Journal article
Complete substitution of a secondary cell wall with a primary cell wall in Arabidopsis
S Sakamoto, M Somssich, MT Nakata, F Unda, K Atsuzawa, Y Kaneko, T Wang, AM Bågman, A Gaudinier, K Yoshida, SM Brady, SD Mansfield, S Persson, N Mitsuda
Nature Plants | NATURE PUBLISHING GROUP | Published : 2018
Abstract
The bulk of a plant’s biomass, termed secondary cell walls, accumulates in woody xylem tissues and is largely recalcitrant to biochemical degradation and saccharification1. By contrast, primary cell walls, which are chemically distinct, flexible and generally unlignified2, are easier to deconstruct. Thus, engineering certain primary wall characteristics into xylem secondary walls would be interesting to readily exploit biomass for industrial processing. Here, we demonstrated that by expressing AP2/ERF transcription factors from group IIId and IIIe in xylem fibre cells of mutants lacking secondary walls, we could generate plants with thickened cell wall characteristics of primary cell walls i..
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Grants
Awarded by University of Melbourne
Funding Acknowledgements
We thank A. Hosaka, A. Kuwazawa, F. Tobe, M. Yamada, Y. Sugimoto and Y. Takiguchi for their technical support. This work was supported by the JST ALCA program (grant no. JPMJAL1107) (to N.M.), a postdoctoral fellowship from the German Research Foundation (DFG, project 344523413) (to M.S.), University of Melbourne R@MAP Professorship, an ARC Future Fellowship grant (FT160100218) and a UoM IRRTF RNC grant (501892) (to S.P.) and an NSERC Discovery Grant (to S.D.M.).