BGN 14: Masterlist of barley genes

BARLEY GENETICS NEWSLETTER, VOL. 14, VII. LIST OF BARLEY GENETIC STOCKS
Søgaard et al., pp. 140-172

VII. 2. Masterlist of barley genes.

Bodil Søgaard, R. A. Nilan (l) and D. von Wettstein, Department of Physiology, Carlsberg Laboratory, Gamle Carlsberg Vej 10, KD-2500 Copenhagen Valby, Denmark, Telex: 15434, Telephone (O1) 22 IO 22 ext. 5236

(1) Program in Genetics and Cell Biology, Washington State University, Pullman, Washington 99164, U. S. A.

The masterlist of barley genes is stored on discs for the word processor (microcomputer) at the Carlsberg Laboratory and is reprinted in every issue of the Barley Genetics Newsletter with the additions and amendments which have been incorporated during the year. This year we have extended the gene list with addresses of laboratories from which seeds can be obtained. Please let us know if you have seeds for some of the gene loci mentioned in the list.

This must be considered as a "working" list of genes designed to 1) present all of the genes and gene symbols ever published, 2) avoid duplications between previous and future symbols, and, with the assistance of all barley geneticists, 3) develop a true and useful list of all previous symbols free from duplications and outdated synonyms, 4) determine availability of seed stocks and 5) make additions in an intelligent manner. For all barley workers it provides a means of quickly determining the genes and alleles of their interest and acquiring seed and new symbols.

It was agreed at the 4th International Barley Genetics Symposium that all symbols assigned to new genes will follow the rules of gene nomenclature adopted at the 3rd Symposium and most recently presented in BGN 11:1-16, 1981. The symbols in the Master List are altered with the consent of the International Committee on Barley Gene Nomenclature.

We appreciate if you let us know mistakes or changes and amendments required. For a new symbol to be incorporated in the masterlist we suggest that you contact Dr. Bodil Søgaard at the above address by mail, telex or telephone. She acts as clearing station to avoid duplication of symbols and she is also willing to coordinate registration of allele designations for individual genes.

Ramage has suggested in BGN vol. 13 p. 115 seg 6 to be synonym with se 6. Gene seg 6 has been located on chromosome 3 BGN vol. 1 p. 193. Therefore we have retained seg 6 and se 6 as separate genes in the master list.

We are developing computer programs to store and retrieve all allele designations at the individual loci. It is intended to provide on request computer printouts for the allele collections including information on availability of seeds. For this purpose we are grateful to obtain lists on such allelic series you might have available.

The genes for reaction to Erysiphe graminis hordei (powdery mildew) are described briefly in the masterlist and a detailed list is given in the supplementary list No. 1.

References for master list of barley:

1. Albrechtsen, R.S., 1957. Hood elevation and awn length inheritance studies in barley. M.Sc. Thesis, Utah State Univ. Pp. 74 typed.

2. Andersen, W.R., 1958. Linkage relationships of located and unlocated genetic testers in certain normal and translocation stocks of barley. M.Sc. Thesis, Utah State Univ. Pp. 36 typed.

3. Andrews, J.E., 1954. Inheritance of reaction to loose smut and to stem rust in barley. Dissertation Abstr. 14:899.

4. Andrews, J.E., 1956. Inheritance of reaction to loose smut, Ustilago nuda, and to stem rust, Puccinia graminis tritici, in barley. Can. J. Agr. Sci. 36:356-370.

5. Arny, D.C., t951. Inheritance of resistance to spot blotch in barley seedlings. Phytopathology 41:691-698.

6. Atkins, R.E., and K.J. Frey, 1957. Inheritance of awn barbing in two barley crosses. Agron. J. 49:558-560.

7. Bal, B.S., C.A. Suneson and R.T. Ramage, 1959. Genetic shift during 30 generations of natural selection in barley. Agron. J. 51:555-557.

8. Bandlow, G., 1959. Mutationsversuche an Rulturpflanzen. X. Uber Pleiotropie und eine zweifache Mutante bei Wintergeste. ZUchter 29:123-132.

9. Bryner, C.S., 1957. Inheritance of scald resistance in barley. Ph.D. Thesis, Pennsylvania State Univ. Pp. 89 typedJ

10. Cauderon, A., 1951. Etude de l'heredite de trois couples de caracteres morphologiques chez l'orge cultivee. Ann. Amelior. Plantes 1:9-19.

