SEARCH

SEARCH BY CITATION

REFERENCES

  • Adiputra I.G.K. & Anderson J.W. (1992) Distribution and redistribution of sulfur taken up from nutrient solution during vegetative growth in barley. Physiologia Plantarum 85, 453460.
  • Adiputra I.G.K. & Anderson J.W. (1995) Effect of sulphur nutrition on redistribution of sulphur in vegetative barley. Physiologia Plantarum 95, 643650.
  • Anderson J.W. & Fitzgerald M.A. (2003) Sulphur distribution and redistribution. In Sulphur in Plants (eds Y.P.Abrol & A.Ahmad), pp. 113134. Kluwer Academic Publishers, Dordrecht, The Netherlands.
  • Aravind L. & Koonin E.V. (2000) The STAS domain – a link between anion transporters and antisigma-factor antagonists. Current Biology 10, R53R55.
  • Awazuhara M., Kim H., Goto D.B., Matsui A., Hayashi H., Chino M., Kim S.G., Naito S. & Fujiwara T. (2002) A 235-bp region from a nutritionally regulated soybean seed-specific gene promoter can confer its sulfur and nitrogen response to a constitutive promoter in aerial tissues of Arabidopsis thaliana. Plant Science 163, 7582.
  • Berkowitz O., Wirtz M., Wolf A., Kuhlmann J. & Hell R. (2002) Use of biomolecular interaction analysis to elucidate the regulatory mechanism of the cysteine synthase complex from Arabidopsis thaliana. Journal of Biological Chemistry 277, 3062930634.
  • Bick J.A. & Leustek T. (1998) Plant sulfur metabolism – the reduction of sulfate to sulfite. Current Opinion in Plant Biology 1, 240244.
  • Blake-Kalff M.M.A., Harrison K.R., Hawkesford M.J., Zhao F.J. & McGrath S.P. (1998) Distribution of sulfur within oilseed rape leaves in response to sulfur deficiency during vegetative growth. Plant Physiology 118, 13371344.
  • Blake-Kalff M.M.A., Hawkesford M.J., Zhao F.J. & McGrath S.P. (2000) Diagnosing sulfur deficiency in field-grown oilseed rape (Brassica napus L.) and wheat (Triticum aestivum L.). Plant and Soil 225, 95107.
  • Błaszczyk A., Brodzik R. & Sirko A. (1999) Increased resistance to oxidative stress in transgenic tobacco plants overexpressing bacterial serine acetyltransferase. Plant Journal 20, 237243.
  • Bloem E., Riemenschneider A., Volker J., Papenbrock J., Schmidt A., Salac I., Haneklaus S. & Schnug E. (2004) Sulphur supply and infection with Pyrenopeziza brassicae influence L-cysteine desulphydrase activity in Brassica napus L. Journal of Experimental Botany 55, 23052312.
  • Bourgis F., Roje S., Nuccio M.L., et al. (1999) S-methylmethionine plays a major role in phloem sulfur transport and is synthesized by a novel type of methyltransferase. Plant Cell 11, 14851497.
  • Buchner P., Stuiver C.E.E., Westerman S., Wirtz M., Hell R., Hawkesford M.J. & De Kok L.J. (2004a) Regulation of sulfate uptake and expression of sulfate transporter genes in Brassica oleracea as affected by atmospheric H2S and pedospheric sulfate nutrition. Plant Physiology 136, 33963408.
  • Buchner P., Takahashi H. & Hawkesford M.J. (2004b) Plant sulphate transporters: co-ordination of uptake, intracellular and long-distance transport. Journal of Experimental Botany 55, 17651773.
  • Chiba Y., Ishikawa M., Kijima F., Tyson R.H., Kim J., Yamamoto A., Nambara E., Leustek T., Wallsgrove R.M. & Naito S. (1999) Evidence for autoregulation of cystathionine gamma-synthase mRNA stability in Arabidopsis. Science 286, 13711374.
  • Clarkson D.T., Smith F.W. & Vandenberg P.J. (1983) Regulation of sulfate transport in a tropical legume, Macroptilium atropurpureum, cv Siratro. Journal of Experimental Botany 34, 14631483.
