Biology Reference
In-Depth Information
Van Doorsselaere, J., Baucher, M., Chognot, E., Chabbert, B., Tollier, M. T.,
Petitconil, M., Lepl´, J. C., Pilate, G., Cornu, D., Monties, B., Van
Montagu, M., Inze, D. et al. (1995). A novel lignin in poplar trees with a
reduced caffeic acid 5-hydroxyferulic acid O-methyltransferase activity. The
Plant Journal 8, 855-864.
Viswanath, V., Albrectsen, B. and Strauss, S. (2012). Global regulatory burden for
field testing of genetically modified trees. Tree Genetics and Genomes 8,
221-226.
Voelker, S. L., Lachenbruch, B., Meinzer, F. C., Jourdes, M., Ki, C., Patten, A. M.,
Davin, L. B., Lewis, N. G., Tuskan, G. A., Gunter, L., Decker, S. R.,
Selig, M. J. et al. (2010). Antisense down-regulation of 4CL expression
alters lignification, tree growth, and saccharification potential of field-
grown poplar. Plant Physiology 154, 874-886.
Voelker, S. L., Lachenbruch, B., Meinzer, F. C., Kitin, P. and Strauss, S. H. (2011a).
Transgenic poplars with reduced lignin show impaired xylem conductivity,
growth efficiency and survival. Plant, Cell & Environment 34, 655-668.
Voelker, S. L., Lachenbruch, B., Meinzer, F. C. and Strauss, S. H. (2011b). Reduced
wood stiffness and strength, and altered stem form, in young antisense 4CL
transgenic poplars with reduced lignin contents. New Phytologist 189,
1096-1109.
Wadenb¨ck, J., Von Arnold, S., Egertsdotter, U., Walter, M., Grima-Pettenati, J.,
Goffner, D., Gellerstedt, G., Gullion, T. and Clapham, D. (2008). Lignin
biosynthesis in transgenic Norway spruce plants harboring an antisense
construct for cinnamoyl CoA reductase (CCR). Transgenic Research 17,
379-392.
Wagner, A., Ralph, J., Akiyama, T., Flint, H., Phillips, L., Torr, K., Nanayakkara, B.
and Te Kiri, L. (2007). Exploring lignification in conifers by silencing
hydroxycinnamoyl-CoA:shikimate hydroxycinnamoyltransferase in Pinus
radiata. Plant Physiology 149, 370-383.
Wagner, A., Donaldson, L., Kim, H., Phillips, L., Flint, H., Steward, D., Torr, K.,
Koch, G., Schmitt, U. and Ralph, J. (2009). Suppression of 4-coumarate-
CoA ligase in the coniferous gymnosperm Pinus radiata. Proceedings of
the National Academy of Sciences of the United States of America 104,
11856-11861.
Wagner, A., Tobimatsu, Y., Phillips, L., Flint, H., Torr, K., Donaldson, L., Pears, L.
and Ralph, J. (2011). CCoAOMT suppression modifies lignin composition
in Pinus radiata. The Plant Journal 67, 119-129.
Walter, C., Fladung, M. and Boerjan, W. (2010). The 20-year environmental safety
record of GM trees. Nature Biotechnology 28, 656-658.
Wei, J., Wang, Y., Wang, H., Li, R., Lin, N., Ma, R., Qu, L. and Song, Y. (2008).
Pulping performance of transgenic poplar with depressed Caffeoyl-CoA
O-methyltransferase. Chinese Science Bulletin 53, 3553-3558.
Wu, R. L., Remington, D. L., Mackay, J. J., Mckeand, S. E. and O'malley, D. M.
(1999). Average effect of a mutation in lignin biosynthesis in loblolly pine.
Theoretical and Applied Genetics 99, 705-710.
Zhong, R. Q., Morrison, W. H., Himmelsbach, D. S., Poole, F. L. and Ye, Z. H.
(2000). Essential role of caffeoyl coenzyme A O-methyltransferase in lignin
biosynthesis in woody poplar plants. Plant Physiology 124, 563-577.
Zobel, B. J. and Buijtenen, J. P. V. (1989). Wood Variation: Its Causes and Control.
Springer Verlag, Berlin, Germany, 363.