11. Caudwell, A., 1956. Possibilites d'obtention d'orges a 6 rangs a gros grains lateraux, a partir de croisements d'orges Hexastichum x Distichum. Ann. Amelior. Plantes 6:191-216

12. Dahms, R.G., T.H. Johnston, A.M. Schlehuber and E.A. Wood Jr., 1955. Reaction of small-grain varieties and hybrids to greenbug attack. Oklahoma Agr. Expt. Sta. Tech. Bull. No. T-55. Pp. 61.

13. Das, R., 1957. Partial sterility Ln a line of X-ray irradiated barley. Indian J. Genet. Plant Breeding 17:58-64

14. Day, A.D. and A.D. Dickson, 1957. Association between nitrogen percentage and certain morphological characteristics in barley. Agron. J. 49:244-245.

15. Day, A.D., E.E. Down and R.J. Frey, 1955. Association between diastatic power and certain visible characteristics and heritability of diastatic power in barley, Agron. J. 47:163-165.

16. Doll, H., 1980. A nearly non-functional mutant allele of the storage protein locus Hor 2 in barley. Hereditas 93:217-222.

17. Doll, H., and A.H.D. Brown, 1979. Hordein variation in wild (Hordeum spontaneum) and cultivated (H. vulgare) barley. Can. J. Genet. Cytol. 21:391-404.

18. Doney, D.L., 1961. An inheritance and linkage study of barley with special emphasis on purple pigmentation of the auricle. M. Sc. Thesis, Utah State Univ. Pp. 52 typed.

19. Dyck, P.L., 1960. Genetics of resistance in barley to several physiologic races of scald, Rhynchosporium secalis. Ph. D. Thesis, Univ. Calif. Pp. 70 typed.

20. Dyck, P.L., and C.W. Schaller, 1961a. Inheritance of resistance in barley to several physiologic races of the scald fungus. Can. J. Genet. Cytol. 3:153-164.

21. Dyck, P.L., and C.W. Schaller, 1961b. Association of two genes for scald resistance with a specific barley chromosome. Can. J. Genet. Cytol. 3:165-169.

22. Enns, H., 1961. Inheritance and linkage studies in barley using chromosomal interchange and marker stocks. Ph. D. Thesis, Univ. Saskatchewan. Pp. 70 typed.

23. Enns, H., and E.N. Larter, 1962. Linkage relations of ds: A gene governing chromosome behaviour in barley and Lts effect on genetic recombination. Can. J. Genet. Cytol. 4:263-266.

24. Eslick, R.F., and E.A. Hockett, 1976. A second locus for high lysine barley. Barley genetics III:634

25. Everson, E.H., and C.W. Schaller, 1955. the genetics of yield differences associated with awn barbing in the barley hybrid (Lion x Atlas10) x Atlas. Agron. J. 47:276-280

26. Finch, R.A., and E. Simpson, 1978- New colors and complementary color genes in barley. Z. Pflanzenzuchtg. 81:40-53

27. Frey, K.J., 1954. Inheritance and heritability of heading date in barley. Agron. J. 46: 226-228

28. Gardenhire, J.H., and H.L. Chada, 1961- Inheritance of greenbug resistance in barley. Crop Sci. 1:349-352.

29. Gill, T.S., 1951. Inheritance of 16 barley characters and their linkage relationships. M.Sc. Thesis, Utah State Univ. Pp. 51 typed.

30. Gustafsson, A., A. Hagberg, U. Lundqvist, and G. Persson, 1969. A proposed system of symbols for the collection of barley mutants at Svalov. Hereditas 62:409-414

31. Hagberg, A., 1959. Barley mutations used as a model for the application of cytogenetics and other sciences in plant breeding. Pp. 235-248. Eucarpia. Rept. 2nd Congr. European Assoc. Research Plant Breeding. Koln

32. Hagberg, A., 1960. Cytogenetic analysis of induced mutations. Genetica Agraria 12:319-336.

33. Hagemann, R., and F. Scholz, 1962. Ein Fall geninduzierter Mutationen des Plasmotypus bei Gerste. Zuchter 32:50-59.

34. Hanson, W.D., 1952. An interpretation of the observed amount of recombination in interchante heterozygotes of barley. Genetics 37:90 100.

