SEARCH

SEARCH BY CITATION

References

  • Arrieta-Baez D, Stark RE (2006) Modeling suberization with peroxidase-catalyzed polymerization of hydroxycinnamic acids: Cross-coupling and dimerization reactions. Phytochemistry 67, 743753.
  • Bakalovic N, Filippo Passardi F, Ioannidis V, Cosio C, Penel C, Falquet L, Dunand C (2006) PeroxiBase: a class III plant peroxidase database. Phytochemistry 67, 534539.
  • Blee KA, Choi JW, O’Connell AP, Schung W, Lewis NG, Bolwell GP(2003) A lignin specific peroxidase in tobacco whose antisense suppression leads to vascular tissue modification. Phytochemistry 64, 163176.
  • Boerjan W, Ralph J, Baucher M (2003) Lignin biosynthesis. Annu. Rev. Plant Biol. 54, 519546.
  • Boija E, Johansson G (2006) Interactions between model membranes and lignin-related compounds studied by immobilized liposome chromatography. Biochemistry 72, 248254.
  • Brownleader MD, Hopkins J, Mobasheri A, Dey PM, Jackson P, Trevan M (2000) Role of extension peroxidase in tomato (Lycopersicon esculentum Mill.) seedling growth. Planta 210, 668676.
  • Brunow G, Kilpeläinen I, Sipilä J, Syrjänen K, Karhunen P, Setälä H, Rummakko P (1998) Oxidative coupling of phenols and the biosynthesis of lignin. In: LewisN, SarkanenS, eds. Lignin and Lignan Biosynthesis. American Chemical Society, New Orleans , LA . pp. 131147.
  • Caliskan M, Cuming AC (1998) Spatial specificity of H2O2-generating oxalate oxidase gene expression during wheat embryo germination. Plant J. 15, 165171.
  • Carpin S, Crevecoeur M, De Meyer M, Simon P, Greppin H, Penel C (2001) Identification of a Ca2+-pectate binding site on an apoplastic peroxidase. Plant Cell 13, 511520.
  • Carter C, Pan S, Zouhar J, Avila EL, Girke T, Raikhel NV (2004) The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. Plant Cell 16, 32853303.
  • Christensen JH, Bauw G, Welinder KG, Van Montagu M, Boerjan W (1998) Purification and characterization of peroxidases correlated with lignification in poplar xylem. Plant Physiol. 118, 125135.
  • Christensen JH, Overney S, Rohde A, Diaz WA, Bauw G, Simon P, Van Montagu M, Boerjan W (2001) The syringaldazine-oxidizing peroxidase PXP 3–4 from poplar xylem: cDNA isolation, characterization and expression. Plant Mol. Biol. 47, 581593.
  • Dharmawardhana DP, Ellis BE, Carlso JE (1995) A β-glucosidase from lodgepole pine xylem specific for the lignin precursor coniferin. Plant Physiol. 107, 331339.
  • Elfstrand M, Sitbon F, Lapierre C, Bottin A, Von Arnold S (2002) Altered lignin structure and resistance to pathogens in spi 2-expressing tobacco plants. Planta 214, 708716.
  • Ehlting J, Mattheus N, Aeschliman DS, Li E, Hamberger B, Cullis IF, Zhuang J, Kaneda M, Mansfield SD, Samuels L, Ritland K, Ellis BE, Bohlmann J, Douglas CJ (2005) Global transcript profiling of primary stems from Arabidopsis thaliana identifies candidate genes for missing links in lignin biosynthesis and transcriptional regulators of fiber differentiation. Plant J. 42, 618640.
  • El Mansouri I, Mercado JA, Santiago-Dómenech N, Pliego-Alfaro F, Valpuestra V, Quesada MA (1999) Biochemical and phenotypical characterization of transgenic tomato plants overexpressing a basic peroxidase. Physiol. Plant. 106, 355362.
  • Escamilla-Treviño LL, Chen W, Card ML, Shih M-C, Cheng C-L, Poulton JE (2006) Arabidopsis thalianaβ-Glucosidases BGLU45 and BGLU46 hydrolyse monolignol glucosides. Phytochemistry 67, 16511660.
  • Fagerstedt K, Saranpää P, Piispanen R (1998) Peroxidase activity, isoenzymes and histological localization in sapwood and heartwood of Scots Pine (Pinus sylvestris L.). J. For. Res. 3, 4347.
