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References

  • Arioli, T., Peng, L., Betzner, A.S. et al. (1998) Molecular analysis of cellulose synthesis in Arabidopsis. Science, 279, 717720.
  • Assaad, F.F., Huet, Y., Mayer, U. and Juergens, G. (2001) The cytokinesis gene KEULE encodes a Sec1 protein that binds to the syntaxin KNOLLE. J. Cell Biol. 152, 531543.
  • Beeckman, T., Przemeck, G.H.K., Stamatiou, G., Lau, R., Terryn, N., De Rycke, R., Inze, D. and Berleth, T. (2002) Genetic complexity of cellulose synthase A gene function in Arabidopsis embryogenesis. Plant Physiol. 130, 18831893.
  • Berger, S., Bell, E., Sadka, A. and Mullet, J.E. (1995) Arabidopsis thaliana AtVSP is homologous to soybean VSPa and VSPb, genes encoding vegetative storage protein acid-phosphatases, and is regulated similarly by methyl jasmonate, wounding, sugars, light and phosphate. Plant Mol. Biol. 27, 933942.
  • Burn, J.E., Hocart, C.H., Birch, R.J., Cork, A.A. and Williamson, R.E. (2002b) Functional analysis of the cellulose synthase genes CESA1, CESA2 and CESA3 in Arabidopsis. Plant Physiol. 129, 797807.
  • Burn, J.E., Hurley, U.A., Birch, R.J., Arioli, T., Cork, A. and Williamson, R.E. (2002a) The cellulose-deficient Arabidopsis mutant rsw3 is defective in a gene encoding a putative glucosidase II, and enzyme processing N-glycans during ER quality control. Plant J. 32, 949960.
  • Caño-Delgado, A.I., Metzlaff, K. and Bevan, M.W. (2000) The eli1 mutation reveals a link between cell expansion and secondary cell wall formation in Arabidopsis thaliana. Development, 127, 33953405.
  • Collmer, A. and Keen, N.T. (1986) The role of pectic enzymes in plant pathogenesis. Annu. Rev. Phytopathol. 24, 383409.
  • Delmer, D. (1999) Cellulose synthesis: exciting times for a difficult field of study. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50, 245276.
  • Desprez, T., Vernhettes, S., Fagard, M., Refregier, M., Desnos, T., Aletti, E., Py, N., Pelletier, S. and Hofte, H. (2002) Resistance against the herbicide isoxaben and cellulose deficiency caused by distinct mutations in the same cellulose synthase isoform CESA6. Plant Physiol. 128, 482490.
  • Dhugga, K.S. (2001) Building the wall: genes and enzyme complexes for polysaccharide synthases. Curr. Opin. Plant Biol. 4, 488493.
  • Ellis, C., Karafyllidis, I., Wasternack, C. and Turner, J.G. (2002) The Arabidopsis mutant cev1 links cell wall signaling to jasmonate and ethylene responses. Plant Cell, 14, 15571566.
  • Ellis, C. and Turner, J.G. (2001) The Arabidopsis mutant cev1 has constitutively active jasmonate and ethylene signaling pathways and enhanced resistance to pathogens. Plant Cell, 13, 10251033.
  • Emons, A.M.C. and Mulder, B.M. (2000) How the deposition of cellulose microfibrils builds cell wall architecture. Trends Plant Sci. 5, 3540.
  • Fagard, M., Desnos, T., Desprez, T., Goubet, F., Refregier, G., Mouille, G., McCann, M., Rayon, C., Vernhettes, S. and Hofte, H. (2000) PROCUSTE1encodes a cellulose synthase required for normal cell elongation specifically in roots and dark-grown hypocotyls of Arabidopsis. Plant Cell, 12, 24092423.
  • Feys, B., Benedetti, C.E., Penfold, C.N. and Turner, J.G. (1994) Arabidopsis mutants selected for resistance to the phytotoxin coronatine are male sterile, insensitive to methyl jasmonate and resistant to a bacterial pathogen. Plant Cell, 6, 751759.
  • Folkers, U., Kirik, V., Schobinger, U. et al. (2002) The cell morphogenesis gene ANGUSTIFOLIA encodes a CtBP/BARS-like protein and is involved in the control of the microtubule cytoskeleton. EMBO J. 21, 12801288.
