: Virus diseases and viruses. Cambridge, Cambridge University Press (1938).
Langenbuch, R.: Eine verbesserte und zeitsparende Methode zur Färbung von Viruseinschlußkörpern (Polyedern) in Schnittpräparaten mit Eisenhämatoxylin. Mikroskopie 10, 344–348 (1955).
Lanham, U. N.: Observations on the supposed intracellular symbiotic microorganisms of Aphids. Science 115, 459–460 (1952).
Lauffer. M. A.: Ultracentrifugation studies on the blood of normal and jaundice-diseased silkworms. Proc. Soc. Exp. Biol. Med. 52, 330–332 (1943).
Letje, W.: Das Gelbsuchtproblem bei den Seidenraupen. Seidenbauforschung 1, 1–68. Kernen, Stuttgart (1939).
De Lestrange, M. Th.: Action de la température sur le virus responsable de la sensibilité à l’anhydride carbonique chez la Drosophile. C. R. Acad. Sci. 239, 1159–1162 (1954).
Littau, V. C. and K. Maramorosch: Cytological effects of Aster-Yellows Virus in its insect vector. Virology 2, 128–130 (1956).
Lotmar, R.: Die Polyederkrankheit der Kleidermotte (Tineola biselliella). Mitt. Schweizer entom. Ges. 18, 372–373 (1941).
Lower, H. F.: A granulosis virus attacking the larvae of Persectania ewingii Westw. (Lepidoptera: Agrotidae) in South Australia. Austral. J. Biol. Sci. 7, 161–167 (1954).
Luria, S. E.: (1) Bacteriophage: An essay on virus production. Science 111, 507–511 (1950).
— (2) General Virology. John Wiley and Sons Inc., New York, Chapman and Hall Ltd., London, 427 pp. (1953).
MacGregor, D. R. and G. H. Bergold: Serological relationships of insect viruses and their inclusion bodies. In preparation (1957).
Maestri, A.: Frammenti anatomici, fisiologici e pathologici sul baco da seta. Fusi, Pavia (1856).
Manunta, C.: Saggi preliminari sui corpuscoli poliedrici del giallume dei bachiola seta. Reale. Inst. Lombardo Sci. lett. rend. c. sci. math. natur 73, 443–450 (1940).
Maramorosch, K.: (1) Influence of temperature on incubation and transmission of wound-tumor virus. Phytopathology 40, 1071–1073 (1950).
— (2) Multiplication of Aster-Yellows Virus in its vectors. Nature 169, 194 (1952a).
— (3) Direct evidence for the multiplication of aster yellows virus in its insect vector. Phytopathology 42, 59–64 (1952b).
— (4) Studies on the nature of the specific transmission of aster-yellows and cornstunt viruses. Phytopathology 42, 663–668 (1952c).
— (5) Do developmental stages occur in the reproductive cycle of aster-yellows virus? Cold Spring Harbor Symposia Quant. Biol. 18, 51–54 (1953a).
— (6) Multiplication of a plant virus in an insect vector. Atti del VI. Congresso Int. Microbiol. 3, Ser. IX, 379–382 (1953b).
— (7) Biological transmission of plant viruses by animal vectors. Trans. N. Y. Acad. Sci. 16, 189–195 (1954).
— (8) Multiplication of plant viruses in insect vectors. Adv. Virus Res. 3, 221–249 (1955).
— (9) Studies on the multiplication of aster-yellows virus in tissue cultures of insect vectors. Phytopathology 46, 20 (1956a).
Maramorosch, K.: (10) Multiplication of aster-yellows virus in in vitro preparations of insect tissues. Virology 2, 369–376 (1956b).
Maramorosch, K., M. K. Brakke and L. M. Black: Mechanical transmission of a plant tumor virus to an insect vector. Science 110, 162–163 (1949).
Martignoni, M. E.: (1) Über zwei Viruskrankheiten von Forstinsekten im Engadin. Mitt. Schweiz. Entom. Ges. 27, 147–152 (1954).
— (2) Microinjector needle for determination per os LD 50 of insect viruses. Science 122, 764 (1955).
Masera, E.: Le malatti infettive degli insetti, pp. 343. Capelli, Bologna (1936).
Morgan, C., G. H. Bergold, D. H. Moore and H. M. Rose: The macromolecular paracrystalline lattice of insect viral polyhedral bodies demonstrated in ultra thin sections examined in the electron microscope. J. Biophysic. and Biochem. Cytol. 1, 187–190 (1955).
