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Recombination in Sexually and Asexually Propagated Higher Plants

  • Wolfgang Friedt
  • Gerhard Wenzel
Part of the Progress in Botany/Fortschritte der Botanik book series (BOTANY, volume 47)

Abstract

The exchange of genetic material (DNA) between homologous chromosomes can either be reciprocal (recombination) or nonreciprocal (gene conversion). Both phenomena are essential for the creation of new genetic variability (LAMB 1984) and they seem to be initiated by identical, complex molecular processes. These involve the action of various enzymes in the following model of genetic recombination: (1) Bringing together of homologous DNA-double helices (conjugation). (2) Induction of single-strand breaks (nicks) in one or both of the helices; this involves specific nicking enzymes. (3) Separation of the two sister strands (unwinding). (4) Guiding of the free end to its homolog, de-naturation and unwinding of the latter. (5) Promotion of full integration of the new strand into the receptor helix. Termination of the processes at this stage results in nonreciprocal “recombination” (gene conversion). The process can also proceed (6), e.g., by the action of recombination enzymes associated with ellipsoidal recombination nodules at the exchange site (CARPENTER, 1984; FINCHAM, 1984). In this case, the replaced strand itself can become integrated into the former donor helix by the same procedure as described before. This reciprocal exchange, which was shown in E. coli to be mediated by RecA protein (HOWARD-FLANDERS et al., 1984), would lead to recombination intermediates via strand isomerization (7), i.e., symmetrical cross-strand structures referred to as HOLLIDAY junctions (HOLLIDAY MODEL of recombination, HOLLIDAY, 1964). This structure is untied by the action of endonucle-ases (8), as recently demonstrated with phage DNA (HSU and LANDY, 1984; CRAIG, 1984) (Fig. 1).

Keywords

Transposable Element Chromosome Pairing Gene Conversion Somaclonal Variation Potato Leaf Roll Virus 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Aniol, A., Gustafson, J.P.: Can. J. Genet. Cytol. 26, 701–705 (1984).Google Scholar
  2. Arus, P., Orton, T.J.: J. Hered. 75, 11–14 (1984).Google Scholar
  3. Austin, S., Baer, M.A., Helgeson, J.P.: Plant Sci. Lett., in press (1985).Google Scholar
  4. Aviv, D., Arzee-Gonen, P., Bleichman, S., Galun, E.: Mol. Gen. Genet. 196, 244–253 (1984).Google Scholar
  5. Barker, R.F., Thompson, D.V., Talbot, D.R., Swanson, J., Bennetzen, J.L.: Nucleic Acids Res. 12, 5955–5964 (1984).PubMedGoogle Scholar
  6. Bevan, M.: Nucleic Acids Res. 12, 8711–8712 (1984).PubMedGoogle Scholar
  7. Binding, H., Nehls, R., Schieder, O., Sopory, S.K., Wenzel, G.: Physiol. Plant. 43, 52–54 (1978).Google Scholar