35. Hanson, W.D., and H.H. Kramer, 1950. The determination of linkage intensities from F2 and F3 genetic data involving chromosomal interchanges in barley. Genetics 35:559-569.

36. Haus, T.E., 1957. Inheritance of rachis internode length and an abnormal rachis type in barley. Dissertation Abst. 17:207-208.

37. Heiner, R.E., 1958. Linkage and inheritance studies in barley (Hordeum). M.Sc. Thesis, Utah State Univ. Pp. 58 typed.

38. Hiura, U., 1960. Studies on the disease-resistance in barley IV. Genetics of the resistance to powdery mildew. Ber. Ohara inst. landwirtsch. Biol. 11:235-300.

39. Hvid, S., and G. Nielsen, 1977. Esterase isoenzyme variant in barley. Hereditas 87:155-162

40. Imam, A.G.I., 1959. Inheritance and linkage studies in selected crosses of cultivated barley (Hordeum w lgare L.). M.Sc. Thesis, Utah State Univ. Pp. 70 typed.

41. Isom, W.H., 1951. Inheritance and llnkage relationships in twenty-one barley characters. M.Sc. Thesis, Utah State Unlv. Pp. 50 typed

42. Jain, K.B.L., 1961. Genetic studies in barley III. Linkage relations of some plant characters. Indian J. Genet. Plant Breeding 21:23-33.

43. Jende-Strid, B., and B. Lindberg M011er, 1981. Analysis of proanthocyanidins in wild-type and mutant barley (Hordeum vulgare L.). Carlsberg Res. Commun. 46:53-64

44. Jenkins, C.J., 1950. Inheritance of certain characters and the linkage relationships of factors on chromosome IV in barley- M.Sc. Thesis, Utah State Univ. Pp. 41 typed.

45. Kahler, A.L., and R.W. Allard, 1981. Worldwide patterns of genetic variation among four esterase loci in barley. (Hordeum vulgare L.). Theor. appl. genet. 59:101-111

46. Kasha, K.J., 1958. A study of linkage and translocations in barley. M.Sc. Thesis, Univ Alberta. Pp. 89 typed.

47. Kasha, K.J., and G.W.R. Walker, 1960. Several recent barley mutants and their linkages. Can. J. Genet. Cytol. 2:397-415.

48. Kaufmann, M.L., and L.H. Shebeski, 1954. The inheritance of rachis strength in barley. Can. J. Agr. Sci. 34:152-155

49. Konzak, C.F., 1952. Inheritance of resistance in barley to physiologic races of loose smut, Ustilago nuda (Jens.) Rostr. Ph.D. Thesis, Cornell Univ. Pp. 162 typed. ,

50. Konzak, C.F., 1953. The third outer glume character in barley. J. Heredity 44:103-104.

51. Kramer, H.H., 1954. Recombination in selfed chromosome interchange heterozygotes. Ch. 40. Pp. 511-522. Statistics and Mathematics in Biology. Iowa State College Press. Ames, Iowa.

52. Kramer, H.H., and B.A.S. Blander, 1961. Orienting linkage maps on the chromosomes of barley. Crop Sci. 1:339-342.

53. Kramer, H.H., Rosemarie Veyl, and W.D. Hanson, 1954. The association of two genetic linkage groups in barley with one chromosome. Genetics 39:159-168.

54. Kump, M., 1947. (The inheritance of stalk length in barley. (Hordeum sativum Jess.)) Poljoprivredna Znanstvena Smotra, Zagreb 10-11:36-48. (Serbo-Croatian with Eng. summ.).

55. Kump, M., 1950a. (Inhertance of the vascular bundles in the stem of hulled resp. naked two-rowed winter barley.) Poljoprivredna Znanstvena Smotra, Zagreb 12:117-139 (Serbo-Croatian with Eng. summ.).

56. Kump, M., 1950b. (The inheritance of the number of ear nodes in connection with the hulled and naked kernel types of two-rowed winter barley (H. distichum Jess.) and the yield of grain.) Poltoprivredna Znanstvena Smotra, Zagreb 12:141-162 (Serbo-Croatian with Eng. summ.).