Morgan, C., G. H. Bergold and H. M. Rose: Use of serial sections to delineate the structure of Porthetria dispar virus in the electron microscope. J. Biophysic. and Biochem. Cytol. 2, 23–28 (1956).
Neilson, M. M. and D. B. Marks: Laboratory trials of an introduced polyhedral disease from larvae of the Painted Lady Butterfly (Vanessa cardui L.) against larvae of the European Winter Moth (Operophtera brumata L.) and the Fall Cankerworm (Alsophila pometaria Harr.). Interim Report 1955-3 Forest Biology Laboratory, Fredericton. New Brunswick, Can. Dept. Agr. (1955).
Niklas, O. F.: Zum Massenwechsel der Tachine Parasetigena segregata Rond, in der Rominter Heide. In „Die Nonne in Ostpreußen“ Wellenstein pp. 319-358 (1942).
Osawa, M.: Provocation of polyhedral disease in insects by injection of hydrogen peroxide. Med. and biol. 21, 154–157 (1951).
Paillot, A: (1) Sur l’étiologie et l’épidemiologie de la “grasserie” du ver à soie. Compt. Rend. Acad. Sci. 179, 229–231 (1924).
— (2) Sur une nouvelle maladie du noyeu ou grasserie des chenilles de P. brassicae et un noveau groupe de microorganismes parasites. Compt. Rend. Acad. Sci. 182, 180–182 (1926).
— (3) Les maladies du vers à soie. pp. 328. Service photographique de l’Université Lyon (1928).
— (4) L’infection chez les insectes, pp. 535. Pattissier, Trévoux (1933).
— (5) Ultravirus des insectes. In “Les Ultravirus des maladies animales”. (C. Levaditi, P. Lépine, and L. Verge), Librairie Maloine, Paris, pp. 1177–1191 (1943).
Paillot, A. and A. Gratia: Essai d’isolement du virus de la grasserie des vers à soie par l’ultracentrifugation. Arch. ges. Virusforsch. 1, 120–129 (1939).
Panebianco, R.: Osservazioni sui granuli del Giallume. Boll. Mens. di Bachicolt. II. Serie XII, 145–160 (1895).
Plus, N.: (1) Etude de la multiplication du virus de la sensibilité au gaz carbonique chez la Drosophile. Bull. Biol. Fr. Belg., 88, 248–293 (1954).
— (2) Multiplication du virus a et passage à la descendance après inoculation ou transmission héréditaire. Annales Inst. Pasteur 88, 347 (1955).
Prell, H.: Die Polyederkrankheiten der Insekten. Verh. III. intern. Entomol. Kongress. Zürich, 1925, 2, 145–168 (1926).
Prowazek, S.: (1) Clamydozoa. II. Gelbsucht der Seidenraupen. Arch. Protistenk. 10, 358–364 (1907).
— (2) Untersuchungen über die Gelbsucht der Seidenraupen. Zentr. Bact. Parasitenk., Abt. I. Orig. 67, 268–284 (1913).
Reed, L. Y. and H. Muench: A simple method of estimating fifty per cent endpoints. Am. J. Hyg. 27, 493–497 (1938).
Reiff, W.: The wilt disease, or flacherie, of the Gypsy Moth. Contr. Ent. Lab. Bussey Inst. Harvard Univ. No. 36, 60 pp. (1911).
Rennie, J.: Polyhedral disease in Tipula paludosa (Meigen). Proc. Roy. Soc. Edinburgh. A 20, 265–267 (1923).
Richards, O. W.: The biology of the small white butterfly (Pieris rapae) with special reference to the factors controlling its abundance. J. Anim. Ecol. 9, 243–288 (1940).
Ripper, M.: Bericht über die Tätigkeit der K. K. Landwirtschaftlich-chemischen Versuchsstation in Görz im Jahre 1914. Z. Landw. Versuchsw. Österr. 1915, 12–15 (1915).
Roegner-Aust, S.: (1) Der Infektionsweg bei der Polyederkrankheit der Nonne. Naturwissenschaften 34, 158 (1947).
— (2) Der Infektionsweg bei der Polyederepidemie der Nonne. Ztschr. Angew. Entom. 31, 3–37 (1949a).
— (3) Populationsanalytische Untersuchungen über die Sterblichkeit von Nonnen-raupen. Ztscht. Angew. Entom. 31, 181–207 (1949b).