  8. Blake, T.K., Ullrich, S.E., Nilan, R.A.: Theor. Appl. Genet. 62, 367–371 (1982).Google Scholar
  9. Bothmer, R. Von, Flink, J., Jacobsen, N., Kotimäki, M., Landström, T.: Hereditas 99, 219–244 (1983).Google Scholar
  10. Brisson, N., Paszkowski, J., Penswick, J.R., Gronenborn, B., Potrykus, I., Hohn, T.: Nature 310, 511–514 (1984).Google Scholar
  11. Brown, A.H.D., Munday, J., 14–18 in: Proc. Austr. Plant Breed Conf., Adelaide, C.J. Driscoll (ed.). Glen Osmond: University of Adelaide 1983.Google Scholar
  12. Cappadocia, M., Cheng, D.S.K., Ludlum-Simonette, R.: Theor. Appl. Genet. 69, 139–143 (1984).Google Scholar
  13. Carpenter, A.T.C.: Genetics 92, 511–541 (1979).PubMedGoogle Scholar
  14. Carpenter, A.T.C.: 23–29 in: Recombination at the DNA Level. Symp. Quant. Biol. XLIX. Cold Spring Harbor: Cold Spring Harbor Laboratory 1984.Google Scholar
  15. Chapman, C.G.D.: Heredity 52, 317–322 (1984).Google Scholar
  16. Chilton, M.D., 3–12 in: Proc. British Crop Protec. Conf. Croydon: BCPC Publications 1984.Google Scholar
  17. Choo, T.M.: Can. J. Genet. Cytol. 25, 425–429 (1983).Google Scholar
  18. Craig, N.C.: Nature 311, 706–707 (1984).PubMedGoogle Scholar
  19. Cseplö, A., Nagy, F., Maliga, P.: Mol. Gen. Genet. 198, 7–11 (1984).Google Scholar
  20. De Block, M., Herrera-Estrella, L., Van Montagu, M., Schell, J., Zambryski, P.: EMBO J. 3, 1681–1689 (1984).PubMedGoogle Scholar
  21. Dellaporta, S.L., Ckomet, P.S., Mottinger, J.P., Wood, J.A., Yu, S.-M., Hicks, J.B., 321–328 in: Recombination at the DNA Levels. Symp. Quant. Biol. XLIX. Cold Spring Harbor: Cold Spring Harbor Laboratory 1984.Google Scholar
  22. Dennis, E.S., Gerlach, W.L., Pryor, A.J., Bennetzen, J.L., Inglis, A., Llewellyn, D., Sachs, M.M., Ferl, R.J., Peacock, W.J.: Nucleic Acids Res. 12, 3983–4000 (1984).PubMedGoogle Scholar
  23. Dennis, E.S., Sachs, M.M., Gerlach, W.L., Finnegan, E.J., Peacock, W.J.: Nucleic Acids Res. 13, 727–743 (1985).PubMedGoogle Scholar
  24. Devine, T.E.: J. Hered. 75, 359–361 (1984).Google Scholar
  25. Devine, T.E., Palmer, R.D., Buzzell, R.I.: J. Hered. 74, 457–460 (1983).Google Scholar
  26. Döring, H.-P., Tillmann, E., Starlinger, P.: Nature 307, 127–130 (1984a).PubMedGoogle Scholar
  27. Döring, H.-P., Freeling, M., Hake, S., Johns, M.A., Kunze, R., Merckelbach, A., Salamini, F., Starlinger, P.: Mol. Gen. Genet. 193, 199–204 (1984b).Google Scholar
  28. Domoney, C., Casey, R.: Nucleic Acids Res. 13., 687–699 (1985).PubMedGoogle Scholar
  29. Drögemüller, E.-M., Lelley, T.: Theor. Appl. Genet. 67, 457–461 (1984).Google Scholar
  30. Dvorak, J., Chen, K.-C: Genetics 106, 325–333 (1984).PubMedGoogle Scholar
  31. Fedoroff, N., Mauvais, J., Chaleff, D.: J. Mol. Appl. Genet. 2, 11–29 (1983).PubMedGoogle Scholar
