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REFERENCES

  • Babin V. & Bonnemain J.L. (1993) Variations saisonnières du pH et du contenu en acides aminés de la sève xylémienne de Populus x euramericana I.214. Acta Botanica Gallica 140, 421426.
  • Bernier G. (1969) Sinapis alba L. In The Induction of Flowering Some Case Histories (ed. L.T. Evans), pp. 305327. MacMillan, Melbourne.
  • Bernier G. (1989) Events of the floral transition of meristems. In Plant Reproduction: from Floral Induction to Pollination (eds E. Lord & G. Bernier), pp. 4250. The American Society of Plant Physiologists, Rockville, MD.
  • Bernier G., Corbesier L., Périlleux C., Havelange A. & Lejeune P. (1998) Physiological analysis of the floral transition. In Genetic and Environmental Manipulation of Horticultural Crops (eds K.E. Cockshull, D. Gray, G.B. Seymour & B. Thomas)), pp. 103109. CAB International, Wallingford, UK.
  • Bernier G., Havelange A., Houssa C., Petitjean A. & Lejeune P. (1993) Physiological signals that induce flowering. Plant Cell 5, 11471155.
  • Bernier G., Kinet J.-M. & Sachs R.M. (1981). The Physiology of Flowering, Vol I. CRC Press, Boca Raton, FL.
  • Bouniols A., Delecolle M.-C., Kronenberger J. & Margara J. (1973) Evolution de la composition en acides aminés libres des racines de chicorée dans différentes conditions assurant le développement végétatif ou floral des bourgeons. C R Académie des Sciences Paris 276, 27972800.
  • Campbell W.H. (1999) Nitrate reductase structure, function and regulation: bridging the gap between biochemistry and physiology. Annual Review of Plant Physiology and Plant Molecular Biology 50, 277303.
  • Corbesier L., Gadisseur I., Silvestre G., Jacqmard A. & Bernier G. (1996) Design in Arabidopsis thaliana of a synchronous system of floral induction by one long day. Plant Journal 9, 947952.
  • Corbesier L., Lejeune P. & Bernier G. (1998) The role of carbohydrates in the induction of flowering in Arabidopsis thaliana: comparison between the wild type and a starchless mutant. Planta 206, 131137.DOI: 10.1007/s004250050383
  • Einarsson S., Josefsson B. & Lagerkvist S. (1983) Determination of amino acids with 9-fluorenylmethylchloroformate and reverse-phase high-performance liquid chromatography. Journal of Chromatography 282, 609618.
  • Kandeler R. (1985) Lemnaceae. In Handbook of Flowering (ed. A.H. Halevy), Vol III, pp. 251279. CRC Press, Boca Raton, FL.
  • Kinet J.-M. (1975) Gross chemical changes occurring in the leaf of Sinapis alba during photoperiodic induction of flowering. New Phytologist 74, 2532.
  • King R.W. & Zeevaart J.A.D. (1974) Enhancement of phloem exudation from cut petioles by chelating agents. Plant Physiology 53, 96103.
  • Koornneef M., Alonso-Blanco C., Peeters A.J.M. & Soppe W. (1998) Genetic control of flowering time in Arabidopsis. Annual Review of Plant Physiology and Plant Molecular Biology 49, 345370.
  • Lam H.M., Coschigano K., Schultz C., Melo-Oliveira R., Tjaden G., Oliveira I., Ngai N., Hsieh M.H. & Coruzzi G. (1995) Use of Arabidopsis mutants and genes to study amide amino acid biosynthesis. Plant Cell 7, 887898.
  • Lejeune P., Bernier G., Requier M.-C. & Kinet J.-M. (1993) Sucrose increase during floral induction in the phloem sap collected at the apical part of the shoot of the long-day plant Sinapis alba L. Planta 190, 7174.
  • Lejeune P., Bernier G., Requier M.-C. & Kinet J.-M. (1994) Cytokinins in phloem and xylem saps of Sinapis alba during floral induction. Physiologia Plantarum 90, 522528.
  • Lejeune P., Kinet J.-M. & Bernier G. (1988) Cytokinin fluxes during floral induction in the long-day plant Sinapis alba L. Plant Physiology 86, 10951098.
  • Levy Y.Y. & Dean C. (1998) The transition to flowering. Plant Cell 10, 19731989.
  • Maeng J. & Khudairi A.K. (1973) Studies on the flowering mechanism in Lemna. I. Amino acid changes during flower induction. Physiologia Plantarum 28, 264270.