Růžička, J.: (1) Die neuesten Erfahrungen über die Nonne in Böhmen. Centbl. Gesam. Forstw. 50, 33–68 (1924).
— (2) Quoted from Roegner-Aust 1949a (1927).
Schedl, K. E.: Der Schwammspinner (Porthetria dispar L.) in Euroasien, Afrika und Neuengland. In Monographia für angewandte Entomologie, pp. 242, No. 12. Verlag Parey, Berlin (1936).
Schelling, H.: Die mathematisch-statistische Bewertung von Stichproben und deren Bedeutung für die Beurteilung von Tierversuchen. Arb. Staatsinst. exp. Therap. Georg-Speyer-Haus Frankfurt a. M. Heft 37, 28–54 (1939).
Schmidt, L.: The influence of food on the development of Gipsy-moth (Lymantria dispar L.). Ann. Exp. for., Zagreb 12, 105–166 (1956).
Schramm, G., G. Schumacher and W. Zillig: Über die Struktur des Tabakmosaikvirus. III. Mitt.: Der Zerfall in alkalischer Lösung. Z. Naturforsch. 10b, 481–492 (1955).
Schwertfeger, F.: (1) Über die Ursachen des Massenwechseis der Insekten. Ztschr. Angew. Entom. 28, 254–303 (1941).
— (2) Untersuchungen über den „Eisernen Bestand” von Kiefernspanner (Bupalus piniarius L.), Forleule (Panolis flammea, Schiff.) und Kiefernschwärmer (Hyloicus pinastri L.). Ztschr. Angew. Entom. 34, 216–283 (1952).
— (3) Grundsätzliches zur Populationsdynamik der Tiere, insbesondere der Insekten. Allg. Forst-u. Jagdzeitg. 125, 200–209 (1954).
Schwetzova, O. I.: (1) Die Polyederkrankheit der großen Wachsmotte (Galleria mellonella L.) und die Rolle des Nahrungsfaktors bei den Viruskrankheiten der Insekten. Mikrobiologiya 19, 532–542 (1950).
— (2) Yellow jaundice in the oak silkworm and methods of control in commercial production. Mikrobiologiya 23, 477–484 (1954).
Sibold, N. V.: Granulosis of the red-banded leaf roller. Virginia Journ. Sci. 1, 266 (1950).
Sippell, W. L.: Winter rearing of the forest tent caterpillar, Malacosoma disstria Hbn. Can. Dept. Agr. Bi-monthly Progr. Rept. 8(4), 1 (1952).
Smith, J. D. and G. R. Wyatt: The composition of some microbial deoxypentose nucleic acids. Biochem. J. 49, 144–148 (1951).
Smith, K. M.: (1) Latency in viruses and the production of new virus diseases. Biol. Reviews 27, 347–357 (1952).
— (2) The polyhedral viruses. Science Progress 163, 411–417 (1953).
— (3) What is a Virus? Nature 175, 12–15 (1955a).
— (4) Intranuclear changes in the polyhedrosis of Tipula paludosa (Diptera). Nature 176, 225 (1955b).
— (5) Insect viruses. Research 8, 380–384 (1955c).
— (6) Intranuclear changes in the polyhedrosis of Tipula paludosa (Meig.). Para-sitology 45, 482–487 (1955d).
— (7) Morphology and development of insect viruses. Adv. Virus Res. 3, 199–220 (1955e).
— (8) The structure of insect virus particles. J. Biophysic. and Biochem. Cytol. 2, 301–306 (1956).
Smith, K. M. and C. F. Rivers: Some viruses affecting insects of economic importance. Parasitology 46, 235–242 (1956).
Smith, K. M. and R. W. G. Wyckoff: (1) Structure within polyhedra associated with insect virus diseases. Nature 166, 861 (1950).
— (2) Electron microscopy of insect viruses. Research 4, 148–155 (1951).
Smith, K. M., R. W. G. Wyckoff and N. Xeros: Polyhedral virus diseases affecting the larvae of the Privet Hawk Moth (Sphinx ligustri). Parasitology 42, 287–289 (1953).
Smith, K. M. and N. Xeros: (1) Transmission of polyhedral viruses between different insect species. Nature 170, 492 (1952).
— (2) Studies on the cross-transmission of polyhedral viruses: Experiments with a new virus from Parameis cardui, the painted lady butterfly. Parasitology 43, 178–185 (1953a).