  32. Ferrer, E., Gonzalez, J.M., Jouve, N.: Theor. Appl. Genet. 69, 193–198 (1984).Google Scholar
  33. Fincham, J.R.S.: Nature 312, 107–108 (1984).Google Scholar
  34. Fischer, R.L., Goldberg, R.B.: Cell 29, 651–660 (1982).PubMedGoogle Scholar
  35. Forster, A.C. McInnes, J.L., Skingle, D.C., Symons, R.H.: Nucleic Acids Res. 13, 745–761 (1985).PubMedGoogle Scholar
  36. Fraley, R.T., Horsch, R.B., Matzke, A., Chilton, M.D., Chilton, W.S., Sanders, P.R.: Plant Mol. Biol. 3, 371–378 (1984).Google Scholar
  37. Fra-Mon, P., Salcedo, G., Aragoncillo, C., Garcia-Olmedo, F.: Theor. Appl. Genet. 69, 167–172 (1984).Google Scholar
  38. Freeling, M.: Annu. Rev. Plant. Physiol. 33, 277–298 (1984).Google Scholar
  39. Friedt, W.: Habil. Schrift, Univ. Bayreuth, 77 pp. (1984).Google Scholar
  40. Friedt, W., Foroughi-Wehr, B., Wenzel, G., 313 in: Efficiency in Plant Breeding, W. Lange, A.C. Zeven, N.G. Hogenboom (eds.) Wageningen: Pudoc 1984.Google Scholar
  41. Friedt, W., Lind, V., Walther, H., Foroughi-Wehr, B., Züchner, S., Wenzel, G.: Z. Pflanzen-züchtg. 91, 89–103 (1983).Google Scholar
  42. Gale, M.D., Scott, P.R., Law, C.N., Ainsworth, C.C., Hollins, T.W., Worland, A.J.: Heredity. 52, 431–435 (1984).Google Scholar
  43. Galili, G., Feldman, M.: Mol. Gen. Genet. 193, 293–298 (1984).Google Scholar
  44. Galili, G., Feldman, M.: Theor. Appl. Genet. 69, 583–589 (1985).Google Scholar
  45. Gerats, A.G., Vlaming, P. De, Maizonnier, D.: Mol. Gen. Genet. 198, 57–61 (1984).Google Scholar
  46. Gill, B.S., Kam-Morgan, L.N.W., Shepard, J.F.: J. Hered. 76, 17–20 (1985).Google Scholar
  47. Gleba, Y., Kolesnik, N.N., Meshkene, I.V., Cherep, N.N., Parokonny, A.S.: Theor. Appl. Genet. 69, 121–128 (1984).Google Scholar
  48. Gleddie, S., Fassuliotis, G., Keller, W.A., Setterfield, G.: Z. Pflanzenzücht. 94, 353–355 (1985).Google Scholar
  49. Gupta, P.K., Priyadarshan, P.M.: Annu. Rev. Genet. 1981, 255–345 (1981).Google Scholar
  50. Gupta, P.P., Schieder, O., Gupta, M.: Mol. Gen. Genet. 197, 30–35 (1984).Google Scholar
  51. Hain, R., Steinbiss, H.-H., Schell, J.: Plant Cell Rep. 3, 60–64 (1984).Google Scholar
  52. Hain, R., Stable, P., Czernilofsky, A.P., Steinbiss, H.H., Herrera-Estrella, L., Schell, J.: Mol. Gen. Genet. in press (1985).Google Scholar
  53. Hang, A., Franckowiak, J.D.: J. Hered. 75, 235–236 (1984).Google Scholar
  54. Harberd, N.P., Bartels, D., Thompson, R.D.: Mol. Gen. Genet. 198, 234–242 (1985).Google Scholar
  55. Hartings, H., Wijsman, H.J.W.: Theor. Appl. Genet. 69, 349–351 (1985).Google Scholar
  56. Hasenkampf, C.A.: Chromosoma 90, 275–284 (1984).Google Scholar
  57. Hernalsteens, J.P., Thia-Toong, L., Schell, J., Van Montagu, M.: EMBO J. 3, 3039–3041 (1984).PubMedGoogle Scholar
