Variation of S/G ratio and lignin content in a Populus family influences the release of xylose by dilute acid hydrolysis

Brian H. Davison, Sadie R. Drescher, Gerald A. Tuskan, Mark F. Davis, Nhuan P. Nghiem

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Abstract

Wood samples from a second generation Populus cross were shown to have different lignin contents and S/G ratios (S: syringyl-like lignin structures; G: guaiacyl-like lignin structures). The lignin contents varied from 22.7% to 25.8% and the S/G ratio from 1.8 to 2.3. Selected samples spanning these ranges were hydrolyzed with dilute (1%) sulfuric acid to release fermentable sugars. The conditions were chosen for partial hydrolysis of the hemicellulosic fraction to maximize the expression of variation among samples. The results indicated that both lignin contents and S/G ratio significantly affected the yield of xylose. For example, the xylose yield of the 25.8% lignin and 2.3 S/G (high lignin, high S/G) sample produced 30% of the theoretical yield, whereas the xylose yield of the 22.7% lignin and 1.8 S/G (low lignin, low S/G) was 55% of the theoretical value. These results indicate that lignin content and composition among genetic variants within a single species can influence the hydrolyzability of the biomass.

Original languageEnglish
Pages (from-to)427-435
Number of pages9
JournalApplied Biochemistry and Biotechnology
Volume130
Issue number1-3
DOIs
StatePublished - 2006

Funding

Lee Gunter, of Oak Ridge National Laboratory (ORNL) assisted in the sample selection and milling. Catherine Cheng, (now at Eli Lilly) performed the statistical analysis of the data set. We are grateful to Wilfred Vermerris, of Purdue for additional references on animal digestibility. This work was supported by the ORNL’s Laboratory Director’s Research and Development Fund. ORNL is operated under contract for the US Department of Energy under contract no. DE-AC05-00OR22725.

FundersFunder number
ORNL’s Laboratory Director’s Research and Development Fund
US Department of Energy

    Keywords

    • Cell wall chemistry
    • Genetic variation
    • Hybrid poplar
    • Hydrolysis
    • Lignin

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