  • Clarkson D.T., Saker L.R. & Purves J.V. (1989) Depression of nitrate and ammonium transport in barley plants with diminished sulfate status – evidence of co-regulation of nitrogen and sulfate intake. Journal of Experimental Botany 40, 953963.
  • Clarkson D.T., Hawkesford M.J., Davidian J.-C. & Grignon C. (1992) Contrasting responses of sulfate and phosphate-transport in barley (Hordeum vulgare L.) roots to protein-modifying reagents and inhibition of protein synthesis. Planta 187, 306314.
  • Cooper R.M. & Williams J.S. (2004) Elemental sulphur as an induced antifungal substance in plant defence. Journal of Experimental Botany 55, 19471953.
  • Curien G., Job D., Douce R. & Dumas R. (1998) Allosteric activation of Arabidopsis threonine synthase by S-adenosylmethionine. Biochemistry 37, 1321213221.
  • De Kok L.J., Castro A., Durenkamp M., Stuiver C.E.E., Westerman S., Yang L. & Stulen I. (2002a) Sulphur in plant physiology. In Proceedings No 500 pp. 126, The International Fertiliser Society, York UK.
  • De Kok L.J., Stuiver C.E.E., Westerman S. & Stulen I. (2002b) Elevated levels of hydrogen sulfide in the plant environment: nutrient or toxin. In Air Pollution and Biotechnology in Plants (eds K.Omasa, H.Saji, S.Youssefian & N.Kondo), pp. 201213. Springer-Verlag, Tokyo, Japan.
  • De Kok L.J. & Stulen I. (1993) Functions of glutathione in plants under oxidative stress. In Sulfur Nutrition and Assimilation in Higher Plants; Regulatory, Agricultural and Environmental Aspects (eds L.J.De Kok, I.Stulen, H.Rennenberg, C.Brunold & W.E.Rauser), pp. 125138. SPB Academic Publishing, The Hague, The Netherlands.
  • Domínguez-Solís J.R., Gutiérrez-Alcalá G., Romero L.C. & Gotor C. (2001) The cytosolic O-acetylserine (thiol) lyase gene is regulated by heavy metals and can function in cadmium tolerance. Journal of Biological Chemistry 276, 92979302.
  • Domínguez-Solís J.R., López-Martín M.C., Ager F.J., Ynsa M.D., Romero L.C. & Gotor C. (2004) Increased cysteine availability is essential for cadmium tolerance and accumulation in Arabidopsis thaliana. Plant Biotechnology Journal 2, 469476.
  • Droux M. (2004) Sulfur assimilation and the role of sulfur in plant metabolism: a survey. Photosynthesis Research 79, 331348.
  • Droux M., Ruffet M.L., Douce R. & Job D. (1998) Interactions between serine acetyltransferase and O-acetylserine (thiol) lyase in higher plants – structural and kinetic properties of the free and bound enzymes. European Journal of Biochemistry 255, 235245.
  • Durenkamp M. & De Kok L.J. (2004) Impact of pedospheric and atmospheric sulphur nutrition on sulphur metabolism of Allium cepa L., a species with a potential sink capacity for secondary sulphur compounds. Journal of Experimental Botany 55, 18211830.
  • Franco-Zorrilla J.M., Martín A.C., Solano R., Rubio V., Leyva A. & Paz-Ares J. (2002) Mutations at CRE1 impair cytokinin-induced repression of phosphate starvation responses in Arabidopsis. Plant Journal 32, 353360.
  • Franco-Zorrilla J.M., Martín A.C., Leyva A. & Paz-Ares J.P. (2005) Interaction between phosphate-starvation, sugar, and cytokinin signaling in Arabidopsis and the roles of cytokinin receptors CRE1/AHK4 and AHK3. Plant Physiology 138, 847857.
  • Gilbert S.M., Clarkson D.T., Cambridge M., Lambers H. & Hawkesford M.J. (1997) SO42− deprivation has an early effect on the content of ribulose-1,5-bisphosphate carboxylase/oxygenase and photosynthesis in young leaves of wheat. Plant Physiology 115, 12311239.