Smith, K. M. and N. Xeros: (3) Cross-inoculation studies with polyhedral viruses. Symposium, Interactions of viruses and cells, pp. 81–95, Istituto Super. di Sanita, Roma (1953b).
— (4) Development of virus in the cell nucleus. Nature 172, 670–671 (1953c).
— (5) An unusual virus disease of dipterous larva. Nature 173, 866–867 (1954a).
— (6) Electron and light microscope studies of the development of the virus rods of insect polyhedroses. Parasitology 44, 71–80 (1954b).
— (7) A comparative study of the different types of viruses and their capsules in the polyhedroses and granuloses of insects. Parasitology 44, 400–406 (1954c).
Smiths, O. J., K. M. Hughes, P. H. Dunn and J. M. Hall: A granulosis virus disease of Western Grape Leaf Skeletonizer and its transmission. Can. Entom. 88, 507–515 (1956).
Steinhaus, E. A.: (1) A new disease of the variagated cutworm, Peridroma margaritosa (Haw.). Science 106, 323 (1947).
— (2) Polyhedrosis (“Wilt disease”) of the alfalfa caterpillar. J. Econ. Entomol. 41, 859–865 (1948).
— (3) Virus infections in Principles of Insect Pathology, pp. 417–545. McGraw-Hill, New York, Toronto, London (1949).
— (4) Nomenclature and classification of insect viruses. Bact. Rev. 13, 203–223 (1949).
— (5) Report on diagnosis of diseased insects. 1944–1950. Hilgardia 20, 629–678 (1951).
— (6) Taxonomy of insect viruses. Ann. N. Y. Acad. Sci. 56, 517–537 (1953).
— (7) The susceptibility of two species of Colias to the same virus. J. Econ. Entom. 45, 897–898 (1953).
— (8) Duration of infectivity of the virus of silkworm jaundice. Science 120, 186–187 (1954).
— (9) The effects of disease on insect populations. Hilgardia 23, 197–261 (1954).
— (10) Microbial control — the emergence of an idea. A brief history of insect pathology through the nineteenth century. Hilgardia 26, 107–159 (1956 a).
— (11) New records of insect-virus diseases. Hilgardia 26, 417–430 (1957).
Steinhaus, E. A. and C. G. Thompson: (1) Granulosis disease in the buckeye caterpillar, Junonia coenia Hübner. Science 110, 276–278 (1949a).
— (2) Preliminary field tests using a polyhedrosis virus to control the alfalfa caterpillar. J. Econ. Entomol. 42, 301–305 (1949b).
— (3) Alfalfa caterpillar tests. California Agriculture 3, March, p. 5–6 (1949c).
Steinhaus, E. A., K. M. Hughes and H. B. Wasser: Demonstration of the granulosis virus of the variagated cutworm. J. Bact. 57, 219–224 (1949).
Steinhaus, E. A. and K. M. Hughes: A granulosis of the Western Grape Leaf Skeletonizer. J. Econ. Entomol. 45, 744 (1952).
Stellwaag, F.: Der Baumweissling Aporia crataegi L. Z. angew. Entomol. 10, 273–312 (1924).
Suzuki, T.: Bull. Imp. Kyoto Seric. Coll. 1(5), 228. Quoted from Aizawa 1953d (1937).
Tanada, Y.: (1) Description and characteristics of a granulosis virus of the imported cabbageworm. Proc. Hawaiian Entomol. Soc. 15, 235–260 (1953).
— (2) A polyhedrosis virus of the imported cabbage worm and its relation to a polyhedrosis virus of the Alfalfa caterpillar. Ann. Entom. Soc. America 47, 553–574 (1954).
Tanada, Y.: (3) Some factors affecting the susceptibility of the army worm to virus infections. J. Econ. Ent. 49, 52–57 (1956a).
— (4) An annotated list of infectious diseases of insects in Hawaii Part II. Proc. Haw. Ent. Soc. 16, 149–155 (1956b).
— (5) Size of a granulosis virus of Pieris rapae (L.). Proc. Haw. Ent. Soc. 16, 156–157 (1956c).
Tarasevich, L. M.: (1) On the nucleic acids of the polyhedra of the mulberry silkworm. Mikrobiologiya 15, 337–340 (1946).
— (2) On rearing of mulberry silkworms free from jaundice. Microbiologiya 19, 364–368 (1950).
— (3) Forms of phosphorus and nitrogen in healthy and affected with yellow disease caterpillars of the mulberry silkworm (Bombyx mori). Biokhimiya 17, 282–287 (1952).