  • Freudenberg K (1959) Biosynthesis and constitution of lignin. Nature 183, 11521155.
  • Freudenberg K, Harkin JM (1963) The glucosides of cambial sap of spruce. Phytochemistry 2, 189193.
  • Fry SC (2004) Oxidative coupling of tyrosine and ferulic acid residues: Intra- and extra-protoplasmic occurrence, predominance of trimers and larger products, and possible role in inter-polymeric cross-linking. Phytochem. Rev. 3, 97111.
  • Gabaldón C, López-Serrano M, Pomar F, Merino F, Cuello J, Pedreño MA, Ros Barceló A (2005) Characterization of the last step of lignin biosynthesis in Zinnia elegans suspension cell cultures. FEBS Lett. 580, 43114316.
  • Guillaumie S, Pichon M, Martinant JP, Bosio M, Goffner D, Barrière Y (2007) Differential expression of phenylpropanoid and related genes in brown-midrib bm1, bm2, bm3, and bm4 young near-isogenic maize plants. Planta 226, 235250.
  • Harkin JM, Obst JR (1973) Lignification in trees: Indication of exclusive peroxidase participation. Science 180, 296298.
  • Hatfield R, Vermerris W (2001) Lignin formation in plants. The dilemma of linkage specificity. Plant Physiol. 126, 13511357.
  • Hosokawa M, Suzuki S, Umezawa T, Sato Y (2001) Progress of lignification mediated by intercellular transportation of monolignols during tracheary element differentiation in isolated Zinnia mesophyll cells. Plant Cell Physiol. 42, 959968.
  • Jackson PAP, Galinha CIR, Pereira CS, Fortunato A, Soares NC, Amânqio CBQ, Pinto Ricardo CP (2001) Rapid deposition of extensin during the elicitation of grapevine callus cultures specifically catalysed by a 40-kilodalton peroxidase. Plant Physiol. 127, 10651076.
  • Kaneda M, Kim H, Rensing KH, Wong JCT, Banno B, Mansfield SD, Samuels LA (2008) Tracking monolignols during wood development in lodgepole pine. Plant Physiol. 147, 17501760.
  • Kärkönen A, Koutaniemi S, Mustonen M, Syrjanen K, Brunow G, Kilpelainen I, Teeri TH, Simola LK (2002) Lignification related enzymes in Picea abies suspension cultures. Physiol. Plant. 114, 343353.
  • Kärkönen A, Fry SC (2006) Effect of ascorbate and its oxidation products on H2O2 production in cell-suspension cultures of Picea abies and in the absence of cells. J. Exp. Bot. 57, 16331644.
  • Kärkönen A, Warinowski T, Teeri TT, Simola LK, Fry SC (2009) On the mechanism of apoplastic H2O2 production during lignin formation and elicitation in cultured spruce cells – peroxidases after elicitation. Planta 230, 553567.
  • Kawano T (2003) Roles of the reactive oxygen species-generating peroxidase reactions in plant defense and growth induction. Plant Cell Rep. 21, 829837.
  • Kim YH, Kim CY, Song WK, Park DS, Kwon SY, Lee HS, Bang JW, Kwak SS (2008) Overexpression of sweetpotato swpa4 peroxidase results in increased hydrogen peroxide production and enhances stress tolerance in tobacco. Planta 227, 867881.
  • Koutaniemi S, Toikka MM, Kärkönen A, Mustonen M, Lundell T, Simola LK, Kilpeläinen IA, Teeri TH (2005) Characterization of basic p-coumaryl and coniferyl alcohol oxidasing peroxidases from lignin forming Picea abies suspension culture. Plant Mol. Biol. 58, 141157.
  • Koutaniemi S, Warinowski T, Kärkönen A, Alatalo E, Fossdal CG, Saranpää P, Laakso T, Fagerstedt KV, Simola LK, Paulin L, Rudd S, Teeri TH (2007) Expression profiling of the lignin biosynthetic pathway in Norway spruce using EST sequencing and real-time RT-PCR. Plant Mol. Biol. 65, 311328.
  • Koutaniemi S, Warinowski T, Kärkönen A, Teeri T (2008) Characterization of lignin-binding peroxidises. Abstract PX-S02-6 at the 8th International Peroxidase Symposium, Tampere, Finland, 20–23 August, 2008.
