Search Results - "Resch, Michael G."

Glycosylated linkers in multimodular lignocellulose-degrading enzymes dynamically bind to cellulose by Payne, Christina M, Resch, Michael G, Chen, Liqun, Crowley, Michael F, Himmel, Michael E, Taylor, 2nd, Larry E, Sandgren, Mats, Ståhlberg, Jerry, Stals, Ingeborg, Tan, Zhongping, Beckham, Gregg T

“…Plant cell-wall polysaccharides represent a vast source of food in nature. To depolymerize polysaccharides to soluble sugars, many organisms use…”
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Predicting Enzyme Adsorption to Lignin Films by Calculating Enzyme Surface Hydrophobicity by Sammond, Deanne W., Yarbrough, John M., Mansfield, Elisabeth, Bomble, Yannick J., Hobdey, Sarah E., Decker, Stephen R., Taylor, Larry E., Resch, Michael G., Bozell, Joseph J., Himmel, Michael E., Vinzant, Todd B., Crowley, Michael F.

“…The inhibitory action of lignin on cellulase cocktails is a major challenge to the biological saccharification of plant cell wall polysaccharides. Although the…”
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Specificity of O-glycosylation in enhancing the stability and cellulose binding affinity of Family 1 carbohydrate-binding modules by Chen, Liqun, Drake, Matthew R., Resch, Michael G., Greene, Eric R., Himmel, Michael E., Chaffey, Patrick K., Beckham, Gregg T., Tan, Zhongping

“…The majority of biological turnover of lignocellulosic biomass in nature is conducted by fungi, which commonly use Family 1 carbohydrate-binding modules (CBMs)…”
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Replacement of histone H3 with CENP-A directs global nucleosome array condensation and loosening of nucleosome superhelical termini by Panchenko, Tanya, Sorensen, Troy C, Woodcock, Christopher L, Kan, Zhong-yuan, Wood, Stacey, Resch, Michael G, Luger, Karolin, Englander, S. Walter, Hansen, Jeffrey C, Black, Ben E

“…Centromere protein A (CENP-A) is a histone H3 variant that marks centromere location on the chromosome. To study the subunit structure and folding of human…”
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The O-Glycosylated Linker from the Trichoderma reesei Family 7 Cellulase Is a Flexible, Disordered Protein by Beckham, Gregg T., Bomble, Yannick J., Matthews, James F., Taylor, Courtney B., Resch, Michael G., Yarbrough, John M., Decker, Steve R., Bu, Lintao, Zhao, Xiongce, McCabe, Clare, Wohlert, Jakob, Bergenstråhle, Malin, Brady, John W., Adney, William S., Himmel, Michael E., Crowley, Michael F.

“…Fungi and bacteria secrete glycoprotein cocktails to deconstruct cellulose. Cellulose-degrading enzymes (cellulases) are often modular, with catalytic domains…”
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Reductive Catalytic Fractionation of Corn Stover Lignin by Anderson, Eric M, Katahira, Rui, Reed, Michelle, Resch, Michael G, Karp, Eric M, Beckham, Gregg T, Román-Leshkov, Yuriy

“…Reductive catalytic fractionation (RCF) has emerged as an effective biomass pretreatment strategy to depolymerize lignin into tractable fragments in high…”
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Mechanisms employed by cellulase systems to gain access through the complex architecture of lignocellulosic substrates by Donohoe, Bryon S, Resch, Michael G

“…•Novel imaging and sample preparation reveales enzymatic deconstruction mechanisms.•Disrupting lignin and cellulose crystallinity enhances enzymatic…”
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Revealing Nature's Cellulase Diversity: The Digestion Mechanism of Caldicellulosiruptor bescii CelA by Brunecky, Roman, Alahuhta, Markus, Xu, Qi, Donohoe, Bryon S., Crowley, Michael F., Kataeva, Irina A., Yang, Sung-Jae, Resch, Michael G., Adams, Michael W. W., Lunin, Vladimir V., Himmel, Michael E., Bomble, Yannick J.

“…Most fungi and bacteria degrade plant cell walls by secreting free, complementary enzymes that hydrolyze cellulose; however, some bacteria use large enzymatic…”
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Using Incremental Changes to Convert Lignocellulosic Feedstocks to Cellulosic Ethanol by Resch, Michael G., Emme, Brandon

“…One billion tons of biomass feedstocks have been identified for the production of renewable biofuels and biochemicals. This is one of the key carbon feedstocks…”
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Engineered yeast tolerance enables efficient production from toxified lignocellulosic feedstocks by Lam, Felix H., Turanlı-Yıldız, Burcu, Liu, Dany, Resch, Michael G., Fink, Gerald R., Stephanopoulos, Gregory