  • Hauser, M.-T., Morikami, A. and Benfey, P.N. (1995) Conditional root expansion mutants of Arabidopsis thaliana. Development, 121, 12371252.
  • Heim, D.R., Roberts, J.L., Pike, P.D. and Larrinua, I.M. (1989) Mutation of a locus of Arabidopsis thaliana confers resistance to the herbicide isoxaben. Plant Physiol. 90, 146150.
  • Heim, D.R., Roberts, J.L., Pike, P.D. and Larrinua, I.M. (1990b) A second locus, Ixr B1 in Arabidopsis thaliana, that confers resistance to the herbicide isoxaben. Plant Physiol. 92, 858861.
  • Heim, D.R., Skomp, J.R., Tscabold, E.E. and Larrinua, I.M. (1990a) Isoxaben inhibits the synthesis of acid-insoluble cell wall materials in Arabidopsis thaliana. Plant Physiol. 93, 695700.
  • Hellens, R.P., Edwards, E.A., Leyland, N.R., Bean, S. and Mullineaux, P.M. (2000) pGREEN: a verstatile and flexible binary Ti vector for Agrobacterium-mediated plant transformation. Plant Mol. Biol. 42, 819832.
  • Humphreys, J.M. and Chapple, C. (2002) Rewriting the lignin roadmap. Curr. Opin. Plant Biol. 5, 224229.
  • Jefferson, R.A., Kavanagh, T.A. and Bevan, M.W. (1987) GUS fusions: β-glucuronidase as a sensitive and versatile gene fusion marker in higher plants. EMBO J. 6, 39013907.
  • Jones, L., Ennos, A.R. and Turner, S.R. (2001) Cloning and characterization of irregular xylem4 (irx4): a severely lignin-deficient mutant of Arabidopsis. Plant J. 26, 205216.
  • Lane, D.R., Wiedemeier, A., Peng, L. et al. (2001) Temperature-sensitive alleles of RSW2 link the KORRIGAN endo-1,4,beta-glucanase to cellulose synthesis and cytokinesis in Arabidopsis. Plant Physiol. 126, 278288.
  • Lauvergeat, V., Lacomme, C., Lacombe, E., Lasserre, E., Roby, D. and Grima-Pettenati, J. (2001) Two cinnamoyl CoA reductase (CCR) genes from Arabidopsis are differentially expressed during development and in response to infection with pathogenic bacteria. Phytochemistry, 57, 11871195.
  • Martinez, C., Blanc, F., Le Claire, E., Besnard, O., Nicole, M. and Baccou, J.-C. (2001) Salicylic acid and ethylene pathways are differentially activated in melon cotyledons by active or heat denatured cellulase from Trichoderma longibrachiatum. Plant Physiol. 127. 334–344.
  • Nicol, F., His, I., Jauneau, A., Vernhettes, S., Canut, H. and Hofte, H. (1998) A plasma membrane-bound putative endo-1,4-beta-d-glucanase is required for normal wall assembly cell elongation in Arabidopsis. EMBO J. 17, 55635576.
  • Norman, C., Vidal, S. and Palva, E.T. (1999) Oligogalacturonide-mediated induction of a gene involved in jasmonic acid synthesis in response to the cell wall degrading enzymes of the plant pathogen Erwinia carotovora. Mol. Plant Microbe Interact. 12, 640644.
  • Norman-Setterblad, C., Vidal, S. and Palva, E.T. (2000) Interacting signal pathways control defence gene expression in Arabidopsis in response to cell-wall degrading enzymes from Erwinia carotovora. Mol. Plant Microbe Interact. 13, 430438.
  • Pear, J.R., Kawagoe, Y., Schreckengost, W.E., Delmer, D.P. and Stalker, D.M. (1996) Higher plants contain homologs of the bacterial celA genes encoding the catalytic subunit of cellulose synthase. Proc. Natl. Acad. Sci. USA, 93, 1263712642.
  • Penninckx, I.A.M.A., Thoma, B.P.J.H., Buchala, A., Metraux, J.-P. and Broekaert, W.F. (1998) Concomitant activation of jasmonate and ethylene response pathways is required for induction of a plant defensin gene in Arabidopsis. Plant Cell, 10, 21032113.
