@article{li_min_wang_peszlen_horvath_horvath_nishimura_jameel_chang_chiang_2011, title={Down-regulation of glycosyltransferase 8D genes in Populus trichocarpa caused reduced mechanical strength and xylan content in wood}, volume={31}, ISSN={["1758-4469"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-79953831391&partnerID=MN8TOARS}, DOI={10.1093/treephys/tpr008}, abstractNote={Members of glycosyltransferase protein families GT8, GT43 and GT47 are implicated in the biosynthesis of xylan in the secondary cell walls of Arabidopsis. The Arabidopsis mutant irx8 has a 60% reduction in xylan. However, over-expression of an ortholog of Arabidopsis IRX8, poplar PoGT8D, in Arabidopsis irx8 mutant could not restore xylan synthesis. The functions of tree GT8D genes remain unclear. We identified two GT8 gene homologs, PtrGT8D1 and PtrGT8D2, in Populus trichocarpa. They are the only two GT8D members and are abundantly and specifically expressed in the differentiating xylem of P. trichocarpa. PtrGT8D1 transcript abundance was >7 times that of PtrGT8D2. To elucidate the genetic function of GT8D in P. trichocarpa, the expression of PtrGT8D1 and PtrGT8D2 was simultaneously knocked down through RNAi. Four transgenic lines had 85-94% reduction in transcripts of PtrGT8D1 and PtrGT8D2, resulting in 29-36% reduction in stem wood xylan content. Xylan reduction had essentially no effect on cellulose quantity but caused an 11-25% increase in lignin. These transgenics exhibit a brittle wood phenotype, accompanied by increased vessel diameter and thinner fiber cell walls in stem xylem. Stem modulus of elasticity and modulus of rupture were reduced by 17-29% and 16-23%, respectively, and were positively correlated with xylan content but negatively correlated with lignin quantity. These results suggest that PtrGT8Ds play key roles in xylan biosynthesis in wood. Xylan may be a more important factor than lignin affecting the stiffness and fracture strength of wood.}, number={2}, journal={TREE PHYSIOLOGY}, publisher={Oxford University Press (OUP)}, author={Li, Quanzi and Min, Douyong and Wang, Jack Peng-Yu and Peszlen, Ilona and Horvath, Laszlo and Horvath, Balazs and Nishimura, Yufuko and Jameel, Hasan and Chang, Hou-Min and Chiang, Vincent L.}, year={2011}, month={Feb}, pages={226–236} }
 @article{sun_cheng_himmel_skory_adney_thomas_tisserat_nishimura_yamamoto_2007, title={Expression and characterization of Acidothermus cellulolyticus E1 endoglucanase in transgenic duckweed Lemna minor 8627}, volume={98}, ISSN={["0960-8524"]}, DOI={10.1016/j.biortech.2006.09.055}, abstractNote={Endoglucanase E1 from Acidothermus cellulolyticus was expressed cytosolically under control of the cauliflower mosaic virus 35S promoter in transgenic duckweed, Lemna minor 8627 without any obvious observable phenotypic effects on morphology or rate of growth. The recombinant enzyme co-migrated with the purified catalytic domain fraction of the native E1 protein on western blot analysis, revealing that the cellulose-binding domain was cleaved near or in the linker region. The duckweed-expressed enzyme was biologically active and the expression level was up to 0.24% of total soluble protein. The endoglucanase activity with carboxymethylcellulose averaged 0.2 units mg protein−1 extracted from fresh duckweed. The optimal temperature and pH for E1 enzyme activity were about 80 °C and pH 5, respectively. While extraction with HEPES (N-[2-hydroxyethyl]piperazine-N′-[2-ethanesulfonic acid]) buffer (pH 8) resulted in the highest recovery of total soluble proteins and E1 enzyme, extraction with citrate buffer (pH 4.8) at 65 °C enriched relative amounts of E1 enzyme in the extract. This study demonstrates that duckweed may offer new options for the expression of cellulolytic enzymes in transgenic plants.}, number={15}, journal={BIORESOURCE TECHNOLOGY}, author={Sun, Ye and Cheng, Jay J. and Himmel, Michael E. and Skory, Christopher D. and Adney, William S. and Thomas, Steven R. and Tisserat, Brent and Nishimura, Yufuko and Yamamoto, Yuri T.}, year={2007}, month={Nov}, pages={2866–2872} }
 @inproceedings{sun_adney_bergmann_cheng_decker_freer_himmel_nishimura_skory_stomp_et al._2002, title={Expression of endoglucanase E1 in transgenic duckweed Lemna minor}, ISBN={1588293874}, booktitle={Biotechnology for fuels and chemicals : proceedings of the Twenty-Fourth Symposium on Biotechnology for Fuels and Chemicals, held April 28-May 1, 2002, in Gatlinburg, TN}, author={Sun, Y. and Adney, W. S. and Bergmann, B. A. and Cheng, J. and Decker, S. R. and Freer, S. and Himmel, M. E. and Nishimura, Y. and Skory, C. D. and Stomp, A.-M and et al.}, year={2002} }