— (4) In regard to obtaining mulberry silkworm (Bombyx mori) larvae free from yellow disease. Mikrobiologiya 22, 311–315 (1953a).
— (5) Polyhedrosis and metabolism of mulberry silkworm:. Doklady Vsesoyuz. Acad. Sel’skokhoz. Nauk imp. V. I. Lenina 18, 35–41 (1953).
Thompson, C. G.: (1) A granulosis of the imported cabbageworm. J. Econ. Ent. 44, 255 (1951).
— (2) Field tests during 1950 using a polyhedrosis to control the Alfalfa caterpillar. J. Econ. Entom. 44, 255–256 (1951).
Thompson, C. G. and E. A. Steinhaus: Further tests using a polyhedrosis virus to control the Alfalfa caterpillar. Hilgardia 19, 411–445 (1950).
Tokuyasu, K.: The structure and the development of silkworm polyhedra. Enzymologia 16, 62–68 (1953).
Tomlin, S. G. and J. Monro: The structure of a polyhedral virus from the larva of Ardices glatignyi Le Guil. (Lepidoptera: Arctiidae.) Biochim. et Biophys. Acta 18, 202–215 (1955).
Trager, W.: Cultivation of the virus of grasserie in silkworm tissue cultures. J. Exp. Med. 61, 501–513 (1935).
Tsujita, M.: Cytoplasmic polyhedral virus infecting the silkworm. Proc. Jap. Acad. 31, 93–98 (1955).
Tubeuf, C.: Die Krankheiten der Nonne (Liparis monacha). Forstl. Naturwiss. Z. 1, 34–47; 62-79; 277-279 (1892).
Ueda, K., Y. Okimoto, H. Sakai, K. Arima, H. Yonehara and Y. Sakagami: An antibiotic against silkworm jaundice virus grasseriomycin produced by streptomyces species. J. Antibiotics 8, 91–95 (1955).
Umeya, Y., K. Aizawa and K. Nakamura: Injection experiments of the silkworm jaundice virus into the silkworm eggs with some considerations on the multiplication and induction of the virus. Sansi-Ken Kyu (Acta Sericologia) No. 13-2, 5–12 (1955).
Vago, C.: (1) Phénomènes de “Latentia” dans une maladie à ultravirus des insectes. Rev. Can. biol. 10, 299–308 (1951).
— (2) Maladies latentes et tolérance symbiotique chez les invertébrés. VI. Cong. Int. Patologia comp., Madrid, pp. 121-134 (1952).
— (3) Essais d’élimination de la grasserie par activation de sa phase latente. Rev. du Ver a Soie 5, 73–81 (1953a).
— (4) Virose aiguë à polyèdres déclenchée par action du fluorure de sodium. Experientia 9, 466 (1953b).
— (5) La polyédrie de Thaumetopoea pityocampa. Ann. des Epiphyt. 4, 319–332 (1953c).
Vago, C. and P. Hauduroy: Résistance à la lyophilisation, du virus de la polyédrie de Thaumetopoea pityocampa Schiff. (Lepidoptera.) Antonie v. Leeuwenhoek 20, 141–144 (1954).
Vago, C., P. Lepine and O. Croissant: Mise en évidence du virus de la “Granulose” (Pseudograsserie) de Pieris brassicae L. Ann. Inst. Past. 89, 458–460 (1955).
Vago, C. and L. Vasiljevic: (1) Détection d’une maladie à virus parmi les populations Européennes de l’écaille fileuse (Hyphantria cunea Drury Lepidoptera) actuellement en progression. C. R. Acad. Agric. 39, 735–736 (1953).
Vago, C. and L. Vasiljevic: (2) Une virose à localisation intestinale avec affinité cytoplasmique chez le lépidoptère Thaumetopoea processioned. Antonie v. Leeuwenhoek 21, 210–214 (1955).
Veneroso, A.: La malattia della poliedria nel Bombyx mori L. provocata da foglia intossicata con fluoruri. Bull. R. Staz. Gelsic. Bachic. Ascoli Piceno 13, 1–12 (1934).
Verson, E.: cited in Haberlandt (1872).
Wahl, B.: (1) Über die Polyederkrankheit der Nonne (Lymantria monacha L.). Centr. f. gesam. Forstwesen 35, 164–172; 212-215 (1909).
— (2) Über die Polyederkrankheit der Nonne (Lymantria monacha L.). Centr. f. gesam. Forstwesen 36, 193–212; 377-397 (1910).