  58. Herrera-Estrella, L., Van Den Broeck, G., Maenhaut, R., Van Montagu, M., Schell, J., Timko, M., Cashmore, A.: Nature 310, 115–120 (1984).PubMedGoogle Scholar
  59. Hoekema, A., Hirsch, P.R., Hooykaas, P.J.J., Schilperoort, R.A.: Nature 303, 179–180 (1983).Google Scholar
  60. Hoekema, A., Roelvink, P.W., Hooykaas, P.J.J., Schilperoort, R.A.: EMBO J. 3, 2485–2490 (1984).PubMedGoogle Scholar
  61. Holliday, R.: Genet. Res. 5, 282–304 (1964).Google Scholar
  62. Hooykaas-Van Slogteren, G.M.S., Hoykaas, P.J.J., Schilperoort, R.A.: Nature 311, 763–764 (1984).Google Scholar
  63. Hotta, Y., Stern, H.: Chromosoma 89, 127–137 (1984).Google Scholar
  64. Hotta, Y., Tabata, S., Stern, H.: Chromosoma 90, 243–253 (1984).PubMedGoogle Scholar
  65. Howard-Flanders, P., West, S.C, Stasiak, A.: Nature 309, 215–220 (1984).PubMedGoogle Scholar
  66. Hsu, P.L., Landy, A.; Nature 311, 721 (1984).PubMedGoogle Scholar
  67. Islam, A.K.M.R., Shepherd, K.W., 729–739 in: Barley Genetics Iv, Proc. 4th Int. Barley Genet. Symp. Edinburgh: Edinburgh University Press 1981.Google Scholar
  68. Jackson, E.A., Holt, L.M., Payne, P.I.: Theor. Appl. Genet. 66, 29–37 (1983).Google Scholar
  69. Jackson, J.A., Fink, G.R.: Nature 292, 306–311 (1981).PubMedGoogle Scholar
  70. Jensen, J.: Barley Genet. Newsl. 14, 62–65 (1984).Google Scholar
  71. Jinks, J.L., Pooni, H.S.: Heredity 52, 299–308 (1984).Google Scholar
  72. Kaltsikes, P.J., Gustafson, J.P., Lukaszewski, A.J.: Can. J. Genet. Cytol. 26, 105–110 (1984).Google Scholar
  73. Karp, A., Maddock, S.E.: Theor. Appl. Genet. 67, 249–255 (1984).Google Scholar
  74. Kermicle, J.L.: Genetics 107, 489–500 (1984).PubMedGoogle Scholar
  75. Kudirka, D.T., Schaeffer, G.W., Baenziger, P.S.: Can. J. Genet. Cytol. 25, 513–517 (1983).Google Scholar
  76. Kumar, P.S., Subrahmanyam, N.C., Faris, D.G.: Can. J. Genet. Cytol. 26, 499–505 (1984).Google Scholar
  77. Lafiandra, D., Kasarda, D.D., Morris, R.: Theor. Appl. Genet. 68, 531–539 (1984).Google Scholar
  78. Lamb, B.C.: Heredity 53, 113–138 (1984).PubMedGoogle Scholar
  79. Larkin, P.J., Ryan, S.A., Brettell, R.I.S., Scowcroft, W.R.: Theor. Appl. Genet. 67, 443–455 (1984).Google Scholar
  80. Lawrence, G.J., Shepherd, K.W.: Theor. Appl. Genet. 59, 25–31 (1981).Google Scholar
  81. Ledeboer, A.M., Verrips, C.T., Dekker, B.M.M.: Gene 30, 23–32 (1984).PubMedGoogle Scholar
  82. Leggett, J.M.: Can. J. Genet. Cytol. 26, 641–645 (1984).Google Scholar
  83. Lelley, T.: Vortr. Pflanzenzücht. 8, in press (1985).Google Scholar
  84. Lörz, H., Baker, B., Schell, J.: Mol. Gen. Genet., in press (1985).Google Scholar
  85. Lycett, G.W., Croy, R.R.D., Shirsat, A.H., Boulter, D.: Nucleic Acids Res. 12, 4493–4506 (1984).PubMedGoogle Scholar
  86. Maguire, M.P.: Chromosoma 91, 101–107 (1985).PubMedGoogle Scholar
