Список литературы по Биотехнологии растений или все о кукурузе. Часть 2

На сайте bio-x.ru можно скачать книги по биотехнологии, в том числе и по биотехнологии растений, также кто занимается наукой — есть статьи по биотехнологии растений, если же и этого мало то ниже приведен список литературы по биотехнологии, которую можно изучить тем, кто работает в направлениях: биотехнология растений, биотехнология злаков, биотехнология кукурузы, эмбриогенез злаков, эмбриогенез растений, оплодотворение у растений, исскуственное оплодотворение у растений, эмбриокультура, культура гаплоидов, культивирование in vitro, сравнение условий развития растений in vivo и in vitro, другими словами все о кукурузе.

  1. GENERATIVE CELL SPECIFIC 1 is essential for angiosperm fertilization / T. Mori, H. Kuroiwa, T. Higashiyama, T. Kuroiwa // Nat. Cell Biol. – 2006. – V. 8. – P. 64–71.
  2.  Guitton E-A., Berger F. Loss of function of MULTICOPY SUPPRESSOR OF IRA 1 produces nonviable parthenogenetic embryos in Arabidopsis // Curr Biol. – 2005. – V. 15. – P. 750–754.
  3. Hauptli H., Williams S. Maize in vitro pollination with single pollen grains // Plant Science. – 1988. – V. 58. – P. 231 – 237.
  4.  He Y. Regeneration of fertile plants from isolated tobacco zygotes by in vitro culture / Y. He, M. Sun, H. Yang // Chinese Science Bulletin. – 2004. – V. 49 № 8. – P. 810–814.
  5.  Higashiyama T., Hamamura Y. Gametophytic pollen tube guidance // Sex Plant Reprod. – 2008. – V. 21. – P. 17–26.
  6.  Huang B. Q., Sheridan W. F.Female gametophyte developmentin maize: microtubular organization and embryo sac polarity// Plant Cell. – 1994. – V. 6. – P. 845–861.
  7.  Identification of major proteins in maize egg cells / T. Okamoto, K. Higuchi, T. Shinkawa, T. Isobe, H. Lorz, T. Koshiba, E. Kranz // Plant Cell Phys. – 2004. – V. 45. P. 1406–1412.
  8. In vitro pollination and fertilization in maize (Zea mays L.): technical procedures and prospects for the dissection of the double fertilization process / J. E .Faure, C. Digonnet, R. Mol et al. // Plant Sci. – 1994. – Vol. 104. – P. 1–10.
  9.  In vitro development of maize immature embryos: a tool for embryogenesis analysis / E. Matthys-Rochon, F. Piola, E. Deunff et al. // J. Exp. Bot. – 1998. – Vol. 49, N 322. – P. 839–845.
  10. Isolated maize zygotes mimic in vivo embryonic development and express microinjected genes when cultured  in vitro / N. Leduc, E. Matthys-Rochon, M. Rougier et al. // Developmental Biology. – 1996. – V. 177. – P. 190–203.
  11. Isolation and microinjection of active sperm nuclei into egg cells and central cells of isolated maize embryo sacs / E.Matthys-Rochon, R.Mol, P.Heizman, C.Dumas//Zygote. –1994. – V. 2. – P.29–35.
  12. Isolation ofgametes and central cells from Oryza sativa L. / T. Uchiumi, S. Komatsu, T. Koshiba, T. Okamoto // Sex Plant Reprod. – 2006. – V.19. – P. 37–45.
  13. Kohler C., Grossniklaus U. Epigenetic inheritance of expression states in plant development: the role of Polycomb group proteins // Curr Opin Cell Biol. – 2002. – V. 14. – P. 773–779.
  14.  Kranz E., Bautor J., Lörz H. In vitro fertilization of single isolated gametes of maize mediated by electrofusion // Sex. Plant Reprod. – 1991. – Vol.4. – P.12-16.
