Biology Reference
In-Depth Information
McCarthy, R. L., Zhong, R. and Ye, Z. H. (2009). MYB83 is a direct target of SND1
and acts redundantly with MYB46 in the regulation of secondary cell wall
biosynthesis in Arabidopsis. Plant & Cell Physiology 50, 1950-1964.
McCarthy, R. L., Zhong, R., Fowler, S., Lyskowski, D., Piyasena, H., Carleton, K.,
Spicer, C. and Ye, Z. H. (2010). The poplar MYB transcription factors,
PtrMYB3 and PtrMYB20, are involved in the regulation of secondary wall
biosynthesis. Plant & Cell Physiology 51, 1084-1090.
Menden, B., Kohlhoff, M. and Moerschbacher, B. M. (2007). Wheat cells accumulate
a syringyl-rich lignin during the hypersensitive resistance response. Phyto-
chemistry 68, 513-520.
Mitsuda, N. and Ohme-Takagi, M. (2008). NAC transcription factors NST1 and
NST3 regulate pod shattering in a partially redundant manner by promot-
ing secondary wall formation after the establishment of tissue identity.
The Plant Journal 56, 768-778.
Mitsuda, N., Seki, M., Shinozaki, K. and Ohme-Takagi, M. (2005). The NAC transcrip-
tion factors NST1 and NST2 of Arabidopsis regulate secondary wall thicken-
ings and are required for anther dehiscence. The Plant Cell 17, 2993-3006.
Mitsuda, N., Iwase, A., Yamamoto, H., Yoshida, M., Seki, M., Shinozaki, K. and
Ohme-Takagi, M. (2007). NAC transcription factors, NST1 and NST3, are
key regulators of the formation of secondary walls in woody tissues of
Arabidopsis. The Plant Cell 19, 270-280.
Novaes, E., Kirst, M., Chiang, V., Winter-Sederoff, H. and Sederoff, R. (2010).
Lignin and biomass: A negative correlation for wood formation and lignin
content in trees. Plant Physiology 154, 555-561.
Ohashi-Ito, K., Oda, Y. and Fukuda, H. (2010). Arabidopsis VASCULAR-RELATED
NAC-DOMAIN6 directly regulates the genes that govern programmed cell
death and secondary wall formation during xylem differentiation. The Plant
Cell 22, 3461-3473.
Ohta, M., Matsui, K., Hiratsu, K., Shinshi, H. and Ohme-Takagi, M. (2001). Repres-
sion domains of class II ERF transcriptional repressors share an essential
motif for active repression. The Plant Cell 13, 1959-1968.
Ohtani, M., Nishikubo, N., Xu, B., Yamaguchi, M., Mitsuda, N., Gou´, N., Shi, F.,
Ohme-Takagi, M. and Demura, T. (2011). A NAC domain protein family
contributing to the regulation of wood formation in poplar. The Plant
Journal 67, 499-512.
Park, M. Y., Kang, J. Y. and Kim, S. Y. (2011). Overexpression of AtMYB52 confers
ABA hypersensitivity and drought tolerance. Molecules and Cells 31, 447-454.
Patzlaff, A., McInnis, S., Courtenay, A., Surman, C., Newman, L. J., Smith, C.,
Bevan, M. W., Mansfield, S., Whetten, R. W., Sederoff, R. R. and
Campbell, M. M. (2003). Characterisation of a pine MYB that regulates
lignification. The Plant Journal 36, 743-754.
Paux, E., Carocha, V., Marques, C., Mendes de Sousa, A. M. D., Sivadon, P. and
Grima-Pettenati, J. (2005). Transcript profiling of Eucalyptus xylem genes
during tension wood formation. The New Phytologist 167, 89-99.
Pitre, F. E., Lafarguette, F., Boyle, B., Pavy, N., Caron, S., Dallaire, N., Poulin, P. L.,
Ouellet, M., Morency, M. J., Wiebe, N., Ly Lim, E., Urbain, A. et al. (2010).
High nitrogen fertilization and stem leaning have overlapping effects on
wood formation in poplar but invoke largely distinct molecular pathways.
Tree Physiology 30, 1273-1289.
Preston, J., Wheeler, J., Heazlewood, J., Li, S. F. and Parish, R. W. (2004). AtMYB32
is required for normal pollen development in Arabidopsis thaliana. The Plant
Journal 40, 979-995.
