Physiologia Plantarum

Cover image for Physiologia Plantarum

January 1993

Volume 87, Issue 1

Pages 1–107

  1. Growth and development; cell and tissue culture

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Axillary bud flowering after apical decapitation in Pharbitis in relation to photoinduction (pages 1–6)

      Michiyuki Ono, Kimiyo Sage Ono, Koichiro Yamada, Masaru Yasui and Mitsuo Okazaki

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08782.x

  2. Plant biochemistry, cell and molecular biology

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Lipid changes in tobacco cell suspensions following treatment with cellulase elicitor (pages 7–13)

      Robert A. Moreau and Carol L. Preisig

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08783.x

    2. Polyamine levels in pollinated and auxin-induced fruit of tomato (Lycopersicon esculentum) during development (pages 14–20)

      Marcos Egea-Cortines, Ephraim Coben, Shoshana (Malis) Arad, Nello Bagni and Yosef Mizrahi

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08784.x

    3. Changes in maize-stalk proteins during ear development (pages 21–24)

      T. Chanh Ta, Chrissl A. Roeske and Allan R. J. Eaglesham

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08785.x

  3. Growth and development; cell and tissue culture

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
  4. Plant biochemistry, cell and molecular biology

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
  5. Ecophysiology and stress

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
  6. Growth and development; cell and tissue culture

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
  7. Ecophysiology and stress

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Can plants exposed to SO2 excrete sulfuric acid through the roots? (pages 61–67)

      W. M. Kaiser, M. Höfler and U. Heber

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08791.x

  8. Growth and development; cell and tissue culture

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Effects of calmodulin antagonists on auxin-stimulated proton extrusion in Avena sativa coleoptile segments (pages 68–76)

      Francisco González-Darós, Joaquin Carrasco-Luna, Angeles Calatayud, Julio Salguero and Secundino del Valle-Tascón

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08792.x

  9. Plant biochemistry, cell and molecular biology

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Superoxide dismutase in vesicular arbuscular-mycorrhizal red clover plants (pages 77–83)

      José M. Palma, M. Angeles Longa, Luis A del Río and Justo Arines

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08793.x

    2. Sucrose and fructan metabolism in wheat roots at chilling temperatures (pages 84–88)

      C. S. Santoiani, J. A. Tognetti, H. G. Pontis and G. L. Salerno

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08794.x

  10. Uptake and transport

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Gaseous diffusive properties of soybean nodules cultured with non-ambient pO2 (pages 89–95)

      Craig A. Atkins, Stephen Hunt and David B. Layzell

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08795.x

  11. Plant biochemistry, cell and molecular biology

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Partial purification and characterization of stomatal phosphoenolpyruvate carboxylase from Vicia faba (pages 96–102)

      Martin Denecke, Margot Schulz, Christoph Fischer and Heide Schnabl

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08796.x

  12. Growth and development; cell and tissue culture

    1. Top of page
    2. Growth and development; cell and tissue culture
    3. Plant biochemistry, cell and molecular biology
    4. Growth and development; cell and tissue culture
    5. Plant biochemistry, cell and molecular biology
    6. Ecophysiology and stress
    7. Growth and development; cell and tissue culture
    8. Ecophysiology and stress
    9. Growth and development; cell and tissue culture
    10. Plant biochemistry, cell and molecular biology
    11. Uptake and transport
    12. Plant biochemistry, cell and molecular biology
    13. Growth and development; cell and tissue culture
    1. Regulation of ethylene biosynthesis after short-term heat treatment in etiolated pea stems (pages 103–107)

      Candice L. Steed and Marcia A. Harrison

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1993.tb08797.x

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