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作者:Yining Zeng , Michael E. Himmel , Shi-You Ding
来源:[J].Biotechnology for Biofuels(IF 5.552), 2017, Vol.10 (1)
摘要:Understanding plant cell wall cross-linking chemistry and polymeric architecture is key to the efficient utilization of biomass in all prospects from rational genetic modification to downstream chemical and biological conversion to produce fuels and value chemicals. In fact,...
作者:Shi-You Ding , John E. Mullet
来源:[J].Industrial Crops & Products(IF 2.468), 2018, Vol.124, pp.607-616
摘要:Abstract(#br)Sorghum offers enormous potential as a feedstock for the production of fuels and chemicals from both water-extractable sugars and the cell wall biopolymers, while its within-plant structural and compositional heterogeneity may allow for physical fractionations t...
作者:... Mona S Hwang , Shi-You Ding , Michael P Thelen
来源:[J].PLoS ONE(IF 3.73), 2017, Vol.8 (7)
摘要:Plant lignocellulose constitutes an abundant and sustainable source of polysaccharides that can be converted into biofuels. However, the enzymatic digestion of native plant cell walls is inefficient, presenting a considerable barrier to cost-effective biofuel production. In addit...
作者:Shi-You Ding , Michael E. Himmel
来源:[J].Biomass and Bioenergy(IF 2.975), 2015, Vol.72, pp.55-64
摘要:Abstract(#br)Reducing the severity of thermochemical pretreatment by incorporating iron ions as co-catalysts has been shown to enhance the sugar yield from dilute acid pretreatments and enzymatic saccharification. However, current approach of soaking iron containing acid sol...
作者:Shi-You Ding , Arthur J. Ragauskas
来源:[J].Phytochemistry(IF 3.05), 2015, Vol.112, pp.170-178
摘要:Abstract(#br)Pinoresinol reductase (PrR) catalyzes the conversion of the lignan (−)-pinoresinol to (−)-lariciresinol in Arabidopsis thaliana , where it is encoded by two genes, PrR1 and PrR2 , that appear to act redundantly. PrR1 is highly expressed in lignified inflorescenc...
作者:Shi-You Ding , Qi Xu ...
来源:[J].Current Opinion in Biotechnology(IF 7.86), 2008, Vol.19 (3), pp.218-227
摘要:The cellulosome is a multiprotein complex, produced primarily by anaerobic microorganisms, which functions to degrade lignocellulosic materials. An important topic of current debate is whether cellulosomal systems display greater ability to deconstruct complex biomass materials (...
作者:... Shuai Zhao , Shihui Yang , Shi-You Ding
来源:[J].Current Opinion in Biotechnology(IF 7.86), 2014, Vol.27, pp.38-45
摘要:A biochemical platform holds the most promising route toward lignocellulosic biofuels, in which polysaccharides are hydrolyzed by cellulase enzymes into simple sugars and fermented to ethanol by microbes. However, these polysaccharides are cross-linked in the plant cell walls wit...
作者:... William S. Adney , Shi-You Ding , Michael E. Himmel
来源:[J].Trends in Biotechnology(IF 9.66), 2008, Vol.26 (8), pp.413-424
摘要:The concept of expressing non-plant glycosyl hydrolase genes in plant tissue is nearly two decades old, yet relatively little work in this field has been reported. However, resurgent interest in technologies aimed at enabling processes that convert biomass to sugars and fuels has...
作者:Shi-You Ding , Michael E. Himmel
来源:[J].Journal of Molecular Biology(IF 3.905), 2010, Vol.402 (2), pp.374-387
摘要:Abstract(#br)The crystal structure of the carbohydrate-binding module (CBM) 4 Ig fused domain from the cellulosomal cellulase cellobiohydrolase A (CbhA) of Clostridium thermocellum was solved in complex with cellobiose at 2.11 Å resolution. This is the first cellulosomal CBM...
作者:... John O Baker , Melvin P Tucker , Shi-You Ding
来源:[J].Current Opinion in Biotechnology(IF 7.86), 2009, Vol.20 (3), pp.330-338
摘要:Natural processes of recycling carbon from plant cell walls are slow but very efficient, generally involving microbial communities and their secreted enzymes. Efficient combinations of microbial communities and enzymes act in a sequential and synergistic manner to degrade pl...

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