SEARCH

SEARCH BY CITATION

References

  • Anterola AM, Jeon J, Davin LB, Lewis NG. 2002. Transcriptional control of monolignol biosynthesis in Pinus taeda. Journal of Biological Chemistry 227: 1827218280.
  • Anterola AM, Lewis NG. 2002. Trends in lignin modification: a comprehensive analysis of the effects of genetic manipulations/mutations on lignification and vascular integrity. Phytochemistry 61: 221294.
  • Barroso JB, Corpas FJ, Carreras A, Sandalio LM, Valderrama R, Palma JM, Lupiañez JA, Del Rio LA. 1999. Localization of nitric-oxide synthase in plant peroxisomes. Journal of Biological Chemistry 274: 3672936733.
  • Bethke PC, Badger MR, Jones RL. 2004. Apoplastic synthesis of nitric oxide by plant tissues. Plant Cell 16: 332341.
  • Van Camp W, Van Montagu M, Inze D. 1998. H2O2 and NO: redox signals in disease resistance. Trends in Plant Science 3: 330334.
  • Chandok MR, Ytterberg J, Van Wijk KJ, Klessig DF. 2003. The pathogen-inducible nitric oxide synthase (iNOS) in plants is a variant of the P protein of the glycine decarboxylase complex. Cell 113: 469482.
  • Delledonne M, Xia Y, Dixon RA, Lamb C. 1998. Nitric oxide functions as a signal in plant disease resistance. Nature 394: 585588.
  • Delledonne M, Zeier J, Marocco A, Lamb C. 2001. Signal interactions between nitric oxide and reactive oxygen intermediates in the plant hypersensitive disease resistance response. Proceedings of the National Academy of Sciences, USA 98: 1345413459.
  • Demura T, Tashiro G, Horiguchi G, Kishimoto N, Kubo M, Matsuoka N, Minami A, Nagata-Hiwatashi M, Nakamura K, Okamura Y, Sassa N, Suzuki S, Yazaki J, Kikuchi S, Fukuda H. 2002. Visualization by comprehensive microarray analysis of gene expression programs during transdifferentiation of mesophyll cells into xylem cells. Proceedings of the National Academy of Sciences, USA 99: 1579415799.
  • Desikan R, Griffiths R, Hancock J, Neill S. 2002. A new role for an old enzyme: nitrate reductase-mediated nitric oxide generation is required for abscisic acid-induced stomatal closure in Arabidopsis thaliana. Proceedings of the National Academy of Sciences, USA 99: 1631416318.
  • Durner J, Klessig DF. 1999. Nitric oxide as a signal in plants. Current Opinion in Plant Biology 2: 369374.
  • Durner J, Wendehenne D, Klessig DF. 1998. Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose. Proceedings of the National Academy of Sciences, USA 95: 1032810333.
  • Enkhardt U, Pommer U. 2000. Einfluβ von stickstoffmonoxid und nitrit auf die aktivität der zimtsäure 4-hydroxylase in Zea mays in vitro. Journal of Applied Botany 74: 151154.
  • Ferrer MA, Ros Barceló A. 1999. Differential effects of nitric oxide on peroxidase and H2O2 production by the xylem of Zinnia elegans. Plant, Cell & Environment 22: 891897.
  • Foissner I, Wendehenne D, Langebartels C, Durner J. 2000. In vivo imaging of an elicitor-induced nitric oxide burst in tobacco. Plant Journal 2: 817824.
  • Fukuda H. 1996. Xylogenesis: initiation, progression and cell death. Annual Review of Plant Physiology and Plant Molecular Biology 47: 299325.
  • Fukuda H. 1997. Tracheary element differentiation. Plant Cell 9: 11471156.
  • Fukuda H, Komamine A. 1982. Lignin synthesis and its related enzymes as markers of tracheary-element differentiation in single cells isolated from mesophyll of Zinnia elegans. Planta 155: 423430.
  • Fukuto JM, Ignarro LJ. 1997. In vivo aspects of nitric oxide (NO) chemistry: does peroxynitrite (OONO) play a major role in cytotoxicity?. Accounts in Chemistry Research 30: 149152.
  • García-Mata C, Gay R, Sokolovski S, Hills A, Lamattina L, Blatt MR. 2003. Nitric oxide regulates K+ and Cl channels in guard cells through a subset of abscisic acid-evoked signalling pathways. Proceedings of the National Academy of Sciences, USA 100: 111611121.
  • Gould KS, Lamotte O, Klinguer A, Pugin A, Wendehenne D. 2003. Nitric oxide production in tobacco leaf cells: a generalized strees response? Plant, Cell & Environment 26: 18511862.
  • Grabber JH, Ralph J, Hatfield RD. 1988. Severe inhibition of maize wall degradation by synthetic lignins formed with coniferylaldehyde. Journal of the Science of Food and Agriculture 78: 8187.
  • Groover A, Jones AM. 1999. Tracheary element differentiation uses a novel mechanism coordinating programmed cell death and secondary cell wall synthesis. Plant Physiology 119: 375384.
  • Groover A, DeWitt N, Heidel A, Jones A. 1997. Programmed cell death of plant tracheary elements differentiating in vitro. Protoplasma 196: 197211.
  • Guo FQ, Okamoto M, Crawford NM. 2003. Identification of a plant nitric oxide synthase gene involved in hormone signaling. Science 302: 100103.
