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173 results on '"Baker, John O."'

1. Undefined cellulase formulations hinder scientific reproducibility

Author

Himmel, Michael E, Abbas, Charles A, Baker, John O, Bayer, Edward A, Bomble, Yannick J, Brunecky, Roman, Chen, Xiaowen, Felby, Claus, Jeoh, Tina, Kumar, Rajeev, McCleary, Barry V, Pletschke, Brett I, Tucker, Melvin P, Wyman, Charles E, and Decker, Stephen R

Subjects
Biological Sciences, Industrial Biotechnology, Cellulase, Cellulose, Biofuels, Assays, Commercial cellulase formulations, Chemical Engineering, Biochemistry and cell biology, Industrial biotechnology
Abstract

In the shadow of a burgeoning biomass-to-fuels industry, biological conversion of lignocellulose to fermentable sugars in a cost-effective manner is key to the success of second-generation and advanced biofuel production. For the effective comparison of one cellulase preparation to another, cellulase assays are typically carried out with one or more engineered cellulase formulations or natural exoproteomes of known performance serving as positive controls. When these formulations have unknown composition, as is the case with several widely used commercial products, it becomes impossible to compare or reproduce work done today to work done in the future, where, for example, such preparations may not be available. Therefore, being a critical tenet of science publishing, experimental reproducibility is endangered by the continued use of these undisclosed products. We propose the introduction of standard procedures and materials to produce specific and reproducible cellulase formulations. These formulations are to serve as yardsticks to measure improvements and performance of new cellulase formulations.

Published
2017

5. Heterologous Expression of Two Ferulic Acid Esterases from Penicillium funiculosum

Author

Knoshaug, Eric P., Selig, Michael J., Baker, John O., Decker, Stephen R., Himmel, Michael E., Adney, William S., Mulchandani, Ashok, editor, Aizawa, M., editor, Arnold, M. A., editor, Bachas, L., editor, Bachmann, T. T., editor, Belkin, S., editor, Blanch, Harvey W., editor, Cha, H. J., editor, Chuan-Ling, Q., editor, Da Silva, Nancy A., editor, DeLisa, M., editor, Deshusses, M., editor, Dordick, J. S., editor, Eldefrawi, M. E., editor, Gu, M. B., editor, Jain, R. K., editor, Karanth, N. G., editor, Kelly, R., editor, Klibanov, A. M., editor, Krull, U. J., editor, Ladish, M. R., editor, Lee, K., editor, Lee, Y. Y., editor, Ligler, F. S., editor, Linhardt, R., editor, Pandey, A., editor, Pishko, M., editor, Renugopalakrishnan, V., editor, Ryu, D., editor, Seibert, M., editor, Tan, W., editor, Ueda, Mitsuyoshi, editor, Varfolomeyev, S. D., editor, Xu, J. -H., editor, Wang, P., editor, Wyman, C. E., editor, Zhao, H., editor, Chen, Wilfred, editor, Csoregi, Elisabeth, editor, Murhammer, David W., editor, Singh, Anup K., editor, Mulchandaui, Priti, editor, Adney, William S., editor, McMillan, James D., editor, Mielenz, Jonathan, editor, and Klasson, K. Thomas, editor

Published
2008
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6. Heterologous Expression of Aspergillus niger β-d-Xylosidase (XlnD): Characterization on Lignocellulosic Substrates