  • Kukkola EM, Koutaniemi S, Gustafsson M, Karhunen P, Ruel K, Lundell TK, Saranpää P, Brunow G, Teeri TH, Fagerstedt KV (2003) Localization of dibenzodioxocin substructures in lignifying Norway spruce xylem by transmission electron microscopy–immunogold labeling. Planta 217, 229237.
  • Kukkola EM, Koutaniemi S, Pöllänen E, Gustafsson M, Karhunen P, Lundell TK, Saranpää P, Kilpeläinen I, Teeri TH, Fagerstedt KV (2004) The dibenzodioxocin lignin substructure is abundant in the inner part of the secondary wall in Norway spruce and silver birch xylem. Planta 218, 497500.
  • Lagrimini LM, Joly RJ, Dunlap JR, Liu TT (1997) The consequence of peroxidase overexpression in transgenic plants on root growth and development. Plant Mol. Biol. 33, 887895.
  • Leinhos V, Udagama-Randeniya PV, Savidge RA (1994) Purification of an acidic coniferin-hydrolysing β-glucosidase from developing xylem of Pinus banksiana. Phytochemistry 37, 311315.
  • Li Y, Kajita S, Kawai S, Katayama Y, Morohoshi N (2003) Down-regulation of an anionic peroxidase in transgenic aspen and its effect on lignin composition. J. Plant Res. 116, 175182.
  • Liang M, Davis E, Gardner D (2006) Involvement of AtLAC15 in lignin synthesis in seeds and in root elongation of Arabidopsis. Planta 224, 11851196.
  • Liszkay A, Kenk B, Schopfer P (2003) Evidence for the involvement of cell wall peroxidase in the generation of hydroxyl radicals mediating extension growth. Planta 217, 658667.
  • Liszkay A, Van Der Zalm E, Schopfer P (2004) Production of reactive oxygen intermediates O2.−, H2O2, and .OH by maize roots and their role in wall loosening and elongation growth. Plant Physiol. 136, 31143123.
  • Marcinowski S, Grisebach H (1977) Turnover in coniferin in pine seedlings. Phytochemistry 16, 16651667.
  • Marcinowski S, Grisebach H (1978) Enzymology of lignification. Cell wall bound β-glucosidase for coniferin from spruce (Picea abies) seedlings. Eur. J. Biochem. 87, 3744.
  • Marjamaa K, Kukkola E, Lundell T, Karhunen P, Saranpää P, Fagerstedt KV (2006a) Monolignol oxidation by xylem peroxidase isoforms of Norway spruce (Picea abies) and silver birch (Betula pendula). Tree Physiol. 26, 605611.
  • Marjamaa K, Hildén K, Kukkola E, Lehtonen M, Holkeri H, Haapaniemi P, Teeri T, Koutaniemi S, Teeri TH, Fagerstedt K, Lundell T (2006b) Cloning, characterization and localisation of three novel class III peroxidases in lignifying xylem of Norway spruce (Picea abies). Plant Mol. Biol. 61, 719732.
  • Marjamaa K, Lehtonen M, Lundell T, Toikka M, Saranpää P, Fagerstedt KV (2003) Developmental lignification and seasonal variation in β-glucosidase and peroxidase activities in xylem of Scots pine, Norway spruce and silver birch. Tree Physiol. 23, 977986.
  • Marjamaa K, Kukkola EM, Fagerstedt KV (2007) Lignification in Development. Int. J. Plant Dev. Biol. 1, 160169.
  • Marjamaa K, Kukkola EM, Fagerstedt KV (2009) The role of xylem class III peroxidases in lignification. J. Exp. Bot. 60, 367376.
  • Matsui T, Nakayama H, Yoshida K, Shinmyo A (2003) Vesicular transport route of horseradish C1a peroxidase is regulated by N- and C-terminal propeptides in tobacco cells. Appl. Microbiol. Biotech. 62, 517522.
  • McDougal G (2001) Cell-wall-associated peroxidases from lignifying xylem of angiosperms and gymnosperms: monolignol oxidation. Holzforsch. 55, 246249.
  • Mechin V, Baumberger S, Pollet B, Lapierre C (2007) Peroxidase activity can dictate the in vitro lignin dehydrogenative polymer structure. Phytochemistry 68, 571579.
  • Mika A, Lüthje S (2003) Properties of guaiacol peroxidase activities isolated from corn root plasma membranes. Plant Physiol. 132, 14891498.