  • Peoples M.B. & Gifford R.M. (1990) Long-distance transport of nitrogen and carbon from sources to sinks in higher plants. In Plant Physiology Biochemistry and Molecular Biology (eds D.T. Dennis & D.H. Turpin), pp. 434447. Longman, Harlow.
  • Périlleux C., Bernier G. & Kinet J.-M. (1994) Circadian rhythms and the induction of flowering in the long-day grass Lolium temulentum L. Plant, Cell and Environment 17, 755761.
  • Raper C.D.J., Thomas J.F., Tolley-Henry L. & Rideout J.W. (1988) Assessment of an apparent relationship between availability of soluble carbohydrates and reduced nitrogen during floral initiation in tobacco. Botanical Gazette 149, 289294.
  • Rideout J.W., Raper C.D. & Miner G.S. (1992) Changes in ratio of soluble sugars and free amino nitrogen in the apical meristem during floral transition of tobacco. International Journal of Plant Science 153, 7888.
  • Sachs R.M. & Hackett W.P. (1977) Chemical control of flowering. Acta Horticulturae 68, 2949.
  • Samach A., Onouchi H., Gold S.E., Ditta G.S., Schwarz-Sommer Z., Yanofsky M.F. & Coupland G. (2000) Distinct roles of CONSTANS target genes in reproductive development of Arabidopsis. Science 288, 16131616.DOI: 10.1126/science.288.5471.1613
  • Sauter J.J. (1981) Seasonal variation of amino acids and amides in the xylem sap of Salix. Zeitscrift für Pflanzenphysiology 101, 399411.
  • Scheible W.-R., Lauerer M., Schulze E.-D., Caboche M. & Stitt M. (1997) Accumulation of nitrate in the shoot acts as a signal to regulate shoot-root allocation in tobacco. Plant Journal 11, 671691.
  • Shvedskaya Z.M. & Kruzhilin A.S. (1966) Changes in proline content during vernalization and differentiation of the growth points in biennial and winter plants. Soviet Plant Physiology 13, 948955.
  • Stitt M. (1999) Nitrate regulation of metabolism and growth. Current Opinions in Plant Biology 2, 178186.
  • Tanaka O. & Takimoto A. (1977) Flower-promoting effect of some amino acids and amides in Lemna paucicostata 6746. Plant and Cell Physiology 18, 2734.
  • Thorpe M.R. & Minchin P.E.H. (1996) Mechanisms of long- and short-distance transport from sources to sinks. In Photoassimilate Distribution in Plants and Crops: Source-Sink Relationships (eds E. Zamski & A.A. Schaffer), pp. 261282. Marcel Dekker, New York.
  • Valle E.M., Boggio S.B. & Heldt H.W. (1998) Free amino acid composition of phloem sap and growing fruit of Lycopersicon esculentum. Plant and Cell Physiology 39, 458461.
  • Vallée J.-C., Perdrizet E. & Martin C. (1968) Les acides aminés libres chez Nicotiana xanthi n.c. en fonction du développement et de la température. Annales de Physiologie Végétale 10, 237250.
  • Vincent R., Fraisier V., Chaillou S., Limami M.A., Deleens E., Phillipson B., Douat C., Boutin J.-P. & Hirel B. (1997) Overexpression of a soybean gene encoding cytosolic glutamine synthetase in shoots of transgenic Lotus corniculatus L. plants triggers changes in ammonium assimilation and plant development. Planta 201, 424433.DOI: 10.1007/s004250050085
  • Weiner H., Blechschmidt-Schneider S., Mohme H., Eschrich W. & Heldt H.W. (1991) Phloem transport of amino acids. Comparison of amino acid contents of maize leaves and of the sieve tube exudate. Plant Physiology and Biochemistry 29, 1923.
  • Winter H., Lohaus G. & Heldt H.W. (1992) Phloem transport of amino acids in relation to their cytosolic levels in barley leaves. Plant Physiology 99, 9961004.
  • Zhang H., Jennings A., Barlow P.W. & Forde B.G. (1999) Dual pathways for regulation of root branching by nitrate. Proceedings of the National Academy of Sciences of the USA 96, 65296534.
  • Zhuo D., Okamoto M., Vidmar J.J. & Glass A.D.M. (1999) Regulation of a putative high-affinity nitrate transporter (Nrt2;1At) in roots of Arabidopsis thaliana. Plant Journal 17, 563568.DOI: 10.1046/j.1365-313x.1999.00396.x