  87. Mahmoud, S.H., Gatehouse, J.A., Boulter, D.: Theor. Appl. Genet. 68, 559–566 (1984).Google Scholar
  88. Manueldis, L., Langer-Safer, P.R., Ward, D.C.: J. Cell Biol. 95, 619–625 (1982).Google Scholar
  89. Marx, J.L.: Science 224, 1415–1416 (1984).PubMedGoogle Scholar
  90. Matzke, M.A., Susani, M., Binns, A.N., Lewis, E.D., Rubenstein, I., Matzke, A.J.M.: EMBO J. 3, 1525–1531 (1984).PubMedGoogle Scholar
  91. McIntosh, R.A.: Wheat Inf. Serv. 51, 33–34 (1980).Google Scholar
  92. Miller, T.E.: Can. J. Genet. Cytol. 26, 578–589 (1984).Google Scholar
  93. Mottinger, J.P., Dellaporta, S.L., Keller, P.B.: Genetics 106, 751–767 (1984a).PubMedGoogle Scholar
  94. Mottinger, J.P., Johns, M.A., Freeling, M.: Mol. Gen. Genet. 195, 367–369 (1984b).PubMedGoogle Scholar
  95. Müller-Neumann, M., Yoder, J.I., Starlinger, P.: Mol. Gen. Genet. 198, 19–24 (1984).Google Scholar
  96. Mujeeb-Kazi, A.: Theor. Appl. Genet. 69, 475–479 (1985).Google Scholar
  97. Munoz, CE., Lyrene, P.M.: Theor. Appl. Genet. 69, 591–596 (1985).Google Scholar
  98. Murai, N., Sutton, D.W., Murray, M.G., Slightom, J.L., Merlo, D.J., Reichert, N.A., Sengupta-Gopalan, C, Stock, CA., Barker, R.F., Kemp, J.D., Hall, T.C: Science 222, 476–482 (1983).PubMedGoogle Scholar
  99. Murata, M., Orton, T.J.: Can. J. Genet. Cytol. 26 395–400 (1984).Google Scholar
  100. Murty, U.R., Kirti, P.B., Bharathi, M., Rao, N.G.P.: Z. Pflanzenzücht. 92, 30–39 (1984).Google Scholar
  101. Natarajan, A.T., Obe, G.: Chromosoma 90, 120–127 (1984).PubMedGoogle Scholar
  102. Negassa, M.: Hereditas 102, 123–138 (1985).Google Scholar
  103. Nelson, O.E., Klein, A.S.: Genetics 106, 769–779 (1984).PubMedGoogle Scholar
  104. Newell, C.A., Rhoads, M.L., Bidney, D.L.: Can. J. Genet. Cytol. 26, 752–761 (1984).Google Scholar
  105. Odell, J.T., Nagy, F., Chua, N.-H.: Nature 313, 810–812 (1985).PubMedGoogle Scholar
  106. Orellana, J., Giraldez, R.: Heredity 51, 383–394 (1983).Google Scholar
  107. Orton, T.J., Browers, M.A.: Theor. Appl. Genet. 69, 637–643 (1985).Google Scholar
  108. Paszkowski, J., Schillito, R.D., Saul, M., Mandak, V., Hohn, T., Hohn, B., Potrykus, I.: EMBO J. 3, 2717–2722 (1984).PubMedGoogle Scholar
  109. Payne, P.I., Holt, L.M., Lawrence, G.J., Law, C.N.: Qual. Plant. Plant Foods Hum. Nutr. 31, 229–241 (1982).Google Scholar
  110. Payne, P.I., Holt, L.M., Hutchinson, J., Bennett, M.D.: Theor. Appl. Genet. 68, 327–334 (1984).Google Scholar
  111. Pelletier, G., Chupeau, Y.: Physiol. Veg. 22, 377–399 (1984).Google Scholar
  112. Pelletier, G., Primard, C, Vedel, F., Chetrit, P., Remy, R., Rousselle, P., Renard, M.: Mol. Gen. Genet. 191, 244–250 (1983).Google Scholar
  113. Pental, D., Hamill, J.D., Cocking, E.C.: Heredity 53, 79–83 (1984).Google Scholar