  • Griffiths D.W., Birch A.N.E. & Hillman J.R. (1998) Antinutritional compounds in the Brassicaceae: analysis, biosynthesis, chemistry and dietary effects. Journal of Horticultural Science and Biotechnology 73, 118.
  • Gunning B.E.S. (1977) Transfer cells and their roles in transport of solutes in plants. Science Progress 64, 539568.
  • Gutierrez-Marcos J.F., Roberts M.A., Campbell E.I. & Wray J.L. (1996) Three members of a novel small gene-family from Arabidopsis thaliana able to complement functionally an Escherichia coli mutant defective in PAPS reductase activity encode proteins with a thioredoxin-like domain and ‘APS reductase’ activity. Proceedings of the National Academy of Sciences of the USA 93, 1337713382.
  • Hacham Y., Avraham T. & Amir R. (2002) The N-terminal region of Arabidopsis cystathionine gamma-synthase plays an important regulatory role in methionine metabolism. Plant Physiology 128, 454462.
  • Harada E., Yamaguchi Y., Koizumi N. & Sano H. (2002) Cadmium stress induces production of thiol compounds and transcripts for enzymes involved in sulfur assimilation pathways in Arabidopsis. Journal of Plant Physiology 159, 445448.
  • Hatzfeld Y., Cathala N., Grignon C. & Davidian J.C. (1998) Effect of ATP sulfurylase overexpression in bright yellow 2 tobacco cells – regulation of ATP sulfurylase and SO42− transport activities. Plant Physiology 116, 13071313.
  • Hawkesford M.J. (2003) Transporter gene families in plants: the sulphate transporter gene family – redundancy or specialization? Physiologia Plantarum 117, 155163.
  • Hawkesford M.J. (2005) Sulphur. In Plant Nutritional Genomics (eds M.R.Broadley & P.J.White), pp. 87111. Blackwell Publishing, Oxford, UK.
  • Hawkesford M.J., Davidian J.-C. & Grignon C. (1993) Sulfate proton cotransport in plasma-membrane vesicles isolated from roots of Brassica napus L. – increased transport in membranes isolated from sulfur-starved plants. Planta 190, 297304.
  • Hawkesford M.J., Buchner P., Hopkins L. & Howarth J.R. (2003) The plant sulfate transporter family: specialized functions and intergration with whole plant nutrition. In Sulfur Transport and Assimilation in Plants: Regulation, Interaction and Signaling (eds J.-C.Davidian, D.Grill, L.J.De Kok, I.Stulen, M.J.Hawkesford, E.Schnug & H.Rennenberg), pp. 110. Backhuys Publishers, Leiden, The Netherlands.
  • Hawkesford M.J. & Wray J.L. (2000) Molecular genetics of sulphate assimilation. Advances in Botanical Research Incorporating Advances in Plant Pathology 33, 159223.
  • Heiss S., Schäfer H.J., Haag-Kerwer A. & Rausch T. (1999) Cloning sulfur assimilation genes of Brassica juncea L. cadmium differentially affects the expression of a putative low-affinity sulfate transporter and isoforms of ATP sulfurylase and APS reductase. Plant Molecular Biology 39, 847857.
  • Hell R. & Hillebrand H. (2001) Plant concepts for mineral acquisition and allocation. Current Opinion in Biotechnology 12, 161168.
  • Hesse H. & Hoefgen R. (2003) Molecular aspects of methionine biosynthesis. Trends in Plant Science 8, 259262.
  • Hirai M.Y., Fujiwara T., Awazuhara M., Kimura T., Noji M. & Saito K. (2003) Global expression profiling of sulfur-starved Arabidopsis by DNA macroarray reveals the role of O-acetyl-l-serine as a general regulator of gene expression in response to sulfur nutrition. Plant Journal 33, 651663.
  • Hirai M.Y., Yano M., Goodenowe D.B., Kanaya S., Kimura T., Awazuhara M., Arita M., Fujiwara T. & Saito K. (2004) Integration of transcriptomics and metabolomics for understanding of global responses to nutritional stresses in Arabidopsis thaliana. Proceedings of the National Academy of Sciences of the USA 101, 1020510210.
