Physiologia Plantarum

Cover image for Physiologia Plantarum

April 1995

Volume 93, Issue 3

Pages 411–575

  1. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Autoregulation of soybean nodulation: Delayed inoculation increases nodule number (pages 411–420)

      Perigio B. Jr Francisco and James E. Harper

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06837.x

  2. Biochemistry and metabolism

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Causes and location of non-specific effects of SHAM on O2 uptake by wheat roots (pages 427–434)

      I. J. Bingham and E. A. Stevenson

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06839.x

  3. Gene regulation, cell and molecular physiotogy

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Analysis of gene regulation in growing pollen tubes of angiosperm and gymnosperm species using microprojectile bombardment (pages 445–450)

      Inger Martinussen, Neil Bate, Koen Weterings, Olavi Junttila and David Twell

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06841.x

  4. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Seed coat structure and oxygen availability control lowtemperature germination of melon (Cucumis melo) seeds (pages 451–456)

      Menahem Edelstein, Francoise Corbineau, Jaime Kigel and Haim Nerson

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06842.x

  5. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  6. Cell and tissue culture; biotechnology

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Characteristics of Citrus cell cultures during undifferentiated growth on sucrose and somatic embryogenesis on galactose (pages 464–470)

      Cécile Cabasson, Patrick Ollitrault, Francois-Xavier Côte, Nicole Michaux-Ferriére, Dominique Dambier, Régine Dalnic and Claude Teisson

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06844.x

  7. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  8. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  9. Gene regulation, cell and molecular physiotogy

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Control of osmotin gene expression by ABA and osmotic stress in vegetative tissues of wild-type and ABA-deficient mutants of tomato (pages 498–504)

      Stefania Grillo, Antonella Leone, Yi Xu, Marina Tucci, Raffaella Francione, Paul M. Hasegawa, Luigi Monti and Ray A. Bressan

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06849.x

  10. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  11. Development, growth and differentiation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  12. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  13. Biochemistry and metabolism

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  14. Gene regulation, cell and molecular physiotogy

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. The influence of cytokinins in nitrate regulation of nitrate reductase activity and expression in barley (pages 533–539)

      Mariann E. Samuelson, Wilbur H. Campbell and Carl-Magnus Larsson

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06854.x

  15. Photobiophysics and photosynthesis

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  16. Biochemistry and metabolism

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Isolation of β-galactosidase fractions from Japanese pear: Activity against native cell wall polysaccharides (pages 545–550)

      Yasuhiro Kitagawa, Yoshinori Kanayama and Shohei Yamaki

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06856.x

  17. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
  18. Uptake, transport and assimilation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Assimilate partitioning in Pachyrhizus erosus tubers under short days (pages 558–562)

      Victor Vaillant and Lucienne Desfontaines

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06858.x

  19. Ecophysiology, stress and adaptation

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication
    1. Effect of cold exposure on cortical microtubules of rye (Secale cereale) as observed by immunocytochemistry (pages 563–571)

      Kaarina Pihakaski-Maunsbach and Tuula Puhakainen

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb06859.x

  20. Rapid Communication

    1. Top of page
    2. Development, growth and differentiation
    3. Biochemistry and metabolism
    4. Gene regulation, cell and molecular physiotogy
    5. Ecophysiology, stress and adaptation
    6. Development, growth and differentiation
    7. Cell and tissue culture; biotechnology
    8. Development, growth and differentiation
    9. Ecophysiology, stress and adaptation
    10. Gene regulation, cell and molecular physiotogy
    11. Ecophysiology, stress and adaptation
    12. Development, growth and differentiation
    13. Ecophysiology, stress and adaptation
    14. Biochemistry and metabolism
    15. Gene regulation, cell and molecular physiotogy
    16. Photobiophysics and photosynthesis
    17. Biochemistry and metabolism
    18. Ecophysiology, stress and adaptation
    19. Uptake, transport and assimilation
    20. Ecophysiology, stress and adaptation
    21. Rapid Communication

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