  • Richmond, T. and Somerville, C.R. (2000) The cellulose synthase superfamily. Plant Physiol. 124, 495498.
  • Roberts, K. (2001) How the cell wall acquired a cellular context. Plant Physiol. 125, 127130.
  • Savoure, A., Sallaud, C., ElTurk, J., Zuanazzi, J., Ratet, P., Schultze, M., Kondorosi, A., Esnault, R. and Kondorosi, E. (1997) Distinct response of medicago suspension cultures and roots to nod factors and chitin oligomers in the elicitation of defense-related responses. Plant J. 11, 277287.
  • Scheible, W.-R., Eshed, R., Richmond, T., Delmer, D. and Somerville, C. (2001) Modifications of cellulose synthase confer resistance to isoxaben and thiazolidinone herbicides in Arabidopsis ixr1 mutants. Proc. Natl. Acad. Sci. USA, 98, 1007910084.
  • Schenk, P.M., Kazan, K., Wilson, I., Anderson, J.P., Richmond, T., Somerville, S. and Manners, J.M. (2000) Coordinated plant defence responses in Arabidopsis revealed by microarray analysis. Proc. Natl. Acad. Sci. USA, 97, 1165511660.
  • Schumacher, K., Vafedos, D., McCarthy, M., Sze, H., Wilkins, T. and Chory, J. (1999) The Arabidopsis det3 mutant reveals a central role for the vacuolar H+-ATPase in plant growth and development. Genes Dev. 13, 32593270.
  • Shevell, D.E., Kunkel, T. and Chua, N.-H. (2000) Cell wall alterations in the Arabidopsis emb30 mutant. Plant Cell, 12, 20472059.
  • Tabata, S., Kaneko, T., Nakamura, Y. et al. (2000) Sequence and analysis of chromosome 5 of the plant Arabidopsis thaliana. Nature, 408, 823826.
  • Taylor, N.G., Laurie, S. and Turner, S.R. (2000) Multiple cellulose synthase catalytic subunits are required for cellulose synthesis in Arabidopsis. Plant Cell, 12, 112.
  • Taylor, J.G., Owen, T.P., Koonce, L.T. and Haigler, C.H. (1992) Dispersed lignin in tracheary elements treated with cellulose synthesis inhibitors provides evidence that molecules of the secondary cell wall mediate wall patterning. Plant J. 2, 959970.
  • Taylor, N.G., Scheible, W.-R., Cutler, S., Somerville, C. and Turner, S.R. (1999) The irregular xylem3 locus of Arabidopsis encodes a cellulose synthase required for secondary cell wall synthesis. Plant Cell, 11, 769779.
  • Updegradaff, D. (1969) Semi-micro determination of cellulose in biological materials. Anal. Biochem. 32, 420424.
  • Vance, C.P., Kirk, T.K. and Sherwood, R.T. (1980) Lignification as a defence mechanism of disease resistance. Annu. Rev. Phytopathol. 18, 259288.
  • Waizenegger, I., Lukowitz, W., Assaad, F., Schwartz, H., Juergens, G. and Mayer, U. (2000) The Arabidopsis KNOLLE and KEULE genes interact to promote vesicle fusion during cytokinesis. Curr. Biol. 10, 13711374.
  • Yue, H., Eastman, P.S., Wang, B.B. et al. (2001) An evaluation of the performance of cDNA microarrays for detecting changes in global mRNA expression. Nucl. Acids Res. 29, e41.
  • Zhong, R. and Ye, Z.-H. (1999) IFL1, a gene regulating interfascicular fiber differentiation in an Arabidopsis mutant. Plant Cell, 11, 21392152.
  • Zhong, R., Kays, S.J., Schroeder, B.P. and Ye, Z.-H. (2001) Mutation in a chitinase-like gene causes ectopic deposition of lignin, abberant cell shapes and overproduction of ethylene. Plant Cell, 14, 165–179.
  • Zon, J. and Amrhein, N. (1992) Inhibitors of phenylalanine ammonia-lyase: 2-aminoindan-2-phosphonic acid and related compounds. Leibigs Ann. Chem. 6, 625628.