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Brian H Davison

Showing results (51-60 of 62) with videos related to

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ACS Sustainable Chemistry & Engineering|February 9, 2024
Economic and Sustainability Impacts of Yield and Composition Variation in Bioenergy Crops: Switchgrass (<i>Panicum virgatum</i> L.)Renee M Happs, Rebecca J Hanes, Andrew W Bartling, et al.
Biotechnology for Biofuels|September 25, 2012
Down-regulation of the caffeic acid O-methyltransferase gene in switchgrass reveals a novel monolignol analogTimothy J Tschaplinski, Robert F Standaert, Nancy L Engle, et al.
Frontiers in Plant Science|July 9, 2020
Silencing <i>Folylpolyglutamate Synthetase1</i> (<i>FPGS1</i>) in Switchgrass (<i>Panicum virgatum</i> L.) Improves Lignocellulosic Biofuel ProductionMitra Mazarei, Holly L Baxter, Avinash Srivastava, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 27, 2019
Technoeconomic and life-cycle analysis of single-step catalytic conversion of wet ethanol into fungible fuel blendstocksJohn R Hannon, Lee R Lynd, Onofre Andrade, et al.
Biotechnology for Biofuels|June 18, 2016
Strain and bioprocess improvement of a thermophilic anaerobe for the production of ethanol from woodChristopher D Herring, William R Kenealy, A Joe Shaw, et al.
BMC Systems Biology|June 27, 2015
Genome-scale resources for Thermoanaerobacterium saccharolyticumDevin H Currie, Babu Raman, Christopher M Gowen, et al.
ACS Sustainable Chemistry & Engineering|April 10, 2026
Higher Wood Density Lowers Feedstock Cost and Has Minimal Impact on Biomass Conversion to BiofuelsRaphael Ap Ployet, Chanaka Roshan Abeyratne, Robin J Clark, et al.
Plant Biotechnology Journal|November 19, 2016
Transgenic switchgrass (Panicum virgatum L.) targeted for reduced recalcitrance to bioconversion: a 2-year comparative analysis of field-grown lines modified for target gene or genetic element expressionAlexandru Dumitrache, Jace Natzke, Miguel Rodriguez, et al.
Biotechnology for Biofuels|January 25, 2019
Multiple levers for overcoming the recalcitrance of lignocellulosic biomassEvert K Holwerda, Robert S Worthen, Ninad Kothari, et al.
Biotechnology for Biofuels|February 19, 2019
Correction to: Multiple levers for overcoming the recalcitrance of lignocellulosic biomassEvert K Holwerda, Robert S Worthen, Ninad Kothari, et al.
Pageof 7

Showing results (51-60 of 62) with videos related to

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Pageof 7
ACS Sustainable Chemistry & Engineering|February 9, 2024
Economic and Sustainability Impacts of Yield and Composition Variation in Bioenergy Crops: Switchgrass (<i>Panicum virgatum</i> L.)Renee M Happs, Rebecca J Hanes, Andrew W Bartling, et al.
Biotechnology for Biofuels|September 25, 2012
Down-regulation of the caffeic acid O-methyltransferase gene in switchgrass reveals a novel monolignol analogTimothy J Tschaplinski, Robert F Standaert, Nancy L Engle, et al.
Frontiers in Plant Science|July 9, 2020
Silencing <i>Folylpolyglutamate Synthetase1</i> (<i>FPGS1</i>) in Switchgrass (<i>Panicum virgatum</i> L.) Improves Lignocellulosic Biofuel ProductionMitra Mazarei, Holly L Baxter, Avinash Srivastava, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 27, 2019
Technoeconomic and life-cycle analysis of single-step catalytic conversion of wet ethanol into fungible fuel blendstocksJohn R Hannon, Lee R Lynd, Onofre Andrade, et al.
Biotechnology for Biofuels|June 18, 2016
Strain and bioprocess improvement of a thermophilic anaerobe for the production of ethanol from woodChristopher D Herring, William R Kenealy, A Joe Shaw, et al.
BMC Systems Biology|June 27, 2015
Genome-scale resources for Thermoanaerobacterium saccharolyticumDevin H Currie, Babu Raman, Christopher M Gowen, et al.
ACS Sustainable Chemistry & Engineering|April 10, 2026
Higher Wood Density Lowers Feedstock Cost and Has Minimal Impact on Biomass Conversion to BiofuelsRaphael Ap Ployet, Chanaka Roshan Abeyratne, Robin J Clark, et al.
Plant Biotechnology Journal|November 19, 2016
Transgenic switchgrass (Panicum virgatum L.) targeted for reduced recalcitrance to bioconversion: a 2-year comparative analysis of field-grown lines modified for target gene or genetic element expressionAlexandru Dumitrache, Jace Natzke, Miguel Rodriguez, et al.
Biotechnology for Biofuels|January 25, 2019
Multiple levers for overcoming the recalcitrance of lignocellulosic biomassEvert K Holwerda, Robert S Worthen, Ninad Kothari, et al.
Biotechnology for Biofuels|February 19, 2019
Correction to: Multiple levers for overcoming the recalcitrance of lignocellulosic biomassEvert K Holwerda, Robert S Worthen, Ninad Kothari, et al.
Pageof 7