The biosynthesis and accumulation of micro gram quantities of proto chlorophyll chlorophyll a and chlorophyll b in a cell free system from higher plants
Rebeiz, C.A.; Nishijima, C.; Crane, J.C.
Plant Physiology 47(Suppl): 45
1971
ISSN/ISBN: 0032-0889
Accession: 027561825
PDF emailed within 1 workday: $29.90
Related References
Jeffrey, S.W.; Humphrey, G.F. 1975: New spectrophotometric equations for determining chlorophyll a chlorophyll b chlorophyll c 1 and chlorophyll c 2 in higher plants algae and natural phyto plankton Biochemie und Physiologie der Pflanzen (BPP) 167(2): 191-194Rebeiz, C.A.; Castelfranco, P.A. 1971: Chlorophyll biosynthesis in a cell-free system from higher plants Plant Physiology 47(1): 33-37
Kato, K.; Shimizu, S. 1981: Metabolism of chlorophyll in higher plants 5. chlorophyll biosynthesis in nicotiana ingulba callus Zeitschrift fuer Pflanzenphysiologie 104(5): 409-418
Kato, K.S.imizu, S. 1981: Metabolism of chlorophyll in higher plants. V. Chlorophyll biosynthesis in Nicotiana callus Zeitschrift fur Pflanzenphysiologie = International journal of plant physiology 04(5): 409-418
Burke, D.; Alberti, M.; Stein, D.; Hearst, J. 1991: Chlorophyll iron proteins and other chlorophyll biosynthesis genes from rhodobacter capsulatus to higher plants Photochemistry and Photobiology 53(Suppl): 85S-86S
Shioi, Y.; Sasa, T. 1984: Chlorophyll formation in the yg 6 mutant of chlorella regularis accumulation of proto chlorophyllide and proto chlorophyll esterified with geranyl geraniol Plant and Cell Physiology 25(1): 131-138
Michel-Wolwertz, M.R. 1977: Chlorophyll formation in cotyledons of pinus jeffreyi during germination in the dark occasional accumulation of proto chlorophyll proto chlorophyllide forms Plant Science Letters 8(2): 125-134
Rebeiz, C.; Castelfranco, P. 1973: Protochlorophyll and chlorophyll biosynthesis in cell-free systems from higher plants Annual review of plant physiology: 4 129-172
Zen'kevich E.I.; Kochubeev, G.A.; Losev, A.P.; Gurinovich, G.P. 1977: Investigation of energetic interaction between proto chlorophyll and chlorophyll in mixed associates as a function of chlorophyll concentration Molecular Biology (English Translation of Molekulyarnaya Biologiya (Moscow) 11(5 Part 1): (1978)
Virgin, H.I.; French, C.S. 1973: The light induced proto chlorophyll chlorophyll d transformation and the succeeding inter conversions of the different forms of chlorophyll Physiologia Plantarum 28(2): 350-357
D.J.C.Friend 1960: The control of chlorophyll accumulation in leaves of Marquis wheat by temperature and light intensity I The rate of chlorophyll accumulation and maximal absolute chlorophyll contents Physiologia Plantarum 13(4): 776-785
Friend, D.J.C. 1960: The control of chlorophyll accumulation in leaves of Marquis wheat by temperature and light intensity. 1. The rate of chlorophyll accumulation and maximal absolute chlorophyll contents Physiol. Plant 13(4): 776-85
Porra, R.J.; Klein, O.; Wright, P.E. 1983: The proof by 13C-NMR spectroscopy of the predominance of the C5 pathway over the Shemin pathway in chlorophyll biosynthesis in higher plants and of the formation of the methyl ester group of chlorophyll from glycine European Journal of Biochemistry 130(3): 509-516
Fukusumi, T.; Matsuda, K.; Mizoguchi, T.; Miyatake, T.; Ito, S.; Ikeda, T.; Tamiaki, H.; Oba, T. 2012: Non-enzymatic conversion of chlorophyll-a into chlorophyll-d in vitro: a model oxidation pathway for chlorophyll-d biosynthesis Febs Letters 586(16): 2338-2341
Wang, P.; Grimm, B. 2015: Organization of chlorophyll biosynthesis and insertion of chlorophyll into the chlorophyll-binding proteins in chloroplasts Photosynthesis Research 126(2-3): 189-202