— (3) Über die Polyederkrankheit der Nonne (Lymantria monacha L.). Centr. f. gesam. Forstwesen 37, 247–268 (1911).
— (4) Über die Polyederkrankheit der Nonne (Lymantria monacha L.). Centr. f. gesam. Forstwesen 38, 355–378 (1912).
Wasser, H. B.: Demonstration of a new insect virus not associated with inclusion bodies. J. Bact. 64, 787–792 (1952).
Wasser, H. B. and E. A. Steinhaus: Isolation of a virus causing granulosis of the red-banded leaf roller. Virginia Journ. Sci. 2, 91–93 (1951).
Watanabe, S.: (1) Investigation on adsorption and elution of the grasserie virus. Res. Bull. Imper. Tokyo Sericul. Coll. 3 (1941a).
— (2) On the cataphophoretic behavior of the grasserie virus. Res. Bull. Imper. Tokyo Sericul Coll. 3 (1941b).
— (3) Studies on the grasserie virus of the silkworm, Bombyx mori. IV Physical and chemical effects upon the virus. Jap. J. Exp. Med. 21, 299–313 (1951).
Weiser, J.: (1) Zwei neuartige Erkrankungen bei Insekten. Experientia 4, 317–318 (1948).
— (2) Our results of investigations of insect diseases (in Czech). Acta Soc. ent. Cech. 52, 61–76 (1955).
— (3) Die Krankheiten des Tannentriebwicklers, Cacoecia murinana Hb. in der Mittelslowakei (CSR). Ztscht. f. Pflanzensch. 63, 193–197 (1956).
Weiser. J. and J. Veber: The possibilities of biological control of the Fall Webworm (Hyphantria cunea Drury). Folia Zool. et Entom. III(17), 55–68 (1954).
Wellenstein, G.: (1) Die Nonne in Ostpreußen. pp. 682. Paul Parey, Berlin (1942a.)
— (2) Zum Massenwechsel der Nonne. In „Die Nonne in Ostpreußen“. Wellenstein. pp. 207-278 (1942b).
Wellington, E. F.: (1) Amino acids of two insect viruses. Biochim. et Biophys. Acta 7, 238–243 (1951).
— (2) The amino acid composition of some insect viruses and their characteristic inclusion-body proteins. Biochem. J. 57, 334–338 (1954).
White, G. F.: (1) Sacbrood, a disease of bees. U. S. D. A. Bur. Entomol. Circ. 169, 5 pp. (1913).
— (2) Sacbrood. U. S. D. A. Bull. 431, 54 pp. (1917).
— (3) Preliminary observations on the polyhedral diseases of insects. J. Parasit. 16, 107 (1929-1930).
Wille, H. and M. E. Martignoni: Vorläufige Mitteilung über einen neuen Krankheitstypus beim Engerling von Melolontha vulgaris F. Schweiz. Zschr. Allgem. Path. Bakt. 15, 470–471 (1952).
Williams, R. C.: Electron microscopy of viruses. Advan. in Virus Res. 2, 183–329 (1954).
Williams, R. C. and K. M. Smith: A crystallizable insect virus. Nature 179, 119–120 (1957).
Withman, L.: The multiplication of the virus of yellow fever in Aedes aegypti. J. Exp. Med. 66, 133–143 (1937).
Wyatt, G. R.: (1) Studies on insect viruses and nucleic acids. Thesis, University of Cambridge, England (1950).
— (2) Specificity in the composition of nucleic acids. Exp. Cell. Res. Suppl. 2, 201–217 (1952a).
— (3) The nucleic acids of some insect viruses. J. Gen. Physiol. 36, 201–205 (1952b).
Wyatt, S. S.: Culture in vitro of tissue from silkworm, Bombyx mori (L.). J. Gen. Physiol. 39, 841–852 (1956).
Xeros, N.: (1) Cytoplasmic polyhedral virus diseases. Nature 170, 1073 (1952).
— (2) A second virus disease of the Leatherjacket, Tipula paludosa. Nature 174, 562–563 (1954).
— (3) Origin of the virus-producing chromatic mass or net of the insect nuclear polyhedroses. Nature 175, 588–590 (1955).
— (4) The virogenic stroma in nuclear and cytoplasmic polyhedroses. Nature 178, 412–413 (1956).