57. Kump, M., 1952. (The inheritance of period of vegetation in the cross of winter naked barley with winter hulled borley.) Poltoprivredna Znanstvena Smotra, Zagreb 13:141-154 (Serbo-Croatian with Eng. summ.).

58. LeBaron, F.C., 1959. An inheritance and linkage study of 19 factor pairs in barley. M.Sc. Thesis, Utah State Univ. Pp- 56 typed.

59. Leonard, W.H., H.O. Mann, and L. Powers, t957. Partitioning method of genetic analysis applied to plant-height inheritance in barley. Colorado Agr. Expt. Sta- ~ech. Bull. No. 60. Pp. 24.

60. Litzenberger, S.C., and J.M. Green, 1951. Inheritance of awns in barley. Agron. J. 43:117-123.

61. Livers, R.W., 1957. Linkage studies with chromosomal translocation stocks in barley. Ph.D. Thesis, Univ. Minnesota. Pp. 65 typed.

62. Lundqvist, Udda, and D. von Wettstein, 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362.

63. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein, 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens II. Hereditas 59:473-504.

64. Mann, H.O., 1953. Height inheritance in barley. M.Sc. Thesis, Colorado State Univ. Pp. 103 typed.

65. Mode, C.J., and C.W. Schaller, 1958. Two additional factors for host resistance to net blotch in barley. Agron. J. 50:15-18.

66. Moh, C.C., and R.A. Nilan, 1953. Multi-ovary in barley. A mutant induced by atomic bomb irradiation.J. Heredity 44:183-184.

67. Moh, C.C., and R.A. Nilan, 1954. "Short" chromosome-A mutant in barley induced by atomic bomb irradiation. Cytologia (Tokyo) 19:48-53.

68. Mohajir, A.-R., 1953. The inheritance of non-parasitic leaf spots of barley. Proc. 5th Pakistan Sci. Conf. Lahore: Part III (Abstr.): 92-93 PBA 26(167). 1956.

69. Mohajir, A.-R., D.C. Arny, and H.L.Shands, 1952. Studies on the inheritance of loose smut resistance in spring barley. Phytopathology 42:367-373.

70. Moseman, J.G., and C.W. Schaller, 1960. Genetics of the allelic series at the M1a locus in barley and cultures of Erysiphe graminis f. sp. hordei that differentiate these alleles. Phytopathology 50:736-741.

71. Moseman, J.G., and C.W. Schaller, 1962. Interaction of genes conditioning reaction of Algerian barley and pathogenicity of Erysiphe graminis f. sp. hordei. phytopathology 52:529-533.

72. Murty, G.S., and K.B.L. Jain, 1959. Genetic studies in barley. I. Inheritance Of pigmentation in various plant parts. J. Indian Botan. Soc. 38:561-574.

73. Necas, J., 1961a. (The inheritance of seed size in barley. The hereditary basis of the character.) Rostlinna vyroba 34:1607-1620. (Czechoslovakian with German summ.).

74. Necas, J., 1961b. (The inheritance of seed size in barley. II. The relationship to some other characters and a biometrical and genetical analysis.) Rostlinna vyroba 34:1621-1634. (Czechoslovakian with German summ.).

75. Nilan, R.A., 1964. The cytology and genetics of barley 1951-1962. Monographic supplement No. 3 vol. 32, No. 1 p. 93-176. Washington State University.

76. Nielsen, O.F., 1979. Macromolecular physiology of plastids. XII. Tigrina mutants in barley: genetic, spectroscopic and structural characterization. Hereditas 76:269-304.

77. Nilan, R.A., and C.C. Moh, 1955. A mutant line of barley induced by atomic-bomb radiation. The effect of partial ovule sterility on the inheritance of cream seedlings. J. Heredity 46:49-52.

78. Notzel, H., 1952. Genetische Untersuchungen an rontgeninduzierten Gerstenmutanten. tdhn-Arch. 66:72-132.

79. Patterson, F.L., 1950. Adult plant and seedling reactions of barley varieties and hybrids to 3 races of Puccinia graminis tritici. Ph.D. Thesis, Univ. Wisconsin. Pp. 84 typed.