  • Møller SG, McPherson MJ (1998) Developmental expression and biochemical analysis of the Arabidopsis atao1 gene encoding an H2O2-generating diamine oxidase. Plant J. 13, 781791.
  • Nielsen KL, Indiani C, Henriksen A, Feis A, Becucci M, Gajhede M, Smulevich G, Welinder KG (2001) Differential activity and structure of highly similar peroxidases. Spectroscopic, crystallographic and enzymatic analyses of lignifying Arabidopsis thaliana peroxidase A2 and horseradish peroxidase A2. Biochemistry 40, 1101311021.
  • Østergaard L, Teilum K, Mirza O, Mattsson O, Petersen M, Welinder KG, Mundy J, Gajhede M, Henriksen A (2000) Arabidopsis ATP A2 peroxidase. Expression and high resolution structure of a plant peroxidase with implications for lignification. Plant Mol. Biol. 44, 231243.
  • Passardi F, Longet D, Penel C, Dunand C (2004) The class III peroxidase multigenic family in rice and its evolution in land plants. Phytochemistry 65, 18791893.
  • Polle A, Otter T, Sandermann H Jr (1997) Biochemistry and molecular biology of lignin biosynthesis. In: RennenbergH, EschrichW, ZieglerH, eds. Trees – Contributions to Modern Tree Physiology. Backhuys Publishers, Leiden , Netherlands . pp. 455475.
  • Polle A, Otter T, Seifert F (1994) Apoplastic peroxidases and lignification in needles of Norway spruce (Picea abies L.). Plant Physiol. 106, 5360.
  • Quiroga M, Guerrero C, Botella MA, Ros Barceló A, Amaya I, Medina MI, Alonso FJ, De Forchetti SM, Tigier H, Valpuesta V (2000) A tomato peroxidase involved in the synthesis of lignin and suberin. Plant Physiol. 122, 11191127.
  • Raiskila S, Pulkkinen M, Laakso T, Fagerstedt K, Löija M, Mahlberg R, Paajanen L, Ritschkoff A-C, Saranpää P (2007) FTIR spectroscopic prediction of Klason and acid soluble lignin variation in Norway spruce clones. Silva Fennica 41, 351371.
  • Ranocha P, Chabannes M, Chamayou S (2002) Laccase downregulation causes alterations in phenolic metabolism and cell wall structure in poplar. Plant Physiol. 129,145155.
  • Ros Barceló A, Gómez Ros LV, Ferrer MA, Hernández JA (2006) The apoplastic antioxidant enzymatic system in the wood-forming tissues of trees. Trees-Struct. Funct. 20, 145156.
  • Ros Barceló A, Pomar F, Lópes-Serrano M, Martinez P, Pedreño MA (2002) Developmental regulation of the H2O2-producing system and basic peroxidase isoenzyme in the Zinnia elegans lignifying xylem. Plant Physiol. Biochem. 40, 325332.
  • Ruel K, Faix O, Joseleau J-P (1994) New immunogold probes for studying the distribution of the different lignin types during plant cell wall biogenesis. J. Trace Microprobe Tech. 12, 247265.
  • Samuels AL, Rensing KH, Douglas CJ, Mansfield SD, Dharmawardhana DP, Ellis BE (2002) Cellular machinery of wood production: differentiation of secondary xylem in Pinus contorta var latifolia. Planta 216, 7282.
  • Sasaki S, Baba K, Nishida T, Tsutsumi Y, Kondo R (2006) The cationic cell-wall-peroxidase having oxidation ability for polymeric substrate participates in the late stage of lignification of Populus alba L. Plant Mol. Biol. 62, 797807.
  • Sasaki S, Nishida T, Tsutsumi Y, Kondo R (2004) Lignin dehydrogenative polymerization mechanism: a poplar cell wall peroxidase directly oxidizes polymer lignin and produces in vitro dehydrogenative polymer rich in β-O-4 linkage. Fed. Eur. Biochem. Soc. Lett. 562, 197201.
  • Sasaki S, Nonaka D, Wariishi H, Tsutsumi Y, Kondo R (2008) Role of Tyr residues on the protein surface of cationic cell-wall-peroxidase (CWPO-C) from poplar: Potential oxidation sites for oxidative polymerization of lignin. Phytochemistry 69, 348355.
  • Savidge RA (1989) Coniferin, a biochemical indicator of commitment to tracheid differentiation in conifers. Can. J. Bot. 67, 26632668.
