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
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
35<br />
873<br />
874<br />
875<br />
876<br />
877<br />
878<br />
879<br />
880<br />
881<br />
882<br />
883<br />
884<br />
885<br />
886<br />
887<br />
888<br />
889<br />
890<br />
891<br />
892<br />
893<br />
894<br />
895<br />
896<br />
897<br />
898<br />
899<br />
900<br />
901<br />
902<br />
903<br />
904<br />
905<br />
906<br />
907<br />
908<br />
909<br />
910<br />
911<br />
912<br />
913<br />
914<br />
915<br />
916<br />
917<br />
918<br />
919<br />
920<br />
tocopherol cyclase dur<strong>in</strong>g cold harden<strong>in</strong>g <strong>in</strong> Eucalyptus gunnii. Physiologia<br />
Plantarum, 126, 212-223.<br />
Entry JA, Runion GB, Prior SA, Mitchell RJ, Rogers HH (1998). Influence of CO 2<br />
enrichment <strong>and</strong> nitrogen fertilization on tissue chemistry <strong>and</strong> carbon allocation<br />
<strong>in</strong> longleaf p<strong>in</strong>e seedl<strong>in</strong>gs. Plant <strong>and</strong> Soil, 200, 3-11.<br />
Fan L, L<strong>in</strong>ker R, Gepste<strong>in</strong> S, Tanimoto E, Yamamoto R, Neumann PM (2006).<br />
Progressive <strong>in</strong>hibition by water deficit of cell wall extensibility <strong>and</strong> growth<br />
along <strong>the</strong> elongation zone of maize roots is related to <strong>in</strong>creased lign<strong>in</strong><br />
metabolism <strong>and</strong> progressive stelar accumulation of wall phenolics. Plant<br />
Physiology, 140, 603-612.<br />
Ford CW, Morrison IM, Wilson JR (1979). Temperature effects on lign<strong>in</strong>,<br />
hemicellulose <strong>and</strong> cellulose <strong>in</strong> tropical <strong>and</strong> temperate grasses. Australian<br />
Journal of Agricultural Research, 30, 621-633.<br />
Frankenste<strong>in</strong> C, Schmitt U, Koch G (2006). Topochemical studies on modified lign<strong>in</strong><br />
distribution <strong>in</strong> <strong>the</strong> xylem of poplar (Populus spp.) after wound<strong>in</strong>g. Annals of<br />
Botany, 97, 195-204.<br />
Funada R, Miura T, Shimizu Y, K<strong>in</strong>ase T, Nakaba S, Kubo T, Sano Y (2008).<br />
Gibberell<strong>in</strong>-<strong>in</strong>duced formation of tension wood <strong>in</strong> angiosperm trees. Planta, 227,<br />
1409-1414.<br />
Ghanati F, Morita A, Yokota H (2005). Deposition of suber<strong>in</strong> <strong>in</strong> roots of soybean<br />
<strong>in</strong>duced by excess boron. Plant Science, 168, 397-405.<br />
G<strong>in</strong>dl W, Grabner M, Wimmer R (2000). The <strong>in</strong>fluence of temperature on latewood<br />
lign<strong>in</strong> content <strong>in</strong> treel<strong>in</strong>e Norway spruce compared with maximum density <strong>and</strong><br />
r<strong>in</strong>g width. Trees - Structure <strong>and</strong> Function, 14, 409-414.<br />
Gion JM, Lalanne C, Le Provost G, Ferry-Dumazet H, Paiva J, Chaumeil P,<br />
Frigerio JM, Brach J, Barre A, de Daruvar A, Claverol S, Bonneu M,<br />
Sommerer N, Negroni L, Plomion C (2005). The proteome of maritime p<strong>in</strong>e<br />
wood form<strong>in</strong>g tissue. Proteomics, 5, 3731-3751.<br />
Gratão P, Polle A, Lea P, Azevedo R (2005). Mak<strong>in</strong>g <strong>the</strong> life of heavy metal-stressed<br />
plants a little easier. Functional Plant Biology, 32, 481-494.<br />
Hagel JM, Facch<strong>in</strong>i PJ (2005). Elevated tyros<strong>in</strong>e decarboxylase <strong>and</strong> tyram<strong>in</strong>e<br />
hydroxyc<strong>in</strong>namoyltransferase levels <strong>in</strong>crease wound-<strong>in</strong>duced tyram<strong>in</strong>e-derived<br />
hydroxyc<strong>in</strong>namic acid amide accumulation <strong>in</strong> transgenic tobacco leaves. Planta,<br />
221, 904-914.<br />
Hannah MA, Heyer AG, H<strong>in</strong>cha DK (2005). A global survey of gene regulation<br />
dur<strong>in</strong>g cold acclimation <strong>in</strong> Arabidopsis thaliana. PLoS Genetics, 1, e26.<br />
Hano C, Addi M, Bensaddek L, Crônier D, Baltora-Rosset S, Doussot J, Maury S,<br />
Mesnard F, Chabbert B, Hawk<strong>in</strong>s S, La<strong>in</strong>é E, Lambl<strong>in</strong> F (2006). Differential<br />
accumulation of monolignol-derived compounds <strong>in</strong> elicited flax (L<strong>in</strong>um<br />
usitatissimum) cell suspension cultures. Planta, 223, 975-989.<br />
Hatfield R, Fukushima RS (2005). Can lign<strong>in</strong> be accurately measured? Crop Science,<br />
45, 832-839.<br />
Hausman JF, Evers D, Thiellement H, Jouve L (2000). Compared responses of<br />
poplar cutt<strong>in</strong>gs <strong>and</strong> <strong>in</strong> vitro raised shoots to short-term chill<strong>in</strong>g treatments. Plant<br />
Cell Reports, 19, 954-960.<br />
Hawk<strong>in</strong>s S, Boudet A (2003). 'Defence lign<strong>in</strong>' <strong>and</strong> hydroxyc<strong>in</strong>namyl alcohol<br />
dehydrogenase activities <strong>in</strong> wounded Eucalyptus gunnii. European Journal of<br />
Forest Pathology, 33, 91-104.