  15.  Kranz E., Lörz H. In vitro fertilization with isolated, single gametes results in zygotic embryogenesis and fertile maize plants // Plant Cell. – 1993. – V. 5. – P. 739–746.
  16. Kranz E., Scholten S. In vitro fertilization: analysis of early post-fertilization development using cytological and molecular techniques // Sex Plant Reprod. – 2008. – V. 21. – P. 67–77.
  17. Kumlehn J. Differentiation of isolated wheat zygotes into embryos and normal plants / J. Kumlehn, H. Lörz, E. Kranz // Planta. – 1998. – V. 205. – P. 327–333.
  18.  Late steps of egg cell differentiation are accelerated by pollination in Zea mays L. / R. Mol, K. Idzikowska, C. Dumas, E. Matthys-Rochon // Planta. – 2000. – V. 210. – P. 749– 757.
  19. Leduc N. Deleterious effect of minimal enzymatic treatments on the development of isolated maize embryo sacs in culture / N. Leduc, E. Matthys-Rochon // Sex Plant Reprod. – 1995. – Vol. 8, N 5. – P. 313–317.
  20.  Liu C. Auxin polar transport is essential for the establishment of bilateral symmetry during early plant embryogenesis / C. Liu, Z. Xu, N. Chua // The Plant Cell. – 1993. – V. 5. – P. 621–630.
  21. Lur H., Setter T. L. Role of auxin in maize endosperm development // Plant Physiology. – 1993. – V. 103. – P. 273–280.
  22. Marton M. L., Dresselhaus T. A comparison of early fertilization mechanisms in animals and flowering plants // Sex Plant Reprod. – 2008. – V. 21. – P.
  23. Meyer S.Heterosis associated gene expression in maize embryos 6 days after fertilization exhibits additive, dominant and overdominant pattern / S. Meyer, H. Pospisil, S. Scholten // Plant Molecular Biology. – 2007. – V. 63, N 3. – P. 381–391.
  24. Meyer S., Scholten S. Equivalent parental contribution to early plant zygotic development // Curr Biol. – 2007. – V. 17. – P. 1686 – 1691.
  25. Micropylarpollen tube guidance by egg apparatus 1 of maize / M. L. Marton, S. Cordts, J. Broadhvest, T. Dresselhaus // Science. – 2005. – V.307. – P. 573–576.
  26. Mol R. In vitro culture of fertilized embryo sacs of maize: zygotes and two-celled proembryos can developed into plants / R. Mol, E. Matthys-Rochon, C. Dumas // Planta. – 1993. – V. 189, N 2. – P. 213–217.
  27. Mol R. The kinetics of cytological events during double fertilization in Zea mays / R. Mol, E. Matthys-Rochon, C. Dumas // Plant J. – 1994. – V. 5. – P. 197–204.
  28. Mol R. Embryogenesis and plant regeneration from maize zygotes by in vitro culture of fertilized embryo sacs / R. Mol, E. Matthys-Rochon, C. Dumas // Plant Cell Reports. – 1995. – V. 14. – P. 743 – 774.
  29.  Nagata T., Lorz H., Widholm M. Molecular genetic approaches to maize improvement. – Springer-Verlag.: Berlin Heidelberg. – 2009. – 365 p.
  30. Novel ribosomal genes from maize are differentially expressed in the zygotic and somatic cell cycles / T. Dresselhaus, C. Hagel, H. Lörz, E. Kranz // Mol. Gen. Genet. – 1999. – V. 261. – P. 416–427.
  31. Pareddy D. R. Maturation of maize pollen in vitro / D. R. Pareddy, J. F. Petolino // Plant Cell Rep. – 1992. – V. 11. – P. 535-539.
  32. PCR-generated cDNA library of transition-stage maize embryos: cloning and expression of calmodulin genes during early embryogenesis / C. Breton, A. Chaboud, E. Matthys-Rochon et al. // Plant Mol. Biol. – 1995. – V. 27. – P. 105–113.
