Physiologia Plantarum

Cover image for Physiologia Plantarum

September 1994

Volume 92, Issue 1

Pages 1–196

  1. Biochemistry and metabolism

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. High CO2 levels reduce ethylene production in kiwifruit (pages 1–8)

      Christophe Rothan and Jacques Nicolas

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06647.x

    2. Starch metabolism in poplar wood ray cells during spring mobilization and summer deposition (pages 9–16)

      Wolfgang Witt and Jörg J. Sauter

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06648.x

  2. Development, growth and differentiation

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Responses of seed of Stylosanthes humilis to germination regulators (pages 17–20)

      Henrique D. Vieira and Raimundo S. Barros

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06649.x

  3. Gene regulation, cell and molecular physiotogy

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Adaptation versus shock response to polyethylene glycol-induced low water potential in cultured potato cells (pages 21–30)

      Antonella Leone, Antonello Costa, Marina Tucci and Stefania Grillo

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06650.x

  4. Uptake, transport and assimilation

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. The epidermis of barley leaves is a dynamic intermediary storage compartment of carbohydrates, amino acids and nitrate (pages 31–36)

      Karl-Josef Dietz, Beate Hollenbach and Elke Hellwege

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06651.x

  5. Cell and tissue culture; biotechnology

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Transformation of Brassica napus by using the aadA gene as selectable marker and inheritance studies of the marker genes (pages 37–46)

      Mia Schröder, Christina Dixelius, Lennart Råhlén and Kristina Glimelius

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06652.x

  6. Biochemistry and metabolism

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Gibberellic acid decreases anthocyanin accumulation in wild carrot cell suspension cultures but does not alter 3′-nucleotidase activity (pages 47–52)

      Avihai Ilan, Karen P. Zanewich, Stewart B. Rood and Donald K. Dougall

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06653.x

  7. Cell and tissue culture; biotechnology

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Changes in polyamine synthesis during anther development and pollen germination in tobacco (Nicotiana tabacum) (pages 61–68)

      Fatiha Chibi, Angel Jesús Matilla, Trinidad Angosto, Dolores Garrido and C. H. Bornman

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06655.x

  8. Gene regulation, cell and molecular physiotogy

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

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

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Endogenous hormone levels during direct somatic embryogenesis in Medicago falcata (pages 85–89)

      Aneta Ivanova, Margarita Velcheva, Plamen Denchev, Atanas Atanassov and Henri A. Van Onckelen

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06658.x

  11. Ecophysiology, stress and adaptation

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Secretion of basic and acidic chitinases from salt-adapted and -unadapted winged bean cells (pages 90–96)

      Muneharu Esaka, Akie Toyota and Hiromi Hayakawa

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06659.x

  12. Biochemistry and metabolism

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Effect of partial deglycosylation on catalytic characteristics and stability of an avocado peroxidase (pages 97–101)

      Carolina Sánchez-Romero, María L. García-Gómez, Fernando Pliego-Alfaro and Antonio Heredia

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06660.x

  13. Ecophysiology, stress and adaptation

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Growth rate, plant development and water relations of the ABA-deficient tomato mutant sitiens (pages 102–108)

      Oscar W. Nagel, Henk Konings and Hans Lambers

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06661.x

  14. Development, growth and differentiation

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Characterisation of chloroplast heat shock proteins in young leaves of C4 monocotyledons (pages 118–130)

      Adrian K. Clarke and Christa Critchley

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06663.x

  15. Development, growth and differentiation

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Ageing of tomato seeds involves glutathione oxidation (pages 131–139)

      C. H. Ric De Vos, H. Lieke Kraak and Raoul J. Bino

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06664.x

  16. Ecophysiology, stress and adaptation

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

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

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Protochlorophyllide forms in non-greening epicotyls of dark-grown pea (Pisum sativum) (pages 160–170)

      Béla Böddi, Birgitta McEwen, Margareta Ryberg and Christer Sundqvist

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06667.x

  19. Uptake, transport and assimilation

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

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Involvement of protein phosphorylation in the sensitivity of photosystem II to strong illumination (pages 181–187)

      Maria T. Giardi, Josef Komenda and Jiri Masojidek

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06669.x

  21. Minireview

    1. Top of page
    2. Biochemistry and metabolism
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiotogy
    5. Uptake, transport and assimilation
    6. Cell and tissue culture; biotechnology
    7. Biochemistry and metabolism
    8. Cell and tissue culture; biotechnology
    9. Gene regulation, cell and molecular physiotogy
    10. Biochemistry and metabolism
    11. Development, growth and differentiation
    12. Ecophysiology, stress and adaptation
    13. Biochemistry and metabolism
    14. Ecophysiology, stress and adaptation
    15. Development, growth and differentiation
    16. Development, growth and differentiation
    17. Ecophysiology, stress and adaptation
    18. Biochemistry and metabolism
    19. Photobiophysics and photosynthesis
    20. Uptake, transport and assimilation
    21. Photobiophysics and photosynthesis
    22. Minireview
    1. Photoinhibition of photosynthesis in vivo: The role of protein turnover in photosystem II (pages 188–196)

      Christa Critchley and A. Wendy Russell

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1994.tb06670.x

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