  • Hevel JM, Marletta MA. 1994. Nitric oxide synthase assays. Methods in Enzymology 233: 250258.
  • Huang CN, Cornejo MJ, Bush DS, Jones RL. 1986. Estimating viability of plant protoplasts using double and single staining. Protoplasma 135: 8087.
  • Kozela C, Regan S. 2003. How plants make tubes. Trends in Plant Science 8: 159164.
  • Kuchitsu K, Ward JM, Allen GJ, Schelle I, Schroeder JI. 2002. Loading acetoxymethyl ester fluorescent dyes into the cytoplasm of Arabidopsis and Commelina guard cells. New Phytologist 153: 527533.
  • Liu L, Dean JFD, Friedman WE, Eriksson KEL. 1994. A laccase-like phenoloxidase is correlated with lignin biosynthesis in Zinnia elegans stem tissues. Plant Journal 6: 213224.
  • López-Serrano M, Fernández MD, Pomar F, Pedreño MA, Ros Barceló A. 2004. Zinnia elegans uses the same peroxidase isoenzyme complement for cell wall lignification in both single-cell tracheary elements and xylem vessels. Journal of Experimental Botany 55: 423431.
  • Mellerowicz EJ, Baucher M, Sundberg B, Boerjan W. 2001. Unravelling cell wall formation in the woody dicot stem. Plant Molecular Biology 47: 239274.
  • Neill SJ, Desikan R, Hancock JT. 2003. Nitric oxide signaling in plants. New Phytologist 159: 1135.
  • Ogawa K, Kanematsu S, Asada K. 1997. Generation of superoxide anion and localization of CuZn-superoxide dismutase in the vascular tissue of spinach hypocotyls: their association with lignification. Plant Cell Physiology 38: 11181126.
  • Parani M, Rudrabhatla S, Myers R, Weirich H, Smith B, Leaman DW, Goldman SL. 2004. Microarray analysis of nitric oxide responsive transcripts in Arabidopsis. Plant Biotechnology Journal 2: 359366.
  • De Pinto MC, Tommasi F, De Gara L. 2002. Changes in the antioxidant systems as part of the signalling pathway responsible for the programmed cell death activated by nitric oxide and reactive oxygen species in tobacco Bright-Yellow 2 cells. Plant Physiology 130: 698708.
  • Polverari A, Molesini B, Pezzotti M, Buonaurio R, Marte M, Delledone M. 2003. Nitric oxide-mediated transcriptional changes in Arabidopsis thaliana. Molecular Plant–Microbe Interactions 16: 10941105.
  • Pomar F, Merino F, Ros Barceló A. 2002. O-4-linked conifeyl and sinapyl aldehydes in lignifying cell walls are the main targets of the Wiesner (phloroglucinol-HCl) reaction. Protoplasma 220: 1728.
  • Ralph J, Peng J, Lu F, Hatfield RD, Helm RF. 1999. Are lignins optically active?. Journal of Agricultural and Food Chemistry 47: 29912996.
  • Roberts K, McCann MC. 2000. Xylogenesis: the birth of a corpse. Current Opinion in Plant Biology 3: 517522.
  • Rockel P, Strube F, Rockel A, Wildt J, Kaiser WM. 2002. Regulation of nitric oxide (NO) production by plant nitrate reductase in vivo and in vitro. Journal of Experimental Botany 53: 103110.
  • Ros Barceló A. 1997. Lignification in plant cell walls. International Review of Cytology 176: 87132.
  • Ros Barceló A. 1998. The generation of H2O2 in the xylem of Zinnia elegans is mediated by an NADPH-oxidase-like enzyme. Planta 207: 207216.
  • Ros Barceló A, Ferrer MA, García-Florenciano E, Muñoz R. 1991. The tonoplast localization of two strongly basic isoperoxidases of high pI in Lupinus. Botanica Acta 104: 272278.
  • Ros Barceló A, Pomar F, Ferrer MA, Martínez P, Ballesta MC, Pedreño MA. 2002a. In situ characterization of a NO-sensitive peroxidase in the lignifying xylem of Zinnia elegans. Physiologia Plantarum 114: 3340.
  • Ros Barceló A, Pomar F, López-Serrano M, Martínez P, Pedreño MA. 2002b. Developmental regulation of the H2O2-producing system and of a basic peroxidase isoenzyme in the Zinnia elegans lignifying xylem. Plant Physiology and Biochemistry 40: 325332.
  • Shininger TL. 1979. The control of vascular development. Annual Review of Plant Physiology 30: 313337.
  • Stamler JS, Singel DJ, Loscalzo J. 1992. Biochemistry of nitric oxide and its redox-activated forms. Science 258: 18981902.
  • Tretyn A, Kado RT, Kendrick RE. 1997. Loading and localization of Fluo-3 and Fluo-3/AM calcium indicators in Sinapis alba root tissue. Folia Histochemistry and Cytobiology 35: 4151.
  • Tsai AL. 1994. How does NO activate hemeproteins? FEBS Letters 341: 141145.
  • Wendehenne D, Pugin A, Klessig DF, Durner J. 2001. Nitric oxide: comparative synthesis and signaling in animal and plant cells. Trends in Plant Scence 6: 177183.
  • Yamasaki H, Sakihama Y. 2000. Simultaneous production of nitric oxide and peroxynitrite by plant nitrate reductase: in vivo evidence for the NR-dependent formation. FEBS Letters 468: 8992.
  • Yamasaki H, Shimoji H, Ohshiro Y, Sakihama Y. 2001. Inhibitory effects of nitric oxide on oxidative phosphorylation in plant mitochondria. Nitric Oxide: Biology and Chemistry 5: 261270.