  • Hirai M.Y., Klein M., Fujikawa Y., et al. (2005) Elucidation of gene-to-gene and metabolite-to-gene networks in Arabidopsis by integration of metabolomics and transcriptomics. Journal of Biological Chemistry 280, 2559025595.
  • Hopkins L., Parmar S., Bouranis D.L., Howarth J.R. & Hawkesford M.J. (2004) Coordinated expression of sulfate uptake and components of the sulfate assimilatory pathway in maize. Plant Biology 6, 408414.
  • Hopkins L., Parmar S., Baszczyk A., Hesse H., Hoefgen R. & Hawkesford M.J. (2005) O-acetylserine and the regulation of expression of genes encoding components for sulfate uptake and assimilation in potato. Plant Physiology 138, 433440.
  • Howarth J.R., Fourcroy P., Davidian J.-C., Smith F.W. & Hawkesford M.J. (2003a) Cloning of two contrasting high-affinity sulfate transporters from tomato induced by low sulfate and infection by the vascular pathogen Verticillium dahliae. Planta 218, 5864.
  • Howarth J.R., Domínguez-Solís J.R., Gutierréz-Alcalá G., Wray J.L., Romero L.C. & Gotor C. (2003b) The serine acetyltransferase gene family in Arabidopsis thaliana and the regulation of its expression by cadmium. Plant Molecular Biology 51, 589598.
  • Inaba K., Fujiwara T., Hayashi H., Chino M., Komeda Y. & Naito S. (1994) Isolation of an Arabidopsis thaliana mutant, Mto1, that overaccumulates soluble methionine – temporal and spatial patterns of soluble methionine accumulation. Plant Physiology 104, 881887.
  • Jones M.G., Hughes J., Tregova A., Milne J., Tomsett A.B. & Collin H.A. (2004) Biosynthesis of the flavour precursors of onion and garlic. Journal of Experimental Botany 55, 19031918.
  • Kataoka T., Hayashi N., Yamaya T. & Takahashi H. (2004a) Root-to-shoot transport of sulfate in Arabidopsis. Evidence for the role of SULTR3;5 as a component of low-affinity sulfate transport system in the root vasculature. Plant Physiology 136, 41984204.
  • Kataoka T., Watanabe-Takahashi A., Hayashi N., Ohnishi M., Mimura T., Buchner P., Hawkesford M.J., Yamaya T. & Takahashi H. (2004b) Vacuolar sulfate transporters are essential determinants controlling internal distribution of sulfate in Arabidopsis. Plant Cell 16, 26932704.
  • Kim H., Hirai M.Y., Hayashi H., Chino M., Naito S. & Fujiwara T. (1999) Role of O-acetyl-l-serine in the coordinated regulation of the expression of a soybean seed storage-protein gene by sulfur and nitrogen nutrition. Planta 209, 282289.
  • Kim J. & Leustek T. (2000) Repression of cystathionine gamma-synthase in Arabidopsis thaliana produces partial methionine auxotrophy and developmental abnormalities. Plant Science 151, 918.
  • Klein M. & Papenbrock J. (2004) The multi-protein family of Arabidopsis sulphotransferases and their relatives in other plant species. Journal of Experimental Botany 55, 18091820.
  • Kopriva S. & Koprivova A. (2004) Plant adenosine 5′-phosphosulphate reductase: the past, the present, and the future. Journal of Experimental Botany 55, 17751783.
  • Kredich N.M. (1992) The molecular-basis for positive regulation of cys promoters in Salmonella typhimurium and Escherichia coli. Molecular Microbiology 6, 27472753.
  • Krusell L., Krause K., Ott T., et al. (2005) The sulfate transporter SST1 is crucial for symbiotic nitrogen fixation in Lotus japonicus root nodules. Plant Cell 17, 16251636.
  • Kutz A., Muller A., Hennig P., Kaiser W.M., Piotrowski M. & Weiler E.W. (2002) A role for nitrilase 3 in the regulation of root morphology in sulphur-starving Arabidopsis thaliana. Plant Journal 30, 95106.