“…Rationally engineered tolerance enables broadly efficient lignocellulosic fermentation of diverse feedstocks and bioproducts. Lignocellulosic biomass remains…”
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Alkaline Pretreatment of Switchgrass by Karp, Eric M, Resch, Michael G, Donohoe, Bryon S, Ciesielski, Peter N, O’Brien, Marykate H, Nill, Jennifer E, Mittal, Ashutosh, Biddy, Mary J, Beckham, Gregg T

“…Alkaline pretreatment using sodium hydroxide offers a means to extract lignin and acetate from lignocellulosic biomass, in turn enabling higher enzymatic…”
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O‐glycosylation effects on family 1 carbohydrate‐binding module solution structures by Happs, Renee M, Guan, Xiaoyang, Resch, Michael G, Davis, Mark F, Beckham, Gregg T, Tan, Zhongping, Crowley, Michael F

“…Family 1 carbohydrate‐binding modules (CBMs) are ubiquitous components of multimodular fungal enzymes that degrade plant cell wall polysaccharides and bind…”
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Understanding Limitations in Electrochemical Conversion to CO at Low CO 2 Concentrations by Henckel, Danielle A, Saha, Prantik, Rajana, Sunil, Baez-Cotto, Carlos, Taylor, Audrey K, Liu, Zengcai, Resch, Michael G, Masel, Richard I, Neyerlin, K C

“…Low-temperature electrochemical CO reduction has demonstrated high selectivity for CO when devices are operated with pure CO streams. However, there is…”
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Multiscale Characterization of Lignocellulosic Biomass Variability and Its Implications to Preprocessing and Conversion: a Case Study for Corn Stover by Ray, Allison E, Williams, C. Luke, Hoover, Amber N, Li, Chenlin, Sale, Kenneth L, Emerson, Rachel M, Klinger, Jordan, Oksen, Ethan, Narani, Akash, Yan, Jipeng, Beavers, Christine M, Tanjore, Deepti, Yunes, Manal, Bose, Elizabeth, Leal, Juan H, Bowen, Julie L, Wolfrum, Edward J, Resch, Michael G, Semelsberger, Troy A, Donohoe, Bryon S

“…Feedstock variability that originates from biomass production and field conditions propagates through the value chain, posing a significant challenge to the…”
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Throughput, Reliability, and Yields of a Pilot-Scale Conversion Process for Production of Fermentable Sugars from Lignocellulosic Biomass: A Study on Feedstock Ash and Moisture by Sievers, David A, Kuhn, Erik M, Thompson, Vicki S, Yancey, Neal A, Hoover, Amber N, Resch, Michael G, Wolfrum, Edward J

“…Early lignocellulosic biorefineries have been plagued with numerous issues that involve feedstock handling problems and variations in conversion efficacy that…”
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Interrelationships between cellulase activity and cellulose particle morphology by Olsen, Johan P., Donohoe, Bryon S., Borch, Kim, Westh, Peter, Resch, Michael G.

“…It is well documented that the enzymatic hydrolysis of cellulose follows a reaction pattern where an initial phase of relatively high activity is followed by a…”
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Impacts of Inorganic Material (Total Ash) on Surface Energy, Wettability, and Cohesion of Corn Stover by Leal, Juan H, Torres, Estrella L, Rouse, William Travis, Moore, Cameron M, Sutton, Andrew D, Hoover, Amber N, Li, Chenlin, Resch, Michael G, Donohoe, Bryon S, Ray, Allison E, Semelsberger, Troy A

“…The impacts and variability of inorganic material (measured as total ash) on surface area, surface energy, wettability, and cohesion of corn stover samples…”
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Understanding Limitations in Electrochemical Conversion to CO at Low CO2 Concentrations by Henckel, Danielle A., Saha, Prantik, Rajana, Sunil, Baez-Cotto, Carlos, Taylor, Audrey K., Liu, Zengcai, Resch, Michael G., Masel, Richard I., Neyerlin, K. C.

“…Low-temperature electrochemical CO2 reduction has demonstrated high selectivity for CO when devices are operated with pure CO2 streams. However, there is…”
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Molecular-scale features that govern the effects of O -glycosylation on a carbohydrate-binding module by Guan, Xiaoyang, Chaffey, Patrick K, Zeng, Chen, Greene, Eric R, Chen, Liqun, Drake, Matthew R, Chen, Claire, Groobman, Ari, Resch, Michael G, Himmel, Michael E, Beckham, Gregg T, Tan, Zhongping

“…Protein glycosylation is a ubiquitous post-translational modification in all kingdoms of life. Despite its importance in molecular and cellular biology, the…”
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Editorial overview: Energy: Prospects for fuels and chemicals from a biomass-based biorefinery using post-genomic chemical biology tools by Bugg, Timothy DH, Resch, Michael G

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