80. Patterson, F.L., and R.G. Shands, 1957. Independent inheritance of four characters in barley. Agron. J. 49:218-219

81. Persson, G., 1969. An attempt to find suitable genetic markers for dense ear loci in barley I. Hereditas 62:25-96.

82. Persson, G., 1969. An attempt to find suitable genetic markers for dense ear loci in barley II. Hereditas 63:1-28.

83. Ramage, R. T., 1955. The trisomics of barley. Ph.D. Thesis, Univ. Minnesota. Pp. 90 typed.

84. Ramage, R.T., C.R. Burnham, and A. Hagberg, 1961. A summary of translocation studies in barley. Crop Sci. 1:277-279.

85. Ramage, R.T., and A.D. Day, 1960. A 10:3:3 ratio for leaf width in barley. Agron. J. 52:241.

86. Ramage, R.T., and C.A. Suneson, 1958. A gene marker for the g chromosome of barley. Agron. J. 50:114.

87. Ramage, R.T., and C.A. Suneson, 1961. Translocation-gene linkages on barley chromosome 7.Crop Sci. 1:319-320.

88. Rasmusson, D.C., 1956. The inheritance of certain morphological characters of the barley spike. M. Sc. Thesis, Utah State Univ. Pp. 39 typed.

89. Rasmusson, D.C., and W.E. Rogers, 1963. Inheritance of resistance to Septoria in barley. Crop Sci. 3:161-162

90. Rasmusson, D.C., and C.W. Schaller, 1959. The inheritance of resistance in barley to the yellow-dwarf virus. Agron. J. 51:661-664.

91. Robertson, D.W., 1957. Summary of linkage studies on barley 1953-1956. Pp. 37-46. Third 8arley Improvement Conference Abstracts.

92. Robertson, D.W., 1963- Summary of linkage studies on barley, 1959-1963. Pp. 29. Fifth Barley Improvement Conference Abstracts.

93. Robertson, D.W., G.A. Wiebe, and R.G. Shands, 1955. A summary of linkage studies in barley: Suppl. II, 1947-1953. Agron. J. 47:418-425.

94. Sawicki, J., 1955. (The phenol reaction of grain used for identifying varieties of naked barley.) Acta Agrobotan. 3:167-177. tPolish with Eng. summ.).

95. Schaller, C.W., 1955. Inheritance of resistance to net blotch of barley. Phytopathology 45:174-176.

96. Schaller, C.W., and F.N. Briggs, 1955. Inheritance of resistance to mildew, Erysiphe graminis hordei, in the barley variety, Black Russian. Genetics 40:421-428.

97. Scholz, F., 1956. Mutationsversuche an Kulturpflanzen. V. Die Vererbung zweier sich variabel Manifestierender Ubergangsmerkmale von bespelzter zu nackter Gerste bei r8ntgeninduzierten Mutanten. Kulturpflanze 4:228-246.

98. Schooler, A.B., 1953. Study of the possible location of the ligule -less (auricle-less) gene in linkage group I in cultivated barley (Hordeum vulgare L.) M.Sc. Thesis, Colorado State Univ. Pp. 50 typed.

99. Schulte, H., 1955. Untersuchungen zur Genetik und zur physiologischen Fanktion der Granne bei der Gerste. Z. Pflanzenziicht. 34:157-196.

100.Shands, R.G., 1956. Inheritance of covered smut resistance in two barley crosses. Agron. J. 4S:81-86.

101.Shewry, P.R., H.M. Pratt, A.J. Faulks, S. Parmer, and B.J. Mifling, 1979. The storage protein (hordein) polypeptide pattern of barley (Hordeum vulgare L.) in relation to vare identification and desease resistant. J. Nutr. Inst. Agric. Bot. 15:34-50.

102. Simpson, D.J., and D. von Wettstein, 1980. Macromolecular physiology of plastids XIV. Viridis mutants in barley: genetic, fluroscopic and ultrastructural characterization. Carlsberg Res. Commun. 45:283-314.

103. Sisler, W.W., and R.G. Timian, 1956. Inheritance of the barley stripe mosaic resistance of Modjo (C.I. 3221) and C.I. 3212-1. Plant Disease Reporter 40:1106-1108.

104. Skoropad, W.P., and L.P.V. Johnson, 1952. Inheritance of resistance to Ustilago nuda in barley. Can. J. Botany 30:525-536.