  114. Pohler, W., Clauss, E.: Arch. Züchtungsforsch. 14, 243–251 (1984a).Google Scholar
  115. Pohler, W., Clauss, E.: Arch. Züchtungsforsch. 14, 253–264 (1984b).Google Scholar
  116. Pohlman, R.F., Fedoroff, N., Messing, J.: Cell 37 635–643 (1984).PubMedGoogle Scholar
  117. Potrykus, I.: Vortr. Pflanzenzücht. 9, in press (1985).Google Scholar
  118. Potrykus, I., Saul, M.W., Petruska, J., Paszkowski, J., Schillito, R.D.: Mol. Gen. Genet., in press (1985a).Google Scholar
  119. Potrykus, I., Paszkowski, J., Saul, M.W., Petruska, J., Shillito, R.D.: Mol. Gen. Genet., in press (1985b).Google Scholar
  120. Powell, W., Hayter, A.M., Wood, W., Dunwell, J.M., Huang, B.: Heredity 52, 19–23 (1984).Google Scholar
  121. Prat, S., Cortadas, J., Puigdomenech, P., Palau, J.: Nucleic Acids Res. 13, 1493–1504 (1985).PubMedGoogle Scholar
  122. Reddy, L.V., Peterson, P.A.: Mol. Gen. Genet. 194, 124–137 (1984).Google Scholar
  123. Roberts, J.J., Gallun, R.L.: J. Hered. 75, 147–148 (1984).Google Scholar
  124. Schaeffer, G.W., Sharpe, F.T., Cregan, P.B.: Theor. Appl. Genet. 67, 383–389 (1984).Google Scholar
  125. Schell, J., Herrera-Estrella, L., Zambryski, P., De Block, M., Joos, H., Willmitzer, K., Eckes, P., Rosahl, S., Van Montagu, M., 73–90 in: The Impace of Gene Transfer Techniques in Eucaryotic Cell Biology, J. Schell, P. Starlinger (eds.). Berlin, Heidelberg, New York, Tokyo: Springer 1984.Google Scholar
  126. Schwartz, D.: Mol. Gen. Genet. 196, 81–84 (1984).Google Scholar
  127. Shepard, J.F., Totten, R.E.: Plant Physiol. 60, 313–316 (1977).PubMedGoogle Scholar
  128. Shepherd, N.S., Scharz-Sommer, Z., Blumberg Vel Spalve, J., Gupta, J., Wienand, U., Saedler, H.: Nature 307, 185–187 (1984).PubMedGoogle Scholar
  129. Shewry, P.R., Finch, R.A., Parmar, S., Franklin, J., Miflin, B.J.: Heredity 50, 179–189 (1983).Google Scholar
  130. Shewry, P.R., Miflin, B.J., Kasarda, D.D.: Philos. Trans. R. Soc. Lond., Ser. B 304, 297–308 (1984a).Google Scholar
  131. Shewry, P.R., Bradberry, D., Franklin, J., White, R.P.: Theor. Appl. Genet. 69, 63–69 (1984b).Google Scholar
  132. Sibi, M., Biglary, M., Demarly, Y.: Theor. Appl. Genet. 68, 317–321 (1984).Google Scholar
  133. Singh, N.K., Shepherd, K.W.: Genet. Res. 44, 117–123 (1984).Google Scholar
  134. Snape, J.W., Wright, A.J., Simpson, E.: Theor. Appl. Genet. 67, 143–148 (1984).Google Scholar
  135. Soave, C., Salamini, F.: Qualit. Plant. 31, 191–203 (1982).Google Scholar
  136. Sogard, B., Nilan, R.A., Von Wettstein, D.: Barley Genet. Newsl. 14, 140–172 (1984).Google Scholar
  137. Sprague, G.F., Mckinney, H.H., Greeley, L.: Science 141, 1052–1053 (1963).PubMedGoogle Scholar
  138. Spyropoulos, B., Moens, P.B.: Can. J. Genet. Cytol. 26, 776–781 (1984).PubMedGoogle Scholar