Yagi, Y., T. Iwasaki and S. Kato: Recherches chimiques sur le polyèdre du ver à soie (Bombyx mori L.), atteint de la grasserie. Revue du ver à soie 3, 259–264 (1951).
Yamafuji, K.: (1) Conversion of nitrites into oximes in silkworms and its relation to the experimental production of virus disease. Nature 165, 651–652 (1950).
— (2) Mechanism of artificial virus formation in silkworm tissues. Enzymologia 15, 223–231 (1952a).
— (3) Effect of Nitrite on the Nuclear Structure in the Silkworm. Nature 170, 126 (1952b).
— (4) Presence of deoxyribonuclease in silkworm polyhedral virus. Nature 178, 89 (1956).
Yamafuji, K. and T. Akita: Virus formation in silkworm pupae. Enzymologia 15, 14–16 (1951).
Yamafuji, K. and T. Cho: Weitere Studien über die Entstehung des Seidenraupenpolyedervirus ohne Virusinfektion. Biochem. Z. 318, 95–100 (1947).
Yamafuji, K. and M. Eto: The relation between polyhedrosis virus and gene. J. Agr. Chem. Soc. Japan 26, 407–409 (1952).
Yamafuji, K. and T. Goya: Verhütung der Viruserkrankung durch Eisenverbindungen. Journ. Fac. Agric. Kyùshù Univ. 9, 325–331 (1950).
Yamafuji, K. and K. Hirayama: Contact method for inducing polyhedral disease. Enzymologia 17, 229–236 (1955).
Yamafuji, K. and Y. Kosa: Zum Chemismus der Entstehung des Virus. Biochem. Ztschr. 317, 81–85 (1944).
Yamafuji, K. and H. Omura: The formation of silkworm virus by acetoxime feeding. Enzymologia 15, 120–123 (1950).
Yamafuji, K. and Y. Shirozu: Die Abhängigkeit der Neubildung des Virusproteins von der Erniedrigung der Katalase. Biochem. Ztschr. 317, 94–99 (1944).
Yamafuji, K., K. So and K. Soo: Die Wirkung des Seidenraupenpolyedervirus auf die Atmung und Katalase der Hefe. Biochem. Z. 311, 203 (1941).
Yamafuji, K. and F. Yoshihara: (1) On the virus production and oxime formation in silkworms fed with nitrites. Enzymologia 14, 124–127 (1950).
— (2) Embryonic development and virus formation in silkworm. Enzymologia 15, 321–326 (1953a).
— (3) Virus Formation in Interspecific Hybrids of Silkworms. Enzymologia 15, 366–370 (1953b).
Yamafuji, K. and I. Yoshihara: (1) The relation between nitrogen metabolism and virus production in silkworm tissues. J. agr. chem. soc. Japan. 24, 388–391 (1951a).
— (2) Procedures for the chemical production of silkworm virus. Enzymologia 15, 10–13 (1951b).
Yamafuji, K. and T. Yuki: (1) Über die Vorbeugung der Viruskrankheit durch Fütterung mit Katalase beim Seidenspinner. Biochem. Z. 318, 107 (1947).
— (2) Über den Mechanismus der Virusentstehung in der Zelle. Jour. Fac. Agric. Kyushu Univ. 9, 317–323 (1950).
Yamafuji, K., S. Fujii and T. Akita: Über die chemischen Prozesse bei der künstlichen Viruserzeugung im lebendigen Körper. Enzymologia 14, 24–29 (1950a).
Yamafuji, K., T. Akita and M. Inaoka: Experimental production of silkworm virus under sterile conditions. Enzymologia 14, 164–169 (1950b).
Yamafuji, K., F. Yoshihara, M. Eto and H. Omura: Induction of polyhedrosis by injecting desoxyribonucleic acid fractions isolated from healthy silkworms. Enzymologia 17, 237–244 (1955).
Yamafuji, K., F. Yoshihara and H. Wada: Formation of oxime in silkworms after feeding with inorganic nitrogenous salts. Enzymologia 14, 170–176 (1950)
Yamafuji, K., H. Omura and F. Yoshihara: Effect of chemicals on the virus infection in silkworms. Enzymologia 15, 28–30 (1951a).
Yamafuji. K., T. Akita and H. Sakamoto: Virus activity of silkworm polyhedra. Enzymologia 15, 126–129 (1951b).
Yamafuji, K., K. Wada and M. Sato: Solubility of Polyhedral bodies of silkworm. Enzymologia 15, 130–133 (1951c).
