Biology Reference
In-Depth Information
Jouanin, L. and Boerjan, W. (1996). Red xylem and higher lignin extract-
ability by down-regulating a cinnamyl alcohol dehydrogenase in poplar.
Plant Physiology 112, 1479-1490.
Bjurhager, I., Olsson, A.-M., Zhang, B., Gerber, L., Kumar, M., Berglund, L. A.,
Burgert, I., Sundberg, B. R. and Salmen, N. L. (2010). Ultrastructure and
mechanical properties of populus wood with reduced lignin content caused
by transgenic down-regulation of cinnamate 4-hydroxylase. Biomacromole-
cules 11, 2359-2365.
Boerjan, W., Ralph, J. and Baucher, M. (2003). Lignin biosynthesis. Annual Review of
Plant Biology 54, 519-546.
Bonawitz, N. D. and Chapple, C. (2010). The genetics of lignin biosynthesis:
Connecting genotype to phenotype. Annual Review of Genetics 44, 337-363.
Bradley, K., Hancock, J., Giardina, C. and Pregitzer, K. (2007). Soil microbial
community responses to altered lignin biosynthesis in Populus tremuloides
vary among three distinct soils. Plant and Soil 294, 185-201.
Brodeur-Campbell, S. E., Vucetich, J. A., Richter, D. L., Waite, T. A.,
Rosemier, J. N. and Tsai, C.-J. (2006). Insect herbivory on low-lignin
transgenic aspen. Environmental Entomology 35, 1696-1701.
Busov, V. B., Brunner, A. M., Meilan, R., Filichkin, S., Ganio, L., Gandhi, S. and
Strauss, S. H. (2005). Genetic transformation: A powerful tool for dissection
of adaptive traits in trees. New Phytologist 167, 9-18.
Campbell, M. M. and Sederoff, R. R. (1996). Variation in lignin content and compo-
sition. Mechanisms of control and implications for the genetic improvement
of plants. Plant Physiology 110, 3-13.
Casler, M. D., Buxton, D. R. and Vogel, K. P. (2002). Genetic modification of lignin
concentration affects fitness of perennial herbaceous plants. Theoretical and
Applied Genetics 104, 127-131.
Chen, C., Meyermans, H., Burggraeve, B., Rycke, R. M. D., Inoue, K.,
Vleesschauwer, V. D., Steenackers, M., Montagu, M. C. V., Engler, G. J.
and Boerjan, W. A. (2000). Cell-specific and conditional expression of
caffeoyl-coenzyme A-3-O-methyltransferase in poplar. Plant Physiology
123, 853-867.
Chen, Z., Chang, S., Ho, C., Chen, Y., Tsai, J. and Chiang, V. L. (2001). Plant
production of transgenic Eucalyptus camaldulensis carrying the Populus
tremuloides cinnamate 4-hydroxylase gene. Taiwan Journal of Forest Science
16, 249-258.
Coleman, H. D., Canam, T., Kang, K.-Y., Ellis, D. D. and Mansfield, S. D. (2007).
Over-expression of UDP-glucose pyrophosphorylase in hybrid poplar
affects carbon allocation. Journal of Experimental Botany 58, 4257-4268.
Coleman, H. D., Park, J. Y., Nair, R., Chapple, C. and Mansfield, S. D. (2008a).
RNAi-mediated suppression of p-coumaroyl-CoA 3 '-hydroxylase in hybrid
poplar impacts lignin deposition and soluble secondary metabolism. Pro-
ceedings of the National Academy of Sciences of the United States of America
105, 4501-4506.
Coleman, H. D., Samuels, A. L., Guy, R. D. and Mansfield, S. D. (2008b). Perturbed
lignification impacts tree growth in hybrid poplar—A function of sink
strength, vascular integrity, and photosynthetic assimilation. Plant Physiol-
ogy 148, 1229-1237.
Custers, R. (2009). First GM trial in Belgium since 2002. Nature Biotechnology 27, 506
506.
Danielsen, L., Th¨ rmer, A., Meinicke, P., Morin, E., Bu´e, M., Pilate, G., Martin, F.,
Daniel, R., Polle, A. and Reich, M. (2011). Fungal diversity in a transgenic
