Handbook of Plant and Crop Physiology

11. TW Griffiths. Reconstitution of chlorophyllide formation by isolated membranes. Biochem J 174:681–692,
    1978.


12. LA Eichacker, J Soll, P Lauterbach, W Rüdiger, RR Klein, JE Mullet. In vitro synthesis of chlorophyll A in the
    dark triggers accumulation of chlorophyll A apoproteins in barley etioplasts. J Biol Chem 265:13566–13571,
    1990.


13. Z Sestak. Effects of age on protochlorophyllide and chlorophyllide formation (a review). In C Sironval, M
    Brouers, eds. Protochlorophyllide Reduction and Greening, The Hague: Martinus Nijhoff/Dr W Junk Publish-
    ers, 1984, pp 365–375.


14. B Schoefs. Light-dependent and light-independent protochlorophyllide reduction. Photosynthetica
    36:481–496, 1999.


15. M Dubrunfaut. Statique de la lumière dans les phénomènes de la vie des végétaux et des animaux. C R Hebd
    Sceances Acad Sci Paris 66:425–427, 1868.


16. JT Wolley, EW Stoller. Light penetration and light-induced seed germination in soil. Plant Physiol
    61:597–600, 1978.


17. H Smith. Sensing the light environment: the functions of the phytochrome family. In RE Kendrick, GHM Kro-
    nenberg, eds. Photomorphogenesis in Plants. 2nd ed. Dordrecht: Kluwer Academic Publishers, 1994, pp 377–416.


18. D Côme. Problèmes posés par la germination et ses obstacles. Bull Soc Fr Physiol Vég 14:3–9, 1968.


19. S Mandoli, W Briggs. Fiber optics in plants. Sci Am 251:90–99, 1984.


20. CA Rebeiz, R Parham, DA Fasoula DA, IM Ionnides. Chlorophyll abiosynthetic heterogeneity. In DJ Chad-
    wick, K Ackrill, eds. Biosynthesis of Tetrapyrroles Pigments. Chichester: Wiley, 1994, pp 177–193.


21. M Bertrand, B Seyfried, H Senger. In vitro photoreduction of monovinyl- and divinyl-protochlorophyllide.
    Physiol Plant 79:A65, 1990.


22. FC Belanger, CA Rebeiz. Chloroplast biogenesis 30. Chlorophyll(ide) (E459F675) and chlorophyllide
    (E449F675) the first detectable product of divinyl and monovinyl protochlorophyllide photoreduction. Plant
    Sci Lett 18:343–350, 1980.


23. B Schoefs, C Funk, B Andersson. Spectral changes during photoactive protochlorophyllide regeneration in
    spinach cotyledons. Arch Physiol Biochem 105:15, 1997.


24. B Schoefs, F Franck. Chlorophyll synthesis in dark-grown pine primary needles. Plant Physiol 118:1159–1168,
    1998.


25. CA Rebeiz, M Yaghi, M Abou-Had’dar, PA Castelfranco. Protochlorophyll biosynthesis in cucumber (Cu-
    cumis sativusL.) cotyledons. Plant Physiol 46:57–63, 1970.


26. S Klein, JA Schiff. The correlated appearance of prolamellar bodies, protochlorophyll(ide) species and the Shi-
    bata shift during developmental bean etioplast in the dark. Plant Physiol 49:619–626, 1972.


27. B Schoefs, M Bertrand, F Franck. Plant greening: biogenesis of the photosynthesis apparatus in bean leaves ir-
    radiated shortly after the germination. Photosynthetica 27:497–504, 1992.


28. B Schoefs, M Bertrand, Y Lemoine. Changes of the photosynthetic pigment content in bean leaves during the
    first photoperiod of greening. Comparison between etiolated (10-d-old) and young (2-d-old) leaves. Photo-
    synth Res 57:203–213, 1998.


29. B Schoefs, F Franck. Photoreduction of protochlorophyllide to chlorophyllide in 2-d old dark-grown bean
    (Phaseolus vulgariscv. Commodore) leaves. Comparison with 10-d old dark-grown (etiolated) leaves. J Exp
    Bot 44:1053–1057, 1993.


30. Z-H He, J Li, C Sundqvist, P Timko. Leaf developmental age controls expression of genes encoding enzymes
    of chlorophyll and heme biosynthesis in pea (Pisum sativum). Plant Physiol 106:537–546, 1994.


31. S Younis, M Ryberg, C Sundqvist. Plastid development in germinating wheat (Triticum aestivum) is enhanced
    by gibberellic acid and delayed by gabaculine. Physiol Plant 95:336–346, 1996.


32. M Ryberg, N Artus, B Böddi, A Lindsten, B Wiktorsson, C Sundqvist. Pigment-protein complexes of chloro-
    phyll precursors. In: JH Argyroudi-Akoyunoglou, ed. Regulation of Chloroplast Biogenesis. New York:
    Plenum Press, 1992, pp 217–225.


33. GEM Martin, MP Timko, HM Wilks. Purification and kinetic analysis of pea (Pisum sativumL.) NADPH:pro-
    tochlorophyllide oxidoreductase expressed as fusion with maltose-binding protein in Escherichia coli.
    Biochem J 325:139–145, 1997.


34. MA Ouazzani Chahdi, B Schoefs, F Franck. Purification and characterization of photoactive complexes of
    NADPH:protochlorophyllide reductase from wheat. Planta 206:673–680, 1998.


35. CE Cohen, CA Rebeiz. Chloroplast biogenesis. 34. Spectrofluorometric characterization in situ of pro-
    tochlorophyllide species in etiolated tissues of higher plants. Plant Physiol 67:98–103, 1981.


36. B Schoefs, M Bertrand, F Franck. Spectral heterogeneity of photoinactive protochlorophyllide in dark-grown
    bean leaf and pine cotyledons. In: P Mathis, ed. Photosynthesis: from Light to Biosphere. Vol 3. Dordrecht:
    Kluwer Academic Publishers, 1995, pp 1013–1016.


37. F Bovey, T Ogawa, K Shibata. Photoconvertible and nonphotoconvertible forms of protochlorophyll(ide) in
    etiolated leaves. Plant Cell Physiol 15:1133–1137, 1974.


38. B Böddi, F Franck. Room temperature fluorescence spectra of protochlorophyllide and chlorophyllide forms
    in etiolated leaves. J Photochem Photobiol B Biol 41:73–82, 1997.


39. B Böddi, K Kipetik, AD Kapori, J Fidy, C Sundqvist. The two spectroscopically different short-wavelength
    protochlorophyllide forms in pea epicotyls are both monomeric. Biochim Biophys Acta 1365:531–540, 1998.

CHLOROPHYLL BIOSYNTHESIS DURING PLANT GREENING 275