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NTIS 바로가기FEBS letters, v.486 no.3, 2000년, pp.243 - 246
Schoefs, Benoît (Laboratory of Biomembranes, University of South Bohemia at Ceske Budejovice, Branisovska 31, CZ-370 05 Ceske Budejovice, Czech Republic) , Bertrand, Martine (Institut National des Sciences et Techniques de la Mer, Conservatoire National des Arts et Mé)
AbstractThe time course of the different esters of chlorophyllide (Chlide) during the formation of chlorophyll a (Chl) in embryonic bean leaves containing proplastids was investigated by HPLC. After the reduction of photoactive Pchlide (Pchlide) to Chlide, three intermediates, i.e. Chlide geranylger...
Paulsen H. Hose S. and Eisen C. (1992) in: Regulation of Chloroplast Biogenesis (Argyroudi-Akoyunoglou J.D. Ed.) pp. 343–349 Plenum Press New York.
Maloney, Margaret A., Hoober, J. Kenneth, Marks, Dawn B.. Kinetics of Chlorophyll Accumulation and Formation of Chlorophyll-Protein Complexes during Greening of Chlamydomonas reinhardtii y-1 at 38°C. Plant physiology, vol.91, no.3, 1100-1106.
HENRY, ALISON, POWLS, ROY, PENNOCK, JOHN F.. Scenedesmus obliquus PS28: a tocopherol-free mutant which cannot form phytol. Biochemical Society transactions, vol.14, no.5, 958-959.
Griffiths, W.T.. Protochlorophyll and protochlorophyllide as precursors for chlorophyll synthesis in vitro. FEBS letters, vol.49, no.2, 196-200.
Schoefs, B.. The Light-Dependent and Light-Independent Reduction of Protochlorophyllide a to Chlorophyllide a. Photosynthetica, vol.36, no.4, 481-496.
RUDIGER, Wolfhart, BENZ, Jurgen, GUTHOFF, Christine. Detection and Partial Characterization of Activity of Chlorophyll Synthetase in Etioplast Membranes. European journal of biochemistry, vol.109, no.1, 193-200.
Schoch, S., Lempert, U., Rüdiger, W.. Über die letzten stufen der chlorophyll-biosynthese zwischenprodukte zwischen chlorophyllid und phytolhaltigem chlorophyll. On the last steps of chlorophyll biosynthesis intermediates between chlorophyllide and phytol-containing chlorophyll. Zeitschrift für Pflanzenphysiologie, vol.83, no.5, 427-436.
Rüdiger W. (1993) in: Pigment-Protein Complexes: Synthesis and Assembly (Sundqvist C. and Ryberg M. Eds.) pp. 219–240 Academic Press San Diego CA.
Addlesee, Hugh A., Gibson, Lucien C.D., Jensen, Poul E., Hunter, C.Neil. Cloning, sequencing and functional assignment of the chlorophyll biosynthesis gene, chlP, of Synechocystis sp. PCC 6803. FEBS letters, vol.389, no.2, 126-130.
Schoch, Siegrid. The Esterification of Chlorophyllide a in Greening Bean Leaves. Zeitschrift für Naturforschung. Section C, Biosciences, vol.33, no.9, 712-714.
Soll, Jürgen, Schultz, Gernot, Rüdiger, Wolfhart, Benz, Jürgen. Hydrogenation of Geranylgeraniol : Two Pathways Exist in Spinach Chloroplasts. Plant physiology, vol.71, no.4, 849-854.
Rüdiger W. (1987) in: Progress in Photosynthesis Research (Biggins J.J. Ed.) Vol. 4 pp. 461–467 Martinus Nijhoff Dordrecht.
Rüdiger W. (1992) in: Regulation of Chloroplast Biogenesis (Argyroudi-Akoyunoglou J.D. Ed.) pp. 183–191 Plenum Press New York.
Thomson, W W, Whatley, J M. Development of Nongreen Plastids. Annual review of plant physiology, vol.31, 375-394.
Schoefs, Benoît, Bertrand, Martine, Lemoine, Yves. Changes in the photosynthetic pigments in bean leaves during the first photoperiod of greening and the subsequent dark-phase. Comparison between old (10-d-old) leaves and young (2-d-old) leaves. Photosynthesis research, vol.57, no.2, 203-213.