  33. Phillips R. L. Genetic instability of plant tissue culture: Breakdown of normal controls / R. L. Phillips, S. M. Kaeppler, P. Olhoft // Proc Natl Acad Sci USA. – 1994. – V. 91. – P. 5222–5226.
  34. Pien S., Grossniklaus U. Polycomb group and trithorax groupproteins in Arabidopsis // Biochim. Biophys. Acta. – 2007. – V. 1769. – P.375–382.
  35. Pollen tube attraction by the synergid cell / T. Higashiyama, S. Yabe, N. Sasaki, Y. Nishimura, S.-Y. Miyagishima, H. Kuroiwa, T. Kuroiwa // Science. – 2001. – V. 293. – P. 1480–1483.
  36. 36.           Positional cues for the starch/lipid balance in maize kernels and resource partitioning to the embryo / H. Rolletschek, K. Koch, U. Wobus, L. Borisjuk // The Plant Journal. – 2005. – V. 42. – P. 69 – 83.
  37.  Punwani J. A., Drews G. N.Development and function of the synergid cell // Sex Plant Reprod. – 2008. – V. 21. – P. 7–15.
  38. Raghavan V.Some reflections on double fertilization, from its discovery to the present // New phytologist. – 2003. – V. 159. – P. 565–583.
  39. Raghavan V. Double fertilization. Embryo and endosperm development in flowering plants. – Springer-Verlag.: Berlin Heidelberg. – 2009. – 229 p.
  40. Russell S. D. Fine structure of megagametophyte development in Zea mays // Can. J. Bot. – 1979. – V. 57. – P. 1093–1110.
  41. Singh M. B. Molecular repertoire of flowering plant male germ cells / M. B. Singh, P. L. Bhalla, S. D. Russell // Sex Plant Reprod. – 2008. – V. 21. – P. 27–36.
  42.  Singletary G.W., Below F.E. Nitrogen-induced changes in the growth and metabolism of developing maize kernels grown in vitro // Plant Physiol. – 1990. – V. 92. – P. 160 – 167.
  43. Songstad D. D. Advances in alternative DNA delivery techniques / D. D. Songstad, D. A. Somers, R. J. Griesbach // Plant Cell, Tissue and Organ Culture. – 1995. – V. 40. – P. 1–15.
  44. Souter M. Polarity and signaling in plant embryogenesis / M. Souter, K. Lindsey // J. Exp. Bot. – 2000. – V. 51, N 347. – P. 971–983.
  45. Sperm cellsof Zea mays have a complex complement of mRNAs/ M. L. Engel, A. Chaboud, C. Dumas, S. McCormick //Plant J. – 2003. – V.34. – P. 697–707.
  46. The Arabidopsis mutant feronia disrupts the female gametophytic controlof pollen tube reception / N. Huck, J. M. Moore, M. Federer, U. Grossniklaus // Development. – 2003. – V. 130. – P. 2149–2159.
  47. The peroxin loss-of-function mutation abstinence by mutual consent disrupts male-female gametophyte recognition / A. Boisson-Dernier, S. Frietsch, T.-H. Kim, M. B. Dizon, J. I. Schroeder // Curr. Biol. – 2008. – V. 18. – P. 63–68.
  48.  Tian H. Q., Yuan T., Russell S. D. Relationship between doublefertilization and the cell cycle in male and female gametes oftobacco // Sex Plant Reprod. – 2005. – V. 17. – P. 243–252.
  49.  Timingof the maternal-to-zygotic transition during early seed development in maize // D. Grimanelli, E. Perotti, J. Ramirez, O. Leblanc // Plant Cell. – 2005. – V. 17. – P. 1061–1072.
  50. Tobacco zygotic embryogenesis in vitro: the original cell wall of the zygote is essential for maintenance of cell polarity, the apical-basal axis and typical suspensor formation / Y.-C. He, Y.-Q. He, L.-H. Qu et al. // Plant Journal. – 2007. – Vol. 49, issue 3. – P. 515–527.
