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INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY logo International Journal of Systematic and Evolutionary Microbiology

Volume 20, Issue 2

fam. nov. () with one new combination and six new species of the genus Brunchorst 1886, 174 Free

Abstract

ABSTRACT

fam. nov. is proposed with the type genus . It includes in the genus one new combination, and six new species, and .

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1970-04-01
2026-02-17

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References

  1. Allen E. K., Allen O. N., Klebesadel L. J. 1964; An insight into symbiotic nitrogen-fixing plant associations in Alaska. Proc. Alaskan Sci. Conf., 14th, Anchorage, Alaska54–63
     [Google Scholar]
  2. Allen J. D., Silvester W. B. , Kalin M. 1966; Streptomyces associated with root nodules of Coriaria in New Zealand. New Zealand: J. Bot. 4:57–65
     [Google Scholar]
  3. Atkinson G. F. 1892; The Genus Frankia in the United States. Bull. Torrey Bot. Club 19:171–177
     [Google Scholar]
  4. Becking J. H. 1961a; Molybdenum and symbiotic nitrogen fixation by alder (Alnus glutinosa Gaertn.). Nature (Londn): 192:1204–1205
     [Google Scholar]
  5. Becking J. H. 1961b; A requirement of molybdenum for the symbiotic nitrogen fixation in alder (Alnus glutinosa Gaertn.). Plant and Soil 15:217–227
     [Google Scholar]
  6. Becking J. H. 1965; In vitro cultivation of alder rootnodule tissue containing the endophyte. Nature (London): 207:885–887
     [Google Scholar]
  7. Becking J. H. 1966; Interactions nutritionelles plantesactinomycetes. Rapport général. Ann. Inst. Pasteur (Paris) Suppl.: 111:211–246
     [Google Scholar]
  8. Becking J. H. 1968; Nitrogen fixation by non-leguminous plants. Dutch Nitrog. Fert. Rev. No. 12:47–74
     [Google Scholar]
  9. Becking J. H. 1970; Plant-endophyte symbiosis in nonleguminous plants. Plant and Soil 32:611–654
     [Google Scholar]
  10. Becking J. H., deBoer W. E., Houwink A. L. 1964; Electron microscopy of the endophyte of Alnus glutinosa. Antonie van Leeuwenhoek 30:343–376
     [Google Scholar]
  11. Bond G. 1951; The fixation of nitrogen associated with the root nodules of Myrica gale L., with special reference to its pH relation and ecological significance. Ann. Bot. 15:447–459
     [Google Scholar]
  12. Bond G. 1955; An isotopic study of the fixation of nitrogen associated with nodulated plants of Alnus, Myrica, and Hippophaë. J. Exp. Bot. 6:303–311
     [Google Scholar]
  13. Bond G. 1957a; The development and significance of the root nodules of Casuarina. Ann. Bot. 21:373–380
     [Google Scholar]
  14. Bond G. 1957b; Isotopic studies of nitrogen fixation in non-legume root nodules. Ann. Bot. 21:513–521
     [Google Scholar]
  15. Bond G. 1958 Symbiotic nitrogen fixation by nonlegumes. In: Nutrition of the Legumes, ed. E. G. Hallsworth, Proc. Univ. Nottingham, 5th Easter School Agr. Sci., 359 pp., Butterworth Sci. Publ London:216–231
  16. Bond G. 1959 Fixation of nitrogen in non-legume root-nodule plants. In: Utilization of nitrogen and its compounds by plants. ed. H. K. Porter, 13th Symp. Soc. Exp. Biol., 385 pp., Cambridge Univ. Press, London:59–72
  17. Bond G. 1961; The oxygen relation of nitrogen fixation in root nodules. Z. allg. Mikrobiol. 1:93–99
     [Google Scholar]
  18. Bond G. 1962; Fixation of nitrogen in Coriaria myrtifolia. Nature (London): 193:1103–1104
