5 research outputs found
Elaeagnus montana Makino var. ovata Araki
原著和名: ツクバグミ ニッカウナツグミ科名: グミ科 = Elaeagnaceae採集地: 栃木県 日光市 戦場ヶ原 (下野 戦場ヶ原)採集日: 1979/7/16採集者: 萩庭丈壽整理番号: JH034459国立科学博物館整理番号: TNS-VS-98445
MOESM3 of Sugarcane transgenics expressing MYB transcription factors show improved glucose release
Additional file 3: Table S2. Normalized lignin biosynthetic genes ΔCt values for MYB-expressing plants. Values normalized against average control ΔCt value for each gene. Values represent initial expression screening of leaf tissue and post-harvest expression results from young internode tissue and maturing internode tissue. NE: Normalized expression with standard error of the mean shown. Samples significantly different to the controls after ANOVA, p = 0.05, are shown in bold. Control n = 3. Plants are listed in ascending total lignin content for each line
MOESM5 of Sugarcane transgenics expressing MYB transcription factors show improved glucose release
Additional file 5: Table S4. Glucose release by enzymatic hydrolysis. Glucose released into enzymatic hydrolysis solution (mg/mL) per gram (g) of bagasse measured at six time points over 72 h. The glucose released is shown with standard error of the mean. Samples significantly different to the control group after ANOVA followed by LSD test, p = 0.05, are shown in bold. Control n = 3
MOESM5 of RNAi downregulation of three key lignin genes in sugarcane improves glucose release without reduction in sugar production
Additional file 5: Table S5. Glucose (mg/g) released via limited enzymatic hydrolysis. Glucose released per gram of bagasse measured at six time points for CCoAOMT, F5H and COMT RNAi plants. The glucose released is shown with the standard error of the mean. Samples significantly different to controls after a one-way ANOVA, p < 0.05 are shown in bold. Plants for each line are listed in ascending order of total lignin content. Avg is the mean of the lines within each construct
MOESM4 of Development and use of a switchgrass (Panicum virgatum L.) transformation pipeline by the BioEnergy Science Center to evaluate plants for reduced cell wall recalcitrance
Additional file 4. Diagram illustrating position of three RNAi construct sequences used to silence HCTs in switchgrass. Sequences amplified and expressed in switchgrass to silence HCT1 (HCT1RNAi, purple box), HCT2 (HCT2RNAi, red box), and HCT 1 and 2 together (HCT1/2RNAi, blue box) are shown within the aligned PvHCT sequences. Areas with identity between the sequences are highlighted