105. Smillie, R.M., K.W. Henningsen, J.M. Bain, C. Critchley, T. Pester, and D. von Wettstein, 1978. Mutants of barley heat-sensitive for chloroplast development. Carlsberg Res. Commun. 43:351-364.

106. Smith, E.W., 1953. A linkage study of chromosome IV in barley. M.Sc. Thesis, Utah State Univ. Pp. 48 typed.

107. Smith, L., 1951. Cytology and genetics of barley. Botan. Rev. 17:1-51; 133-202; 285-355.

108. Solari, R.M., and E.A. Favret, 1970. Polymorphism in endosperm proteins of barley and its genetic control. Barley Genetics II p. 23-31.

109. Sozinov, A.A., V.P. Netsvetaev, E.M. Grigorian, and J.S. Obraztsov, 1979. Mapping of the Hrd loci in barley (Hordeum vulgare}. Soviet Genetics 14:1137-1147. (Translation of Genetica 14:1610-1619 (1978)).

110. Starling, T.M., 1955/1956. Sources, inheritance and linkage relation ships of resistance to race 4 of leaf rust (Puccinia hordei Otth.) race 9 of powdery mildew (Erysiphe graminls hordei E. Marchal.) and certain agronomic characters in barley. Iowa State Coll. J. Sci. 30:438-439.

111. Suneson, C.A., 1951. Male sterile facilitated synthetic hybrid barley. Agron. J. 43:234-236.

112. Swomley, B.A., 1957. Genetic linkage analysis involving chromosomal interchanges in Hordeum vulgare. M.Sc. Thesis, Purdue Univ. Pp. 47 typed.

113. Tabata, M., 1959. Studies of a gametophyte factor in barley. M.Sc. Thesis, Univ. Minnesota. Pp. 48 typed.

114. Tabata, M., 1961. Studies of a gametophyte factor in barley. Japan. J. Genet. 36:157-167.

115. Takahashi, R., 1951. Studies on the classification and the geographical distribution of the Japanese barley varieties. II. Correlative inheritance of some quantitative characters with the ear types. Ber. Ohara inst. landwirtsch. Porsch. 9:382-398.

116. Takahashi, R., and J. Hayashi, 1956. (On the four genes in an unknown linkage group in barley.) Japan. J. Genet. 31:312 (Abstr.) (Japanese) Biblio. Agr. 21(62651). 1957.

117. Takahashi, R., and J. Hayashi, 1959a. (Linkage study of the complementary genes for brittle rachis in barley. Preliminary note.) Nogaku Kenkyu 46:113-119. (Japanese with Eng. summ.).

118. Takahashi, R., and J. Hayashi, 1959b. Linkage study of albino lemma character in barley. Ber. Ohara inst. landwirtsch. Biol. 11:132-140.

119. Takahashi, R., J. Hayashi, and S. Yasuda, 1957. (Four genes in linkage, which are inherited independently of the markers in the known seven linkage groups in barley.) Nogaku Xenkyu 45:1-10. (Japanese).

120. Takahashi, R., A. Mochizuki, and J. Hayashi, 1955 (Heritable mixoploidy in barley.) Nogaku Kenkyu 43:51-62. (Japanese with Eng. summ.).

121. Takahashi, R., 1nd J. Yamamota, 1951a. Studies on the classification and the geographical distribution of the Japanese barley varieties. III. On the linkage relation and the origin of the "uzu" or semibrachytic character in barley. Ber. Ohara inst. landwirtsch. Forsch. 9:399-410.

122. Takahashi, R., and J. Yamamoto, 1951b. (Studies on the classification and geographical distribution of barley varieties. XV. The type of disarticulation of the spikelet and the phylogeny of cultivated barley.) Nogaku Kenkyu 39:81-90. (Japanese).

123. Takahashi, R., and J. Yamamoto, l951c. (Physiology and genetics of ear emergence in barley and wheat, I.) Agron. Research 40:13-24. (Japanese).

124. Takahashi, R., J. Yamamoto, and N. Maruhashi, 1950. (Studies on classification and geographical distribution of barley varieties. XIV. The linkage relations of the semibrachytic gene and its geographical distribution.) Nogaku Renkyu 39:57-62. (Japanese).

