Physiologia Plantarum

Cover image for Physiologia Plantarum

December 1993

Volume 89, Issue 4

Pages 673–874

  1. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  2. development growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  3. Ecophysiology stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Abscisic acid induced stress-like polyamine pattern in wheat seedlings, and its reversal by potassium ions (pages 687–692)

      Nicoletta Aurisano, Alcidc Bertani, Monica Mattana and Remo Reggiani

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05274.x

  4. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  5. Cell and tissue culture; biotechnology

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Polyamine metabolism and ethylene biosynthesis in normal and habituated sugar beet callus (pages 699–706)

      Stefania Biondi, Daniel Hagège, Paolo Rossini and Nello Bagni

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05276.x

  6. Development growth and differentialtion

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Changes in dormancy of Sisymbrium officinaleseeds do not depend on changes in respiratory activity (pages 707–718)

      M. P. M. Derkx, W. J. Smidt, L. H. W. Van der Plas and C. M. Karssen

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05277.x

  7. Gene regulation cell and molecular physiology

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Storage protein gene expression in zygotic and somatic embryos of interior spruce (pages 719–730)

      Barry S. Flinn, Dane R. Roberts, Craig H. Newton, David R. Cyr, Fiona B. Webster and Iain E. P. Taylor

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05278.x

  8. Aptech, transport and assimilation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  9. Ecophysiology, stress and adaption

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  10. ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  11. Photobiophysics and photosynthesis

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  12. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. The glassy state and accelerated aging of soybeans (pages 767–774)

      Wendell Q. Sun and A. Carl Leopold

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05283.x

  13. Uptake, transport and assimilation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  14. Biochemistry and metabolism

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  15. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Characterization of a rice mutant having an increased susceptibility to light stress at high temperature (pages 799–804)

      Takuichi Fuse, Koh Iba, Hikaru Satoh and Mitsuo Nishimura

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05287.x

  16. Biochemistry and metabolism

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Purification and characterization of a nitrilase from Brassica napus (pages 811–816)

      Lara A. Bestwick, Line M. Grønning, David C. James, Atle Bones and John T. Rossiter

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05289.x

  17. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  18. Biochemistry and metabolism

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Soluble and insoluble invertase activity in elongating Tulipa gesneriana flower stalks (pages 830–834)

      H. Lambrechts and C. Kollöffel

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05292.x

  19. Gene regulation, cell and molecular physiology

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  20. Uptake, transport and assimilation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Time-course of the phosphinothricin effect on gas exchange and nitrate reduction in Medicago sativa (pages 847–853)

      M. Lacuesta, B. González-Moro, C. González-Murua and A. Muñoz-Ruedu

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05295.x

  21. Photophysics and photosynthesis

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
  22. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Flavor volatilcs, sugars and color development in ripening in vitro-cultured tomato fruit and calyx (pages 861–867)

      Betty K. Ishida, Elizabeth A. Baldwin, Ron G. Buttery, Suzanne H. Chui and Louisa C. Ling

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05297.x

  23. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. development growth and differentiation
    4. Ecophysiology stress and adaptation
    5. Development, growth and differentiation
    6. Cell and tissue culture; biotechnology
    7. Development growth and differentialtion
    8. Gene regulation cell and molecular physiology
    9. Aptech, transport and assimilation
    10. Ecophysiology, stress and adaption
    11. ecophysiology, stress and adaptation
    12. Photobiophysics and photosynthesis
    13. Ecophysiology, stress and adaptation
    14. Uptake, transport and assimilation
    15. Biochemistry and metabolism
    16. Ecophysiology, stress and adaptation
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Biochemistry and metabolism
    20. Gene regulation, cell and molecular physiology
    21. Uptake, transport and assimilation
    22. Photophysics and photosynthesis
    23. Development, growth and differentiation
    24. Ecophysiology, stress and adaptation
    1. Genetic basis of sodium exclusion and sodium tolerance in yeast. A model for plants (pages 868–874)

      Rosario Haro, María A. Bañuelos, Francisco J. Quintero, Francisco Rubio and Alonso Rodríguez-Navarro

      Article first published online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb05298.x

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