F
Fengcheng Li
Researcher at Huazhong Agricultural University
Publications - 7
Citations - 604
Fengcheng Li is an academic researcher from Huazhong Agricultural University. The author has contributed to research in topics: Miscanthus & Biomass. The author has an hindex of 7, co-authored 7 publications receiving 478 citations.
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Journal ArticleDOI
High-level hemicellulosic arabinose predominately affects lignocellulose crystallinity for genetically enhancing both plant lodging resistance and biomass enzymatic digestibility in rice mutants.
Fengcheng Li,Mingliang Zhang,Kai Guo,Zhen Hu,Ran Zhang,Yongqing Feng,Xiaoyan Yi,Weihua Zou,Lingqiang Wang,Changyin Wu,Jinshan Tian,Tiegang Lu,Guosheng Xie,Liangcai Peng +13 more
TL;DR: The results have suggested the potential cell wall modifications for enhancing both biomass enzymatic digestibility and plant lodging resistance by synchronically overexpressing GH9B and XAT genes in rice.
Journal ArticleDOI
Arabinose substitution degree in xylan positively affects lignocellulose enzymatic digestibility after various NaOH/H2SO4 pretreatments in Miscanthus.
Fengcheng Li,Shuangfeng Ren,Wei Zhang,Zhengdan Xu,Xie Guosheng,Yan Chen,Yuanyuan Tu,Qing Li,Shiguang Zhou,Yu Li,Fen Tu,Lin Liu,Yanting Wang,Jianxiong Jiang,Jingping Qin,Shizhong Li,Qiwei Li,Hai-Chun Jing,Fasong Zhou,Neal I. Gutterson,Liangcai Peng +20 more
TL;DR: Insight is provided into the mechanism of lignocellulose enzymatic digestion upon pretreatment, and a goal for the genetic modification of hemicelluloses towards the bioenergy crop breeding of Miscanthus and grasses is suggested.
Journal ArticleDOI
Biomass digestibility is predominantly affected by three factors of wall polymer features distinctive in wheat accessions and rice mutants.
Zhiliang Wu,Mingliang Zhang,Lingqiang Wang,Yuanyuan Tu,Jing Zhang,Guosheng Xie,Weihua Zou,Fengcheng Li,Kai Guo,Qing Li,Chunbao Gao,Liangcai Peng +11 more
TL;DR: Using nine typical pairs of wheat and rice samples having distinct cell wall compositions and wide biomass saccharification, Ara substitution degree and monolignin H proportion have been revealed to be the dominant factors positively determining biomass digestibility upon various chemical pretreatments.
Journal ArticleDOI
OsCESA9 conserved-site mutation leads to largely enhanced plant lodging resistance and biomass enzymatic saccharification by reducing cellulose DP and crystallinity in rice
Fengcheng Li,Guosheng Xie,Jiangfeng Huang,Ran Zhang,Yu Li,Miaomiao Zhang,Yanting Wang,Ao Li,Xukai Li,Tao Xia,Chengcheng Qu,Fan Hu,Arthur J. Ragauskas,Liangcai Peng +13 more
TL;DR: CESA co‐IP detection, together with implementations of a proteasome inhibitor and two distinct cellulose inhibitors, shows that CESA9 mutation could affect integrity of CESA4/7/9 complexes, which may lead to rapid CESA proteasomesome degradation for low‐DP cellulose biosynthesis.
Journal ArticleDOI
Global identification of multiple OsGH9 family members and their involvement in cellulose crystallinity modification in rice.
Guosheng Xie,Bo Yang,Zhengdan Xu,Fengcheng Li,Kai Guo,Mingliang Zhang,Lingqiang Wang,Weihua Zou,Yanting Wang,Liangcai Peng +9 more
TL;DR: The results showed that OsGH9A3 and B5 possessed an extremely high co- expression with OsCESA1, 3, and 8 typical for cellulose biosynthesis in rice, and phylogenetic analysis and gene co-expression comparison revealed GH9 function similarity in Arabidopsis and rice.