  • Lappartient A.G., Vidmar J.J., Leustek T., Glass A.D.M. & Touraine B. (1999) Inter-organ signaling in plants: regulation of ATP sulfurylase and sulfate transporter genes expression in roots mediated by phloem-translocated compound. Plant Journal 18, 8995.
  • Lee R.B. (1982) Selectivity and kinetics of ion uptake by barley plants following nutrient deficiency. Annals of Botany 50, 429449.
  • Lee S.M. & Leustek T. (1999) The affect of cadmium on sulfate assimilation enzymes in Brassica juncea. Plant Science 141, 201207.
  • Lee M., Martin M.N., Hudson A.O., Lee J., Muhitch M.J. & Leustek T. (2005) Methionine and threonine synthesis are limited by homoserine availability and not the activity of homoserine kinase in Arabidopsis thaliana. Plant Journal 41, 685696.
  • Lejay L., Gansel X., Cerezo M., Tillard P., Muller C., Krapp A., Von Wiren N., Daniel-Vedele F. & Gojon A. (2003) Regulation of root ion transporters by photosynthesis: functional importance and relation with hexokinase. Plant Cell 15, 22182232.
  • Leustek T. (1996) Molecular genetics of sulfate assimilation in plants. Physiologia Plantarum 97, 411419.
  • Leustek T., Martin M.N., Bick J.A. & Davies J.P. (2000) Pathways and regulation of sulfur metabolism revealed through molecular and genetic studies. Annual Review of Plant Physiology and Plant Molecular Biology 51, 141165.
  • Leustek T. & Saito K. (1999) Sulfate transport and assimilation in plants. Plant Physiology 120, 637643.
  • Logan H.M., Cathala N., Grignon C. & Davidian J.C. (1996) Cloning of a cDNA encoded by a member of the Arabidopsis thaliana ATP sulfurylase multigene family – expression studies in yeast and in relation to plant sulfur nutrition. Journal of Biological Chemistry 271, 1222712233.
  • López-Bucio J., Cruz-Ramirez A. & Herrera-Estrella L. (2003) The role of nutrient availability in regulating root architecture. Current Opinion in Plant Biology 6, 280287.
  • Maruyama-Nakashita A., Inoue E., Watanabe-Takahashi A., Yarnaya T. & Takahashi H. (2003) Transcriptome profiling of sulfur-responsive genes in Arabidopsis reveals global effects of sulfur nutrition on multiple metabolic pathways. Plant Physiology 132, 597605.
  • Maruyama-Nakashita A., Nakamura Y., Yamaya T. & Takahashi H. (2004) A novel regulatory pathway of sulfate uptake in Arabidopsis roots: implication of CRE1/WOL/AHK4-mediated cytokinin-dependent regulation. Plant Journal 38, 779789.
  • Maruyama-Nakashita A., Nakamura Y., Watanabe-Takahashi A., Inoue E., Yamaya T. & Takahashi H. (2005) Identification of a novel cis-acting element conferring sulfur deficiency response in Arabidopsis roots. Plant Journal 42, 305314.
  • Mikkelsen M.D., Petersen B.L., Glawischnig E., Jensen A.B., Andreasson E. & Halkier B.A. (2003) Modulation of CYP79 genes and glucosinolate profiles in Arabidopsis by defense signaling pathways. Plant Physiology 131, 298308.
  • Neuenschwander U., Suter M. & Brunold C. (1991) Regulation of sulfate assimilation by light and O-acetyl-l-serine in Lemna minor L. Plant Physiology 97, 253258.
  • Nikiforova V., Freitag J., Kempa S., Adamik M., Hesse H. & Hoefgen R. (2003) Transcriptome analysis of sulfur depletion in Arabidopsis thaliana: interlacing of biosynthetic pathways provides response specificity. Plant Journal 33, 633650.
  • Nikiforova V.J., Gakière B., Kempa S., Adamik M., Willmitzer L., Hesse H. & Hoefgen R. (2004) Towards dissecting nutrient metabolism in plants: a systems biology case study on sulphur metabolism. Journal of Experimental Botany 55, 18611870.
