Physiologia Plantarum

Cover image for Physiologia Plantarum

June 1995

Volume 94, Issue 2

Pages 181–378

  1. Ecophysiology, stress and adaptation

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

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Phytochrome effects on stem carbon gain in light-grown mustard seedlings are not simply the result of stem extension-growth responses (pages 187–196)

      J. J. Casal, R. A. Sánchez, A. R. Paganelli-Blau and M. Izaguirre

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05300.x

  3. Gene regulation, cell and molecular physiology

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

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

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Gaba shunt in developing soybean seeds is associated with hypoxia (pages 219–228)

      Barry J. Shelp, Craig S. Walton, Wayne A. Snedden, Lucie G. Tuin, Ivan J. Oresnik and David B. Layzell

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05304.x

  6. Development, growth and differentiation

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

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. The expression of desiccation-induced damage in orthodox seeds is a function of oxygen and temperature (pages 233–240)

      Olivier Leprince, Christina W. Vertucci, George A. F. Hendry and Neil M. Atherton

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05306.x

  8. Biochemistry and metabolism

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

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Thiols of Cu-treated maize plants inoculated with the arbuscular-mycorrhizal fungus Glomus intraradices (pages 247–253)

      Ulrich Galli, Hannes Schüepp and Christian Brunold

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05308.x

  10. Uptake, transport and assimilation

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

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Chlorsulfuron influence on garden pea reproduction (pages 261–267)

      John S. Fletcher, Thomas G. Pfleeger and Hilman C. Ratsch

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05310.x

    2. Importance of dormancy and sink strength in sprouting of onions (Allium cepa) during storage (pages 277–283)

      Caroline Pak, Linus H. W. van der Plas and A. Douwe de Boer

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05312.x

  12. Biochemistry and metabolism

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

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

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

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Light-modulation of nitrate reductase activity in leaves and roots of maize (pages 305–311)

      Lucia Merlo, Massimo Ferretti, Calvino Passera and Rossella Ghisi

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05316.x

  16. Uptake, transport and assimilation

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Effect of an increased sink demand on the carbon metabolism and export of a maize source leaf (pages 319–327)

      Emmanuelle Jeannette, Jean-Paul Rocher and Jean-Louis Prioul

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05318.x

  17. Biochemistry and metabolism

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Endo-β-mannanases in the endosperm of germinated tomato seeds (pages 328–334)

      Hiroyuki Nonogaki, Masako Nomaguchi and Yukio Morohashi

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05319.x

  18. Development, growth and differentiation

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Synthesis of jasmonate-induced proteins in barley (Hordeum vulgare) is inhibited by the growth retardant tetcyclacis (pages 335–341)

      Claus Wasternack, Rainer Atzorn, Jens Leopold, Ivo Feussner, Wilbelm Rademacher and Benno Parthier

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05320.x

  19. Cell and tissue culture; biotechnology

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Plant regeneration from protoplasts of sugar beet (Beta vulgaris) (pages 342–350)

      Steffen Lenzner, Kurt Zoglauer and Otto Schieder

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05321.x

  20. Biochemistry and metabolism

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. NADP+-isocitrate dehydrogenase in germinating and senescing pumpkin cotyledons (pages 351–355)

      Barbara Nieri, Luigi De Bellis, Pier Paolo Biagi and Amedeo Alpi

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05322.x

  21. Minireview

    1. Top of page
    2. Ecophysiology, stress and adaptation
    3. Development, growth and differentiation
    4. Gene regulation, cell and molecular physiology
    5. Development, growth and differentiation
    6. Biochemistry and metabolism
    7. Development, growth and differentiation
    8. Ecophysiology, stress and adaptation
    9. Biochemistry and metabolism
    10. Ecophysiology, stress and adaptation
    11. Uptake, transport and assimilation
    12. Development, growth and differentiation
    13. Biochemistry and metabolism
    14. Development, growth and differentiation
    15. Ecophysiology, stress and adaptation
    16. Biochemistry and metabolism
    17. Uptake, transport and assimilation
    18. Biochemistry and metabolism
    19. Development, growth and differentiation
    20. Cell and tissue culture; biotechnology
    21. Biochemistry and metabolism
    22. Minireview
    1. Boron mobility in plants (pages 356–361)

      Barry J. Shelp, Eduardo Marentes, Alice M. Kitheka and Pathmanathan Vivekanandan

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05323.x

    2. Molecular aspects of heterosis in plants (pages 362–370)

      S. Athanasios Tsaftaris

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05324.x

    3. The contribution of ozone to forest decline (pages 371–378)

      Ursula Schmieden and Aloysius Wild

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1995.tb05325.x

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