     [Google Scholar]
  19. Bond G. 1964; Isotopic investigations of nitrogen fixation in non-legume root nodules. Nature (London): 204:600–601
     [Google Scholar]
  20. Bond G. 1967; Nitrogen fixation in some non-Legume root nodules. Phyton (Buenos Aires) 24:57–66
     [Google Scholar]
  21. Bond G., Adams J. F., Kennedy E. H. 1965; Vitamin B12 analogues in non-Legume root nodules. Nature (London).: 207:319–320
     [Google Scholar]
  22. Bond G., Hewitt E. J. 1961; Molybdenum and the fixation of nitrogen in Myrica root nodules. Nature (London): 190:1033–1034
     [Google Scholar]
  23. Bond G., Hewitt E. J. 1962; Cobalt and the fixation of nitrogen by root nodules of Alnus and Casuarina. Nature (London): 195:94–95
     [Google Scholar]
  24. Bond G., MacConnell J. T., McCallum A. H. 1956; The nitrogen-nutrition of Hippophaë rhamnoides L. Ann. Bot. 20:501–512
     [Google Scholar]
  25. Bond G., Montserrat P. 1958; Root nodules of Coriaria. Nature (London): 182:474–475
     [Google Scholar]
  26. Brunchorst J. 1886; Über einige Wurzelanschwellungen, besonders diejenigen von Alnus und den Elaeagnaceen. Unters. Botan. Inst. Tübingen. 2:151–177
     [Google Scholar]
  27. Burke W. D. 1963; Note on the occurrence of nodules in the New Zealand species of Coriaria. New Zealand: J. Bot. 1:377–380
     [Google Scholar]
  28. Chen P. L. 1964; The membrane system of Streptomyces cinnamonensis. Amer. J. Bot. 51:125–132
     [Google Scholar]
  29. Crocker R. L., Dickson B. A. 1957; Soil development on the recessional moraines of the Herbert and Mendenhall glaciers, South-Eastern Alaska. J. Ecol. 45:169–185
     [Google Scholar]
  30. Crocker R. L., Major J. 1955; Soil development in relation to vegetation and surface age at Glacier Bay, Alaska. J. Ecol. 43:427–448
     [Google Scholar]
  31. Davenport H. E. 1960; Haemoglobin in the root nodules of Casuarina cunninghamiana. Nature (London): 186:653–654
     [Google Scholar]
  32. Delwiche C. C., Zinke P. J., Johnson C. M. 1965; Nitrogen fixation by Ceanothus. Plant Physiol. (Lancaster): 40:1045–1047
     [Google Scholar]
  33. Edwards M. R., Stevens R. W. 1963; Fine structure of Listeria monocytogenes. J. Bacteriol. 86:414–428
     [Google Scholar]
  34. Egle K., Munding H. 1951; Uber den Gehalt an Häminkörpern in den Wurzelknöllchen von Nichtleguminosen. Naturwissenschaften. 38:548–549
     [Google Scholar]
  35. Fitz-James P. C. 1960; Participation of the cytoplasmic membrane in the growth and spore formation of Bacilli. J. Biophys. Biochem. Cytol. 8:507–528
     [Google Scholar]
  36. Fiuczek M. 1959; Fixation of atmospheric nitrogen in pure cultures of Streptomyces alni (in Polish). Acta microbiol. Polon. 8:283–287
     [Google Scholar]
  37. Gardner I. C. 1958; Nitrogen fixation in Elaeagnus root nodules. Nature (London): 181:717–718
     [Google Scholar]
  38. Gardner I. C., Bond G. 1957; Observations on the root nodules of Shepherdia. Can. J. Bot. 35:305–314
     [Google Scholar]
  39. Gardner I. C., Bond G. 1966; Host plant-endophyte adaptation in Myrica. Naturwissenschaften 53:161.
     [Google Scholar]
  40. Harris G. P., Morrison T. M. 1958; Fixation of nitrogen-15 by excised nodules of Coriaria arborea Lindsay. Nature (London): 182:1812.
     [Google Scholar]
  41. Hellmers H., Kelleher J. M. 1959; Ceanothus leucodermis and soil nitrogen in Southern California Mountains. Forest Sci. 5:275–278