  51. Transformation of barley by microinjection into isolated zygote protoplast / P. B. Holm, O. Olsen, M. Schnorf et al. // Transgenic Research. – 2000. – V. 9. – P. 21–32.
  52.   Regeneration of fertile barley plants from mechanically isolated protoplasts of the fertilized egg cell / P. B. Holm, S. Knudsen, P. Mouritzen et al. // Plant Cell. – 1994. – V. 6. – P. 531–543.
  53. Regeneration of fertile plants from isolated zygotes of rice (Oryza sativa) / J. Zhang, W. H. Dong, A. Galli et al. // Plant Cell Reports. – 1999. – V. 19. – P. 128–132.
  54. Röber F. K. In vivo haploid induction in maize – performance of new inducers and significanceof doubled haploid lines in hybrid breeding / F. K. Röber, G. A. Gordillo, H. H. Geiger // Maydica. – 2005. – V. 50. – P.275–283.
  55. Sperm cells of Zea mays have a complex complement of mRNAs / M. L. Engel, A. Chaboud, C. Dumas, S. McCormick // Plant J. – 1995. – V. 34. – P. 697–707.
  56. Spielman M., Scott R. J. Polyspermy barriers in plants: frompreventing to promoting fertilization // Sex Plant Reprod. – 2008. – V. 21. – P. 53–65.
  57. Uchiumi T., Uemura I., Okamoto T. Establishment of an invitro fertilization system in rice (Oryza sativa L.) // Planta.– 2007. – V. 226. – P. 581–589.
  58. Van Lammeren A. A. M.Development morphology and cytology of the young maize embryo (Zea mays L.) // Acta Bot. Neerl. – 1986. – V. 35. – P. 169 – 188.
  59. Van Lammeren A. A.Observations on the structural development of immature maize embryos (Zea mays L.) during in vitro culture in presence or absence of 2,4-D /A. A. Van Lammeren// Acta Bot. Neerl. – 1988. – Vol. 37, N 1. – P. 49–61.
  60. Vasilyeva V. E., Batygina T. B. Cell cycle of zygote and possible types of karyogamy in flowering plants / Bull Polish Acad Sci, Biol Sci. – 1997. – V. 45. – P. 167–182.
  61. Video microscopic observation of living, isolated embryo sacs of Nicotiana and their component cells / B. Q.Huang, E. S.Pierson, S. D.Russel, A.Tiezzi, M.Cresti//Sex Plant Reprod. – 1992. – V.5. – P. 156–162.
  62. Wagner T. V. Observations on the isolated embryo sac of Zea mays L./T. V.Wagner  // Plant Sci. – 1989. – V. 59. – P. 127–132.
  63.  Weterings K., Russell S. D. Experimental analysis of the fertilization process // The Plant Cell. – 2004. – V. 16. – P. 107–118.
  64. Zea mays embryo sacs in culture. Plant regeneration from 1 day after pollination embryos / M. K. Campenot, G. Zhang, A. J. Culter, D. D. Cass // Amer. J. Bot. – 1992. – V. 79. – P. 1368–1373.
  65. Zhao J.Isolation and in vitro culture of zygotes and central cells of Oryza sativa L./ J.Zhao, C. Zhou, H. Y.Yang //Plant Cell Reports. –2000. – V.19. – P.321–326.
  66. Zhou C., Yang H. Y. Observation on enzymatically isolated living and fixed embryo sacs in several angiosperm species // Planta. – 1985. – V. 165. – P. 225–231.
  67. Zygoteimplantation to cultured ovules leads to direct embryogenesisand plant regeneration of wheat / J. Kumlehn, R. Brettschneider, H. Lorz, E. Kranz // Plant J. – 1997. – V. 12. – P. 1473–1479.

Автор статьи и фото в статье: Ляпустина Е.В.

 

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