  • Nikiforova V.J., Kopka J., Tolstikov V., Fiehn O., Hopkins L., Hawkesford M.J., Hesse H. & Hoefgen R. (2005) Systems rebalancing of metabolism in response to sulfur deprivation, as revealed by metabolome analysis of Arabidopsis plants. Plant Physiology 138, 304318.
  • Noji M., Inoue K., Kimura N., Gouda A. & Saito K. (1998) Isoform-dependent differences in feedback regulation and subcellular localization of serine acetyltransferase involved in cysteine biosynthesis from Arabidopsis thaliana. Journal of Biological Chemistry 273, 3273932745.
  • Noji M., Saito M., Nakamura M., Aono M., Saji H. & Saito K. (2001) Cysteine synthase overexpression in tobacco confers tolerance to sulfur-containing environmental pollutants. Plant Physiology 126, 973980.
  • Ohkama-Ohtsu N., Kasajima I., Fujiwara T. & Naito S. (2004) Isolation and characterization of an Arabidopsis mutant that overaccumulates O-acetyl-l-serine. Plant Physiology 136, 32093222.
  • Page R.D.M. (1996) Tree view: an application to display phylogenetic trees on personal computers. Computer Applications in the Biosciences 12, 357358.
  • Pate J.S. (1965) Roots as organs of assimilation of sulfate. Science 149, 547548.
  • Rennenberg H., Schmitz K. & Bergmann L. (1979) Long-distance transport of sulfur in Nicotiana tabacum. Planta 147, 5762.
  • Rennenberg H., Kemper O. & Thoene B. (1989) Recovery of sulfate transport into heterotrophic tobacco cells from inhibition by reduced glutathione. Physiologia Plantarum 76, 271276.
  • Riemenschneider A., Riedel K., Hoefgen R., Papenbrock J. & Hesse H. (2005a) Impact of reduced O-acetylserine (thiol) lyase isoform contents on potato plant metabolism. Plant Physiology 137, 892900.
  • Riemenschneider A., Nikiforova V., Hoefgen R., De Kok L.J. & Papenbrock J. (2005b) Impact of elevated H2S on metabolite levels, activity of enzymes and expression of genes involved in cysteine metabolism. Plant Physiology and Biochemistry 43, 473483.
  • Rotte C. & Leustek T. (2000) Differential subcellular localization and expression of ATP sulfurylase and 5′-adenylylsulfate reductase during ontogenesis of Arabidopsis leaves indicates that cytosolic and plastid forms of ATP sulfurylase may have specialized functions. Plant Physiology 124, 715724.
  • Rouached H., Berthomieu P., El Kassis E., Cathala N., Catherinot V., Labesse G., Davidian J.-C. & Fourcroy P. (2005) Structural and functional analysis of the C-terminal STAS (sulfate transporter and anti-sigma antagonist) domain of the Arabidopsis thaliana sulfate transporter SULTR1.2. Journal of Biological Chemistry 280, 1597615983.
  • Rufty T.W., Thomas J.F., Remmler J.L., Campbell W.H. & Volk R.J. (1986) Intercellular localization of nitrate reductase in roots. Plant Physiology 82, 675680.
  • Saito K. (2000) Regulation of sulfate transport and synthesis of sulfur-containing amino acids. Current Opinion in Plant Biology 3, 188195.
  • Saito K. (2004) Sulfur assimilatory metabolism. The long and smelling road. Plant Physiology 136, 24432450.
  • Saito K., Inoue K., Fukushima R. & Noji M. (1997) Genomic structure and expression analyses of serine acetyltransferase gene in Citrullus vulgaris (watermelon). Gene 189, 5763.
  • Schäfer H.J., Haag-Kerwer A. & Rausch T. (1998) cDNA cloning and expression analysis of genes encoding GSH synthesis in roots of the heavy-metal accumulator Brassica juncea L.: evidence for Cd-induction of a putative mitochondrial gamma-glutamylcysteine synthetase isoform. Plant Molecular Biology 37, 8797.
  • Scheurwater I., Koren M., Lambers H. & Atkin O.K. (2002) The contribution of roots and shoots to whole plant nitrate reduction in fast- and slow-growing grass species. Journal of Experimental Botany 53, 16351642.