Yamafuji, K., K. Tokuyasu and K. Wada: Electron micrography of polyhedra from silkworm. Enzymologia 15, 31–32 (1951d).
Yamafuji, K., I. Igaue and M. Sato: Effect of chemicals upon the solubility of the polyhedrosis of silkworms. Enzymologia 15, 219–222 (1952a).
Yamafuji, K., T. Akita and I. Namba: Relation between infectious ability of silkworm polyhedra and virus-producing substances. Enzymologia 15, 215–218 (1952b).
Yamafuji, K., F. Yoshihara and H. Omura: Experimental virus production in a Canadian strain of silkworm. Enzymologia 15, 182–186 (1952c).
Yamafuji, K., F. Yoshihara and M. Eto: Morphological changes of adipose cells in silkworms after administering nitrite or hydroxylamine. Enzymologia 15, 204–206 (1952d).
Yamafuji, K., Y. Matsukura and M. Eto: Electrophoresis of silkworm polyhedra. Enzymologia 15, 327–328 (1953a).
Yamafuji, K., H. Omura and M. Miura: Transoximase. Enzymologia 16, 75–80 (1953b).
Yamafuji, K., H. Omura and M. Sato: Polyhedron production in offspring of virus-infected silkworms. Enzymologia 15, 362–365 (1953c).
Yamafuji, K., F. Yoshihara and S. Yoshimoto: Induction of polyhedrosis in progenies of chemically treated silkworms. Enzymologia 16, 51–55 (1953d).
Yamafuji, K. and H. Omura: A study of polyhedral virus formation with radioactive phosphorus. Enzymologia 17, 28–30 (1954).
Yamafuji, K., M. Shimamura and F. Yoshihara: Behaviour of nucleic acids in formation processes of silkworm virus. Enzymologia 16, 337–342 (1954a).
Yamafuji, K., F. Yoshihara and M. Sato: Eclipse period of polyhedral disease. Enzymologia 17, 152–154 (1954b).
Yamafuji, K., H. Omura and M. Sato: Injection method for inducing polyhedrosis in silkworm. Enzymologia 16, 329–335 (1954c).
Yamamasu, Y.: J. silk industry No. 51, quoted from Watanabe, 1951 (1942).
Yoshihara, F.: (1) The influence of hydrogen-ion concentration and temperature on the proteolytic enzymes in the polyhedral-diseased silkworms. J. Agr. Chem. Soc. Japan 23, 252–254 (1950a).
— (2) Relation between experimental virus formation and proteolytic activity of silkworm body. J. Agr. Chem. Soc. Japan 23, 254–257 (1950b).
— (3) Changes of proteases in the silkworm fed with Oxime. J. Agr. Chem. Soc. Japan 23, 460–462 (1950c).
— (4) Action of hydroxylamine and acetoxime on proteolytic enzymes of jaundice-diseased silkworms. Sci. Bull. Fac. Agr. Kyushu Univ. 12, 51–54 (1950d).
— (5) Fractionation of proteolytic enzymes from polyhedral-diseased silkworms. J. Agr. Chem. Soc. Japan 26, 404–406 (1952).
— (6) Decomposition of pepton in polyhedral-diseased silkworms. Sci. Bull. Fac. Agric. Kyushu Univ. 15, 473–477 (1956a).
— (7) Peptidase in virus-diseased silkworms. Sci. Bull. Fac. Agric. Kyushu Univ. 15, 479–481 (1956b).
Zalmanzon, E. S.: Action of protease on nuclear inclusions in silkworm jaundice infections. Mikrobiologiya 18, 361 (1949).
Zhdanov, V. M.: Guide to human and animal viruses, pp. 316–323, Acad. Med. Sci. USSR, Moscow, 348 pp. (1953).
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Additional information
To Maestri and Cornalia on the centennial of their discovery of polyhedra.
Rights and permissions
Copyright information
© 1958 Springer-Verlag Wien
About this chapter
Cite this chapter
Bergold, G.H. (1958). Viruses of Insects. In: Hallauer, C., Meyer, K.F. (eds) Handbuch der Virusforschung. Springer, Vienna. https://doi.org/10.1007/978-3-7091-7885-0_3
Download citation
DOI: https://doi.org/10.1007/978-3-7091-7885-0_3
Publisher Name: Springer, Vienna
Print ISBN: 978-3-7091-7886-7
Online ISBN: 978-3-7091-7885-0
eBook Packages: Springer Book Archive