Abiotic and biotic stresses and changes in the lignin ... - ResearchGate
Abiotic and biotic stresses and changes in the lignin ... - ResearchGate
Abiotic and biotic stresses and changes in the lignin ... - ResearchGate
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Carpita NC, Gibeaut DM (1993). Structural models of primary-cell walls <strong>in</strong> flower<strong>in</strong>g<br />
plants - consistency of molecular-structure with <strong>the</strong> physical-properties of <strong>the</strong><br />
walls dur<strong>in</strong>g growth. Plant Journal, 3, 1-30.<br />
Castañeda P, Pérez LM (1996). Calcium ions promote <strong>the</strong> response of Citrus limon<br />
aga<strong>in</strong>st fungal elicitors or wound<strong>in</strong>g. Phytochemistry, 42, 595-598.<br />
Chen EL, Chen YA, Chen LM, Liu ZH (2002). Effect of copper on peroxidase<br />
activity <strong>and</strong> lign<strong>in</strong> content <strong>in</strong> Raphanus sativus. Plant Physiology <strong>and</strong><br />
Biochemistry, 40, 439-444.<br />
Ch<strong>in</strong>nusamy V, Zhu J, Zhu J-K (2007). Cold stress regulation of gene expression <strong>in</strong><br />
plants. Trends <strong>in</strong> Plant Science, 12, 444-451.<br />
Chuanzao M, Keke Y, L<strong>in</strong>g Y, B<strong>in</strong>gsong Z, Yunrong W, Feiyan L, P<strong>in</strong>g W (2004).<br />
Identification of alum<strong>in</strong>ium-regulated genes by cDNA-AFLP <strong>in</strong> rice (Oryza<br />
sativa L.): alum<strong>in</strong>ium-regulated genes for <strong>the</strong> metabolism of cell wall<br />
components. Journal of Experimental Botany, 55, 137-143.<br />
Clair B, Gril J, Baba K, Thibaut B, Sugiyama J (2005). Precautions for <strong>the</strong> structural<br />
analysis of <strong>the</strong> gelat<strong>in</strong>uous layer <strong>in</strong> tension wood. IAWA Journal, 26, 189-195.<br />
Claus H (2004). Laccases: structure, reactions, distribution. Micron, 35, 93-96.<br />
Cooke JEK, Brown KA, Wu R, Davis JM (2003). Gene expression associated with N-<br />
<strong>in</strong>duced shifts <strong>in</strong> resource allocation <strong>in</strong> poplar. Plant Cell Environment, 26, 757-<br />
770.<br />
Cotrufo MF, DeAngelis P, Polle A (2005). Leaf litter production <strong>and</strong> decomposition <strong>in</strong><br />
a poplar short-rotation coppice exposed to free air CO 2 enrichment (POPFACE)<br />
Global Change Biology, 11, 971-982.<br />
Davey MP, Bryant DN, Cumm<strong>in</strong>s I, Ashenden TW, Gates P, Baxter R, Edwards R<br />
(2004). Effects of elevated CO 2 on <strong>the</strong> vasculature <strong>and</strong> phenolic secondary<br />
metabolism of Plantago maritima. Phytochemistry, 65, 2197-2204.<br />
de Obeso M, Caparros-Ruiz D, Vignols F, Puigdomenech P, Rigau J (2003).<br />
Characterisation of maize peroxidases hav<strong>in</strong>g differential patterns of mRNA<br />
accumulation <strong>in</strong> relation to lignify<strong>in</strong>g tissues. Gene, 309, 23-33.<br />
Déjard<strong>in</strong> A, Leplé JC, Lesage-Descauses MC, Costa G, Pilate G (2004). Expressed<br />
sequence tags from poplar wood tissues - a comparative analysis from multiple<br />
libraries. Plant Biology, 6, 55-64.<br />
Del Rio JC, Marques G, Rencoret J, Mart<strong>in</strong>ez AT, Gutierrez A (2007). Occurrence<br />
of naturally acetylated lign<strong>in</strong> units. Journal of Agricultural <strong>and</strong> Food Chemistry,<br />
55, 5461-5468.<br />
Delessert C, Wilson I, Van Der Straeten D, Dennis E, Dolferus R (2004). Spatial <strong>and</strong><br />
temporal analysis of <strong>the</strong> local response to wound<strong>in</strong>g. Plant Molecular Biology,<br />
55, 165-181.<br />
Diaz J, Bernal A, Pomar F, Mer<strong>in</strong>o F (2001). Induction of shikimate dehydrogenase<br />
<strong>and</strong> peroxidase <strong>in</strong> pepper (Capsicum annuum L.) seedl<strong>in</strong>gs <strong>in</strong> response to copper<br />
stress <strong>and</strong> its relation to lignification. Plant Science, 161, 179-188.<br />
Dixon RA, Paiva NL (1995). Stress-<strong>in</strong>duced phenylpropanoid metabolism. Plant Cell,<br />
7, 1085-1097.<br />
Donaldson LA, Grace J, Downes GM (2004). With<strong>in</strong>-tree variation <strong>in</strong> anatomical<br />
properties of compression wood <strong>in</strong> radiata p<strong>in</strong>e. Iawa Journal, 25, 253-271.<br />
Ederli L, Reale L, Ferranti F, Pasqual<strong>in</strong>i S (2004). Responses <strong>in</strong>duced by high<br />
concentration of cadmium <strong>in</strong> Phragmites australis roots. Physiologia Plantarum,<br />
121, 66-74.<br />
El Kayal W, Keller G, Debayles C, Kumar R, Weier D, Teulieres C, Marque C<br />
(2006). Regulation of tocopherol biosyn<strong>the</strong>sis through transcriptional control of