  • Setya A., Murillo M. & Leustek T. (1996) Sulfate reduction in higher plants: molecular evidence for a novel 5′-adenylylsulfate reductase. Proceedings of the National Academy of Sciences of the USA 93, 1338313388.
  • Shibagaki N. & Grossman A.R. (2004) Probing the function of STAS domains of the Arabidopsis sulfate transporters. Journal of Biological Chemistry 279, 3079130799.
  • Smith F.W., Hawkesford M.J., Prosser I.M. & Clarkson D.T. (1995) Isolation of a cDNA from Saccharomyces cerevisiae that encodes a high affinity sulphate transporter at the plasma membrane. Molecular General Genetics 247, 709715.
  • Smith F.W., Hawkesford M.J., Ealing P.M., Clarkson D.T., Vanden Berg P.J., Belcher A.R. & Warrilow A.G.S. (1997) Regulation of expression of a cDNA from barley roots encoding a high affinity sulphate transporter. Plant Journal 12, 875884.
  • Stuiver C.E.E., De Kok L.J. & Kuiper P.J.C. (1992) Freezing tolerance and biochemical changes in wheat shoots as affected by H2S fumigation. Plant Physiology and Biochemistry 30, 4755.
  • Stuiver C.E.E., De Kok L.J. & Westerman S. (1997) Sulfur deficiency in Brassica oleracea L.: development, biochemical characterization, and sulfur/nitrogen interactions. Russian Journal of Plant Physiology 44, 505513.
  • Stulen I. & De Kok L.J. (1993) Whole plant regulation of sulfate uptake and metabolism – a theoretical approach and comparison with current ideas on regulation of nitrogen metabolism. In Sulfur Nutrition and Assimilation in Higher Plants; Regulatory, Agricultural and Environmental Aspects (eds L.J.De Kok, I.Stulen, H.Rennenberg, C.Brunold & W.E.Rauser), pp. 7791. SPB Academic Publishing, The Hague, The Netherlands.
  • Sunarpi & Anderson J.W. (1996a) Distribution and redistribution of sulfur supplied as [35S]sulfate to roots during vegetative growth of soybean. Plant Physiology 110, 11511157.
  • Sunarpi & Anderson J.W. (1996b) Effect of sulfur nutrition on the redistribution of sulfur in vegetative soybean plants. Plant Physiology 112, 623631.
  • Sunarpi & Anderson J.W. (1997a) Effect of nitrogen nutrition on remobilization of protein sulfur in the leaves of vegetative soybean and associated changes in soluble sulfur metabolites. Plant Physiology 115, 16711680.
  • Sunarpi & Anderson J.W. (1997b) Effect of nitrogen nutrition on the export of sulphur from leaves in soybean. Plant and Soil 188, 177187.
  • Tabe L.M. & Droux M. (2001) Sulfur assimilation in developing lupin cotyledons could contribute significantly to the accumulation of organic sulfur reserves in the seed. Plant Physiology 126, 176187.
  • Takahashi H., Watanabe-Takahashi A., Smith F.W., Blake-Kalff M., Hawkesford M.J. & Saito K. (2000) The roles of three functional sulphate transporters involved in uptake and translocation of sulphate in Arabidopsis thaliana. Plant Journal 23, 171182.
  • Thomma B., Cammue B.P.A. & Thevissen K. (2002) Plant defensins. Planta 216, 193202.
  • Thompson J.D., Gibson T.J., Plewniak F., Jeanmougin F. & Higgins D.G. (1997) The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Research 25, 48764882.
  • Tohge T., Nishiyama Y., Hirai M.Y., et al. (2005) Functional genomics by integrated analysis of metabolome and transcriptome of Arabidopsis plants over-expressing an MYB transcription factor. Plant Journal 42, 218235.
  • Tsakraklides G., Martin M., Chalam R., Tarczynski M.C., Schmidt A. & Leustek T. (2002) Sulfate reduction is increased in transgenic Arabidopsis thaliana expressing 5¢-adenylylsulfate reductase from Pseudomonas aeruginosa. Plant Journal 32, 879889.