  139. Sree Ramulu, K., Dijkhuis, P., Roest, S., Bokelmann, G.S., De Groot, B.: Plant Sci. Lett. 36, 79–86 (1984a).Google Scholar
  140. Sree Ramulu, K., Dijkuis, P., Roest, S.: Theor. Appl. Genet. 68, 515–519 (1984b).Google Scholar
  141. Stack, S.M.: J. Cell Sci. 71, 159–176 (1984).PubMedGoogle Scholar
  142. Stack, S.M., Soulliere, D.L.: Chromosoma 90, 72–83 (1984).Google Scholar
  143. Steinbiss, H.-H., Stabel, P., Toepfer, R., Hirtz, R.D., Schell, J.: Experimental Manipulation of Ovule Tissue: Their Manipulation, Tissue Culture and Physiology. Proc. Wye Int. Symp. London: Wye College 1984 (in press).Google Scholar
  144. Swedlund, B., Vasil, I.K.: Theor. Appl. Genet. 69, 575–581 (1985).Google Scholar
  145. Talbot, D.R., Adang, M.J., Slightom, J.L., Hall, T.C.: Mol. Gen. Genet. 198, 42–49 (1984).Google Scholar
  146. Tanksley, S.D.: Plant Mol. Biol. Reporter 1, 3–8 (1983).Google Scholar
  147. Tanksley, S.D.: Chromosoma 89, 352–360 (1984).Google Scholar
  148. Tanksley, S.D., Orton, T.J. (eds.): Isozymes in Plant Genetics and Breeding. Amsterdam: Elsevier 1983.Google Scholar
  149. Thomas, H.M., Pickering, R.A.: Theor. Appl. Genet. 69, 519–522 (1985).Google Scholar
  150. Thomas, W.T.B., Powell, W., Wood, W.: Heredity 53, 177–183 (1984).Google Scholar
  151. Tsuchiya, T.: Barley Genet. Newsl. 14, 81–84 (1984).Google Scholar
  152. Turelli, M., Clark, A.G., Spofford, J.B.: Heredity 52, 145–147 (1984).PubMedGoogle Scholar
  153. Varghese, J.P., Lelley, T., Röbbelen, G.: Z. Pflanzenzücht. 92, 102–116 (1984).Google Scholar
  154. Vries, J.N. De: Chromosoma 89, 24–32 (1984).Google Scholar
  155. Weeden, N.F., Marx, G.A.: J. Hered. 75, 365–370 (1984).Google Scholar
  156. Wenzel, G.: Progr Bot. 45 174–188 (1983).Google Scholar
  157. Wenzel, G., Foroughi-Wehr, B., Friedt, W., Köhler, F., Oo, T.: Hereditas, Suppl. 3, 15–25 (1985).Google Scholar
  158. Williams, W.M., Satyanarayana, K.V., Kermicle, J.L.: Genetics 107, 477–488 (1984).PubMedGoogle Scholar
  159. Zambryski, P., Joos, H., Genetello, C, Leemans, J., Van Montagu, M, Schell J: EMBO J. 2, 2143–2150 (1983).PubMedGoogle Scholar
  160. Zenkteler, M., Nitsche, W.: Theor. Appl. Genet. 68, 311–315 (1984).Google Scholar
  161. Zhao, Y.H., Kimber, G.: Genetics 106, 509–515 (1984).PubMedGoogle Scholar

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© Springer-Verlag Berlin Heidelberg 1985

Authors and Affiliations

  • Wolfgang Friedt
    • 1
  • Gerhard Wenzel
    • 2
  1. 1.Lehrstuhl für Pflanzenzüchtung, Institut für Pflanzenbau und Pf1anzenzüchtungJustus-Liebig-UniversitätGießenGermany
  2. 2.Biologische Bundesanstalt für Land-und ForstwirtschaftInstitut für ResistenzgenetikGrünbachGermany

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