     [Google Scholar]
  42. Hewitt E. J., Bond G. 1961; Molybdenum and the fixation of nitrogen in Casuarina and Alnus root nodules. Plant and Soil 14:159–175
     [Google Scholar]
  43. Hewitt E. J., Bond G. 1966; The cobalt requirement of non-legume root nodule plants. J. Exp. Bot. 1 7:480–491
     [Google Scholar]
  44. Kataoka T. 1930; On the significance of the root-nodules of Coriaria japonica, A. Gr. in the nitrogen nutrition of the plant. Jap.: J. Bot. 5:209–218
     [Google Scholar]
  45. Kliewer M., Evans H. J. 1962; B12 coenzyme content of the nodules from Legumes, alder and of Rhizobium meliloti. Nature (London): 194:108–109
     [Google Scholar]
  46. Krassil’nikov N. A. 1949; Guide to the Bacteria and Actinomycetes (in Russian). Akad. Nauk. SSSR. Moscow:830
     [Google Scholar]
  47. Krassil’nikov N. A. 1959; Diagnostik der Bakterien und Actinomyceten. Gustav Fischer Verlag, Jena 813 pp.
     [Google Scholar]
  48. Lawrence D. B., Schoenike R. E., Quispel A., Bond G. 1967; The role of Dryas drummondii in vegetation development following ice recession at Glacier Bay, Alaska, with special reference to its nitrogen fixation by root nodules. J. Ecol. 55:793–813
     [Google Scholar]
  49. Leaf G., Gardner I. C., Bond G. 1959; Observations on the composition and metabolism of the nitrogen-fixing root nodules of Myrica. Biochem. J. 72:662–667
     [Google Scholar]
  50. Lechevalier H., Lechevalier M. P., Becker B. 1966; Comparison of the chemical composition of cell-walls of Nocardiae with that of other aerobic Actinomycetes. Int. J. Syst. Bacteriol. 16:151–160
     [Google Scholar]
  51. Maire R., Tison A. 1909; La cytologie des Plasmodiophoracées et La classe des Phytomyxinae. . Ann. Mycol. 7:226–253
     [Google Scholar]
  52. Möller H. 1885; Plasmodiophora alni. Ber. Deut. bot. Ges. 3:102–105
     [Google Scholar]
  53. Möller H. 1890; Beitrag zur Kenntniss der Frankia subtilis Brunchorst. Ber. Deut. ot. Ges. 8 215–224
     [Google Scholar]
  54. Morrison T. M. 1961; Fixation of nitrogen-15 by excised nodules of Discaria toumatou. Nature (London): 189:945.
     [Google Scholar]
  55. Morrison T. M., Harris G. P. 1958; Root nodules in Discaria toumatou Raoul Choix. Nature (London): 182:1746–1747
     [Google Scholar]
  56. Peklo J. 1910; Die pflanzlichen Aktinomykosen. Zentralbl. Bakteriol. Parasitenk. (Abt. II) 27:451–579
     [Google Scholar]
  57. Plotho O. von. 1941; Die Synthese der Knöllchen an den Wurzelnder Erle. Arch. Mikrobiol. 12:1–18
     [Google Scholar]
  58. Pommer E. H. 1959; Über die Isolierung des Endophyten aus den Wurzelknöllchen von Alnus glutinosa Gaertn. und über erfolgreiche Re-Infektionsversuche. Ber. Deut. bot. Ges. 72:138–150
     [Google Scholar]
  59. Quick C. R. 1944; Effects of snowbrush on the growth of Sierra gooseberry. J. Forestry 42:827–832
     [Google Scholar]
  60. Roberg M. 1934; Uber den Erreger der Wurzelknöllchen von Alnus und den Elaeagnaceen Elaeagnus und Hippophaë. Jahrb. wiss. Bot. 79:472–492
     [Google Scholar]
  61. Rodríguez-Barrueco C. 1966; Fixation of nitrogen in root nodules of Alnus jorullensis H. B. and K. Phyton (Buenos Aires). 23:103–110
     [Google Scholar]
  62. Russell S. A., Evans H. J. 1966; The nitrogen-fixing capacity of Ceanothus velutinus. Forest Sci. 12:164–169
     [Google Scholar]