  • Urano Y., Manabe T., Noji M. & Saito K. (2000) Molecular cloning and functional characterization of cDNAs encoding cysteine synthase and serine acetyltransferase that may be responsible for high cellular cysteine content in Allium tuberosum. Gene 257, 269277.
  • Vanacker H., Carver T.L.W. & Foyer C.H. (2000) Early H2O2 accumulation in mesophyll cells leads to induction of glutathione during the hyper-sensitive response in the barley–powdery mildew interaction. Plant Physiology 123, 12891300.
  • Vauclare P., Kopriva S., Fell D., Suter M., Sticher L., Von Ballmoos P., Krähenbühl U., Den Camp R.O. & Brunold C. (2002) Flux control of sulphate assimilation in Arabidopsis thaliana: adenosine 5¢-phosphosulphate reductase is more susceptible than ATP sulphurylase to negative control by thiols. Plant Journal 31, 729740.
  • Warrilow A.G.S. & Hawkesford M.J. (1998) Separation, subcellular location and influence of sulphur nutrition on isoforms of cysteine synthase in spinach. Journal of Experimental Botany 49, 16251636.
  • Warrilow A.G.S. & Hawkesford M.J. (2000) Cysteine synthase (O-acetylserine (thiol) lyase) substrate specificities classify the mitochondrial isoform as a cyanoalanine synthase. Journal of Experimental Botany 51, 985993.
  • Warrilow A.G.S. & Hawkesford M.J. (2002) Modulation of cyanoalanine synthase and O-acetylserine (thiol) lyases A and B activity by beta-substituted alanyl and anion inhibitors. Journal of Experimental Botany 53, 439445.
  • Wawrzyńska A., Lewandowska M., Hawkesford M.J. & Sirko A. (2005) Using a suppression subtractive library-based approach to identify tobacco genes regulated in response to short-term sulphur deficit. Journal of Experimental Botany 56, 15751590.
  • Williams J.S., Hall S.A., Hawkesford M.J., Beale M.H. & Cooper R.M. (2002) Elemental sulfur and thiol accumulation in tomato and defense against a fungal vascular pathogen. Plant Physiology 128, 150159.
  • Wirtz M., Droux M. & Hell R. (2004) O-acetylserine (thiol) lyase: an enigmatic enzyme of plant cysteine biosynthesis revisited in Arabidopsis thaliana. Journal of Experimental Botany 55, 17851798.
  • Yang L., Stulen I. & De Kok L.J. (2003) Interaction between atmospheric sulfur dioxide deposition and pedospheric sulfate nutrition in Chinese cabbage. In Sulfur Transport and Assimilation in Plants: Regulation, Interaction and Signaling (eds J.-C.Davidian, D.Grill, L.J.De Kok, I.Stulen, M.J.Hawkesford, E.Schnug & H.Rennenberg), pp. 363365. Backhuys Publishers, Leiden, The Netherlands.
  • Yang L., Stulen I. & De Kok L.J. (2005) Sulfur dioxide: relevance of toxic and nutritional effects for Chinese cabbage. Environmental and Experimental Botany doi: 10.1016/1.envexobot.2005.06.002
  • Yonekura-Sakakibara K., Onda Y., Ashikari T., Tanaka Y., Kusumi T. & Hase T. (2000) Analysis of reductant supply systems for ferredoxin-dependent sulfite reductase in photosynthetic and nonphotosynthetic organs of maize. Plant Physiology 122, 887894.
  • Yoshimoto N., Inoue E., Saito K., Yamaya T. & Takahashi H. (2003) Phloem-localizing sulfate transporter, Sultr1; 3, mediates re-distribution of sulfur from source to sink organs in Arabidopsis. Plant Physiology 131, 15111517.
  • Zhang M.Y., Bourbouloux A., Cagnac O., Srikanth C.V., Rentsch D., Bachhawat A.K. & Delrot S. (2004) A novel family of transporters mediating the transport of glutathione derivatives in plants. Plant Physiology 134, 482491.
  • Zhao F.J., Hawkesford M.J. & McGrath S.P. (1999) Sulphur assimilation and effects on yield and quality of wheat. Journal of Cereal Science 30, 117.