125. Takahashi, R., J. Yamamoto, and S. Yasuda, 1953. (Inheritance of semisterility due to defects of stigmatic structure in barley.) Nogaku Kenkyu 41:69-78. (Japanese).

126. Takahashi, R., J. Yamamoto, S. Yasuda, and Y. Itano, 1953. Inheritance and linkage studies in barley. Ber. Ohara inst. landwirtsch. Forsch. 10:29-52.

127. Takahashi, R., and S. Yasuda, 1956. Genetic studies of spring and winter habit of growth in barley. Ber. Ohara inst. landwirtsch. Biol. 10:245-308

128. Takahashi, R., S. Yasuda, J. Yamamoto, and I. Shiojiri, 1953. (Physiology and genetics of ear emergence in barley and wheat. II. Genic analysis of growth-habit in two spring barleys.) Nogaku Kenkyu 40:157-168. (Japanese)
129. Thieret, J.W., 1951. A genetic study of complementary genes for purple lemma, palea, and pericarp in barley (Hordeum vulgare L.). M.Sc. Thesis, Utah State Univ. Pp. 37 typed.

130. Turcotte, E.L., 1957. The use of translocations in analysing the inheritance of brittle rachis and dehiscent awns in barley. M.Sc. Thesis, Univ. Minnesota. Pp. 50 typed.

131. Walker, G.W.R., K. Kasha, and R.A. Miller, 1958. Recombination studies in barley. Proc. Genet. Soc. Can. 3:41-43.

132. Walker, G.W.R., and R.A. Miller, 1958. Linkage and cytological studies of barley. Proc. 10th Intern. Congr. Genet. 2:305-306 (Abstr.).

133. Wells, S.A., 1958. Inheritance of reaction to Ustilago hordei (Pers.) Lagerh. in cultivated barley. Can. J. Plant Sci. 38:45-60.

134. Wexelsen, H., 1955/1956. Quantitative inheritance in barley. Meld. Norg. Landbruksh0gskole 35:171-194.

135. Wexelsen, H. 1962. Quantitative inheritance in barley. Association of quantitative and qualitative characters. Meld. Norg. Landbrukshogskole 41:1-29

136. Wheatley, G.W., 1955. Linkage relationships in group IV in barley. M.Sc. Thesis, Utah State Univ. Pp. 28 typed.

137. Wiebe, G.A., 1960. A proposal for hybrid barley. Agron. J. 52:181-182.

138. Woodward, R.W., 1957. Linkages in barley. Agron. J. 49:28-32.

139. Woodward, R.W., and D.C. Rasmusson, 1957. Hood and awn development in barley determined by two gene pairs. Agron. J. 49:92-94.

140. Woodward, R.W., and J.W. Thieret, 1953. A genetic study of complementary genes for purple lemma, palea, and pericarp in barley (Hordeum vulgare L.). Agron. J. 45:182-185.

141. Machold, O., A. Meister, H. Sagromsky, G. H0yer-Hansen and D. von Wettstein, 1977. Composition of photosynthetic membranes of wild-type barley and chlorophyll b-less mutants. Photosynthetica 11, 200-206.

142. Powling, A., A.K.M.R. Islam and X.W. Shepherd, 1981. Isozymes in wheatbarley hybrid derivative lines. Biochemical Genet. 19: 237-254.

143. Gustafsson, A., and U. Lundqvist, 1980. Hexastichon and intermedium mutants in barley. Hereditas 92:229-236

144. Hagberg, A., and G. Hagberg, 1980. High frequency of spontaneous haploids in the progeny of induced mutation in barley. Hereditas 93:341-343

145. Shewry, P.R., and B.J. Miflin, 1982. Genes for the storage proteins of barley. Qualitas Plantarum (Plant foods for human Nutrition) (in press).

146. Islam, A.K.M.R., and K.W. Shepherd, 1981. Wheat-barley addition lines, their use in genetic and evalutionary studies in barley. Barley Genetics IV.

147. Blake, T.K., S.E. Ullrich, R.A. Nilan, 1982. Mapping of the Hor-3 locus encoding D hordein in barley. Theor. Appl. Genet. 63: 367-371

148. Poulsen, C., 1983. The barley chloroplast genome: physical map and transcriptional activity in vivo. Carlsberg Res. Commun. 48: 1.

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BGN 14 toc
BGN Main Index