  • Schweikert C, Liszkay A, Schopfer P (2000) Scission of polysaccharides by peroxidase-generated hydroxyl radicals. Phytochemistry 53, 565570.
  • Simola LK, Lemmetyinen J, Santanen A (1992) Lignin release and photomixotrophism in suspension cultures of Picea abies. Physiol. Plant. 84, 347379.
  • Sipilä J, Karhunen P, Laine M (2004) On the role of dibenzodioxocins in lignin biosynthesis. In: HoikkalaA, SoidinsaloO, WähäläK, eds. Polyphenols Communications. University of Helsinki, Finland . pp. 8889.
  • Srivastava V, Schinkel H, Witzell J, Hertzberg M, Torp M, Srivastava MK, Karpinska B, Melzer M, Wingsle G (2007) Downregulation of high-isoelectric-point extracellular superoxide dismutase mediates alterations in the metabolism of reactive oxygen species and developmental disturbances in hybrid aspen. Plant J. 49, 135148.
  • Steeves C, Förster H, Pommer U, Savidge R (2001) Coniferyl alcohol metabolism in conifers. I. Glucosidic turnover of cinnamyl aldehydes by UDPG: coniferyl alcohol glucosyltransferase from pine cambium. Phytochemistry 57, 10851093.
  • Timell TE (1986) Compression Wood in Gymnosperms, 3 vols. Springer-Verlag, Berlin . pp. 2210.
  • Tsuji Y, Fukushima K (2004) Behavior of monolignol glucosides in angiosperms. J. Agric. Food Chem. 52, 76517659.
  • Tsutsumi Y, Matsui K, Sakai K (1998) Substrate specific peroxidases in woody angiosperms and gymnosperms participate in regulating the dehydrogenative polymerisation of syringyl and guaiacyl type lignins. Holzforsch. 52, 275281.
  • Tsutsumi Y, Kiyonaga Y, Sasaki S, Kondo R (2008) Impact of cationic cell-wall-peroxidase (CWPO-C) homolog on lignin in Arabidopsis thaliana. Abstract PX-S02-3 at the 8th International Peroxidase Symposium, Tampere, Finland, 20–23 August 2008.
  • Tuskan GA, Difazio S, Jansson S, Bohlmann J, Grigoriev I, Hellsten U, Putnam N, Ralph S, Rombauts S, Salamov A, Schein J, Sterck L, Aerts A, Bhalerao RR, Bhalerao RP, Blaudez D, Boerjan W, Brun A, Brunner A, Busov V, Campbell M, Carlson J, Chalot M, Chapman J, Chen GL, Cooper D, Coutinho PM, Couturier J, Covert S, Cronk Q, Cunningham R, Davis J, Degroeve S, Dejardin A, Depamphilis C, Detter J, Dirks B, Dubchak I, Duplessis S, Ehlting J, Ellis B, Gendler K, Goodstein D, Gribskov M, Grimwood J, Groover A, Gunter L, Hamberger B, Heinze B, Helariutta Y, Henrissat B, Holligan D, Holt R, Huang W, Islam-Faridi N, Jones S, Jones-Rhoades M, Jorgensen R, Joshi C, Kangasjarvi J, Karlsson J, Kelleher C, Kirkpatrick R, Kirst M, Kohler A, Kalluri U, Larimer F, Leebens-Mack J, Leple JC, Locascio P, Lou Y, Lucas S, Martin F, Montanini B, Napoli C, Nelson DR, Nelson C, Nieminen K, Nilsson O, Pereda V, Peter G, Philippe R, Pilate G, Poliakov A, Razumovskaya J, Richardson P, Rinaldi C, Ritland K, Rouze P, Ryaboy D, Schmutz J, Schrader J, Segerman B, Shin H, Siddiqui A, Sterky F, Terry A, Tsai CJ, Uberbacher E, Unneberg P, Vahala J, Wall K, Wessler S, Yang G, Yin T, Douglas C, Marra M, Sandberg G, Van De Peer Y, Rokhsar D (2006) The genome of black cottonwood, Populus trichocarpa (Torr. & Gray). Science 313, 15961604.
  • Welinder KG, Justesen AF, Kjaersgård IVH, Jensen RB, Rasmussen SK, Jespersen HM, Duroux L (2002) Structural diversity and transcription of class III peroxidases from Arabidopsis thaliana. Eur. J. Biochem. 269, 60636081.