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Additional file 1 of Down-regulation of OsMYB103L distinctively alters beta-1,4-glucan polymerization and cellulose microfibers assembly for enhanced biomass enzymatic saccharification in rice

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posted on 2021-12-28, 04:15 authored by Leiming Wu, Mingliang Zhang, Ran Zhang, Haizhong Yu, Hailang Wang, Jingyang Li, Youmei Wang, Zhen Hu, Yanting Wang, Zi Luo, Lin Li, Lingqiang Wang, Liangcai Peng, Tao Xia
Additional file 1: Figure S1. Analysis of agronomic traits of myb103 mutant and OsMYB103L-RNAi transgenic plant. A Stem strength, B plant height, C lodging index and D 1000-Grain weight of myb103 mutant and OsMYB103L-RNAi transgenic plant (RNAi-1) compared with WT. **As significant differences between myb103 and RNAi-1 with WT at p < 0.01 (n = 10). Figure S2. Quantitative measurement of cell wall thickness by transmission electron microscopy in myb103 mutant and OsMYB103L-RNAi transgenic plant. * and ** As significant differences between myb103 and RNAi-1 with WT at p < 0.05 and 0.01 (n=3), respectively. Figure S3. Fourier transform infrared spectroscopic profiling of mature straws of the myb103 mutant and OsMYB103L-RNAi-1 transgenic line. Figure S4. Peak enrichment of OsCESA4, OsCESA7 and OsCESA9 by OsMYB103L through DAP-seq analysis. Figure S5. Subcellular localization and transactivation analysis of OsMYB103L. A Subcellular localization of OsMYB103L in tobacco. B Transcription activation analysis of OsMYB103L in yeast.

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National Natural Science Foundation of China Postdoctoral Research Foundation of China

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    Biotechnology for Biofuels

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    Keywords

    Cellulose synthesisCellulose polymerizationMicrofibril assemblyOsMYBsMulti-omicsBiomass saccharificationFragile culmRice

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