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  • Ning Xu, Wei Zhang, +12 authors Liangcai Peng
  • Medicine, Biology
  • Biotechnology for Biofuels
  • 2012 (First Publication: 11 August 2012)
  • BackgroundLignocellulose is the most abundant biomass on earth. However, biomass recalcitrance has become a major factor affecting biofuel production. Although cellulose crystallinity significantlyContinue Reading
  • Fengcheng Li, Shuangfeng Ren, +18 authors Liangcai Peng
  • Chemistry, Medicine
  • Bioresource technology
  • 2013 (First Publication: 1 February 2013)
  • Xylans are the major hemicelluloses in grasses, but their effects on biomass saccharification remain unclear. In this study, we examined the 79 representative Miscanthus accessions that displayed aContinue Reading
  • Yu Huang, Xiaoyang Wei, +9 authors Tao Xia
  • Medicine, Chemistry
  • Bioresource technology
  • 2015 (First Publication: 1 April 2015)
  • In this study, steam explosion pretreatment was performed in cotton stalks, leading to 5-6 folds enhancements on biomass enzymatic saccharification distinctive in Gossypium barbadense and GossypiumContinue Reading
  • Lexing Huang, Wenbin Zheng, +4 authors Hongyi Zheng
  • Medicine
  • PloS one
  • 2015 (First Publication: 20 October 2015)
  • Although conventional structural MRI provides vital information in the evaluation of congenital sensorineural hearing loss (SNHL), it is relatively insensitive to white matter microstructure. OurContinue Reading
  • Fengcheng Li, Guosheng Xie, +11 authors Liangcai Peng
  • Medicine, Biology
  • Plant biotechnology journal
  • 2017 (First Publication: 15 March 2017)
  • Summary Genetic modification of plant cell walls has been posed to reduce lignocellulose recalcitrance for enhancing biomass saccharification. Since cellulose synthase (CESA) gene was firstContinue Reading