Photosynthetica Schoefs B. 497 27 1992
Bertrand M. and Schoefs B. (1997) in: Handbook of Photosynthesis (Pessarakli M. Ed.) pp. 151–173 Marcel Dekker New York.
Photosynthetica Drazkiewick M. 303 30 1994
Schoefs, Benoît, Bertrand, Martine, Lemoine, Yves. Separation of photosynthetic pigments and their precursors by reversed-phase high-performance liquid chromatography using a photodiode-array detector. Journal of chromatography A, vol.692, no.1, 239-245.
Am. Biotechnol. Lab. Schoefs B. 18 14 1996
Klein, Shimon, Schiff, Jerome A.. The Correlated Appearance of Prolamellar Bodies, Protochlorophyll(ide) Species, and the Shibata Shift during Development of Bean Etioplasts in the Dark. Plant physiology, vol.49, no.4, 619-626.
Hudak J. (1997) in: Handbook of Photosynthesis (Pessarakli M. Ed.) pp. 27–49 Marcel Dekker New York.
SCHOEFS, BENOIT, FRANCK, FABRICE. 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. Journal of experimental botany, vol.44, no.6, 1053-1057.
Schoefs, Benoît, Garnir, Henri-Pierre, Bertrand, Martine. Comparison of the photoreduction of protochlorophyllide to chlorophyllide in leaves and cotyledons from dark-grown bean as a function of age. Photosynthesis research, vol.41, no.3, 405-417.
Lindsten, Agneta, Welch, Cristopher John, Schoch, Siegrid, Ryberg, Margareta, Rüdiger, Wolfhart, Sundqvist, Christer. Chlorophyll synthetase is latent in well preserved prolamellar bodies of etiolated wheat. Physiologia plantarum, vol.80, no.2, 277-285.
Lindsten, Agneta, Wiktorsson, Bengt, Ryberg, Margareta, Sundqvist, Christer. Chlorophyll synthetase activity is relocated from transforming prolamellar bodies to developing thylakoids during irradiation of dark‐grown wheat. Physiologia plantarum, vol.88, no.1, 29-36.
Granick, S., Gassman, Merrill. Rapid Regeneration of Protochlorophyllide650. Plant physiology, vol.45, no.2, 201-205.
Plant Cell Physiol. Bovey F. 1133 15 1974
Ogawa T. Bovey F. Inoue Y. and Shibata K. (1974) in: Proceedings of the 3rd International Congress on Photosynthesis (Avron M. Ed.) pp. 1829–1832 Elsevier Scientific Publishing Company Amsterdam.
Sundqvist, Christer. Transformation of Protochlorophyllide, Formed from Exogenous δ‐Aminolevulinic Acid, in Continuous Light and in Flashlight. Physiologia plantarum, vol.22, no.1, 147-156.
Nielsen, Ole Frederik. Macromolecular Physiology of Plastids. Biochemie und Physiologie der Pflanzen : BPP, vol.167, no.3, 195-206.
Boddi, Bela, Lindsten, Agneta, Ryberg, Margareta, Sundqvist, Christer. PHOTOTRANSFORMATION OF AGGREGATED FORMS OF PROTOCHLOROPHYLLIDE IN ISOLATED ETIOPLAST INNER MEMBRANES. Photochemistry and photobiology, vol.52, no.1, 83-87.
Butler, Warren L.. Chloroplast development: Energy transfer and structure. Archives of biochemistry and biophysics, vol.92, 287-295.
Photosynthetica Fradkin L.I. 326 3 1969
Acta Physiol. Plant. Franck F. 123 17 1995
Schoefs B. and Franck F. (1995) in: Photosynthesis: From Light to Biosphere (Mathis P. Ed.) Vol. 3 pp. 1013–1017 Kluwer Academic Publishers Dordrecht.
Kenneth Hoober, J., Eggink, Laura L.. Assembly of light-harvesting complex II and biogenesis of thylakoid membranes in chloroplasts. Photosynthesis research, vol.61, no.3, 197-215.
Adamska, Iwona. ELIPs - Light‐induced stress proteins. Physiologia plantarum, vol.100, no.4, 794-805.
Funk C. Lindström V. and Vermaas W. (1999) in: The Chloroplast: From Molecular Biology to Biotechnology (Argyroudi-Akoyunoglou J.H. and Senger H. Eds.) pp. 103–106 Kluwer Academic Publishers Dordrecht.
C. R. Acad. Sci. Paris Schoefs B. 441 313 1991
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