  63. Schaede R. 1933; Über die Symbionten in den Knöllchen der Erle und des Sanddornes und die cytologischen Verhältnisse in ihnen. Planta. 19:389–416
     [Google Scholar]
  64. Schoenike R. E. 1957-58; Influence of mountain avens (Dryas drummondii) on growth of young cottonwoods (Populus trichocarpa) at Glacier Bay, Alaska. . Proc. Minn. Acad. Sci. 25 and 26:55–58
     [Google Scholar]
  65. Schröter J. 1885 1889 In F. Cohn’s KryptogamenFlora von Schlesien. Bd. 3, Heft 3, Pilze, J. U. Kern’s Verlag, Breslau, 814
  66. Sloger C., Silver W. S. 1965 Note on nitrogen fixation by excised root nodules and nodular homogenates of Myrica cerifera L. In: Non-heme. Iron Proteins: Role in Energy Conversion, ed. A. San Pietro, Symp. Spons. by Charles F. Kettering Res. Lab., 473 pp., Publ. Antioch Press, Yellow Springs, Ohio, U. S., 299–302
  67. Tubeuf K. von. 1895; Pflanzenkrankheiten durch Kryptogame Parasiten verursacht. Verlag J. Springer, Berlin, 599 pp., loc. cit 117–118
     [Google Scholar]
  68. Uemura S. 1952a; Studies on the root nodules of alders (Alnus spp.). (IV). Experiment on the isolation of actinomycetes from alder nodules. Bull. Govt. Forest Exp. Sta. (Japan): 52:1–18
     [Google Scholar]
  69. Uemura S. 1952b; Studies on the root nodules of alders (Alnus spp.). (V). Some new isolation methods of Streptomyces from alder nodules. Bull. Govt. Forest Exp. Sta. (Japan): 57:209–226
     [Google Scholar]
  70. Uemura S. 1961; Studies on the Streptomyces isolated from alder root nodules (Alnus spp.). Sci. Rept. Agr. Forest Fisheries Res. Council (Japan): 7:1–90
     [Google Scholar]
  71. Vlamis J., Schultz A. M., Biswell H. H. 1964; Nitrogen fixation by root nodules of western mountain mahogany. J. Range Management 17:73–74
     [Google Scholar]
  72. Wagle R. F., Vlamis J. 1961; Nutrient deficiencies in two bitterbrush soils. Ecology 42:745–752
     [Google Scholar]
  73. Waksman S. A. 1961; The Actinomycetes, vol. 2, Classification, identification and descriptions of genera and species. . Publ. Williams and Wilkins Co. Baltimore, U. S.:363 pp.
     [Google Scholar]
  74. Weber C. 1884; Ueber denPilz der Wurzelanschwellungen von Juncus bufonius. Bot. Ztg. 42:369–379
     [Google Scholar]
  75. Webster S. R., Youngberg C. T., Wollum A. G. II 1967; Fixation of nitrogen by bitterbrush (Purshia tridentata (Pursh) D. C.). . Nature (London): 216:392–393
     [Google Scholar]
  76. Wollum A. G. II, Youngberg C. T., Gilmour C. M. 1966; Characterization of a Streptomyces sp. isolated from root nodules of Ceanothus velutinus Dougl. Proc. Soil Sci. Soc. Amer. 30:463–467
     [Google Scholar]
  77. Woronin M. 1866 Über die bei der Schwarzerle (Alnus glutinosa) und der gewöhlichen Garten-Lupine (Lupinus mutabilis) auftretenden Wurzelanschwellungen. Mém. Acad. Imp. Sci. St. Pétersbourg, Série 7, T. 10, No 6:1–13
  78. Yendo Y., Takase T. 1932; On the root nodule of Elaeagnus (in Japanese). . Bull. Seric. silk Indust., Uyeda (Japan): 4:114–134
     [Google Scholar]
  79. Ziegler H. 1959-60; Die Rhizothamnien bei Comptonia peregrina (L.) Coult. Mitt. Deut. Dendrol. Ges. 61:28–31
     [Google Scholar]
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Frankiaceae fam. nov. (Actinomycetales) with one new combination and six new species of the genus Frankia Brunchorst 1886, 174
Int J Syst Evol Microbiol 20, 201 (1970); https://doi.org/10.1099/00207713-20-2-201
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