Author

Selig, Michael J., Knoshaug, Eric P., Decker, Stephen R., Baker, John O., Himmel, Michael E., Adney, William S., Mulchandani, Ashok, editor, Aizawa, M., editor, Arnold, M. A., editor, Bachas, L., editor, Bachmann, T. T., editor, Belkin, S., editor, Blanch, Harvey W., editor, Cha, H. J., editor, Chuan-Ling, Q., editor, Da Silva, Nancy A., editor, DeLisa, M., editor, Deshusses, M., editor, Dordick, J. S., editor, Eldefrawi, M. E., editor, Gu, M. B., editor, Jain, R. K., editor, Karanth, N. G., editor, Kelly, R., editor, Klibanov, A. M., editor, Krull, U. J., editor, Ladish, M. R., editor, Lee, K., editor, Lee, Y. Y., editor, Ligler, F. S., editor, Linhardt, R., editor, Pandey, A., editor, Pishko, M., editor, Renugopalakrishnan, V., editor, Ryu, D., editor, Seibert, M., editor, Tan, W., editor, Ueda, Mitsuyoshi, editor, Varfolomeyev, S. D., editor, Xu, J. -H., editor, Wang, P., editor, Wyman, C. E., editor, Zhao, H., editor, Chen, Wilfred, editor, Csoregi, Elisabeth, editor, Murhammer, David W., editor, Singh, Anup K., editor, Mulchandaui, Priti, editor, Adney, William S., editor, McMillan, James D., editor, Mielenz, Jonathan, editor, and Klasson, K. Thomas, editor

Published
2008
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28. Advanced Bioethanol Production Technologies: A Perspective

Author

Himmel, Michael E., primary, Adney, William S., additional, Baker, John O., additional, Elander, Richard, additional, McMillan, James D., additional, Nieves, Rafael A., additional, Sheehan, John J., additional, Thomas, Steven R., additional, Vinzant, Todd B., additional, and Zhang, Min, additional

Published
1997
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30. Synergism Between Purified Bacterial and Fungal Cellulases

Author

Baker, John O., primary, Adney, William S., additional, Thomas, Steven R., additional, Nieves, Rafael A., additional, Chou, Yat-Chen, additional, Vinzant, Todd B., additional, Tucker, Melvin P., additional, Laymon, Robert A., additional, and Himmel, Michael E., additional

Published
1996
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31. Tracking dynamics of plant biomass composting by changes in substrate structure, microbial community, and enzyme activity

Author

Wei Hui, Tucker Melvin P, Baker John O, Harris Michelle, Luo Yonghua, Xu Qi, Himmel Michael E, and Ding Shi-You

Subjects
Compost, Plant biomass, Yellow poplar, Microbial community, Microbial rDNA abundance, Gene expression, Enzymatic activity, Cellulase, Hemicellulose, Ligninase, Consolidated bioprocessing (CBP), Solid-state fermentation, Biofuels, Fuel, TP315-360, Biotechnology, TP248.13-248.65
Abstract

Abstract Background Understanding the dynamics of the microbial communities that, along with their secreted enzymes, are involved in the natural process of biomass composting may hold the key to breaking the major bottleneck in biomass-to-biofuels conversion technology, which is the still-costly deconstruction of polymeric biomass carbohydrates to fermentable sugars. However, the complexity of both the structure of plant biomass and its counterpart microbial degradation communities makes it difficult to investigate the composting process. Results In this study, a composter was set up with a mix of yellow poplar (Liriodendron tulipifera) wood-chips and mown lawn grass clippings (85:15 in dry-weight) and used as a model system. The microbial rDNA abundance data obtained from analyzing weekly-withdrawn composted samples suggested population-shifts from bacteria-dominated to fungus-dominated communities. Further analyses by an array of optical microscopic, transcriptional and enzyme-activity techniques yielded correlated results, suggesting that such population shifts occurred along with early removal of hemicellulose followed by attack on the consequently uncovered cellulose as the composting progressed. Conclusion The observed shifts in dominance by representative microbial groups, along with the observed different patterns in the gene expression and enzymatic activities between cellulases, hemicellulases, and ligninases during the composting process, provide new perspectives for biomass-derived biotechnology such as consolidated bioprocessing (CBP) and solid-state fermentation for the production of cellulolytic enzymes and biofuels.

Published
2012
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32. Cellulase Assays

Author

Adney, William S., primary, Ehrman, Christine I., additional, Baker, John O., additional, Thomas, Steven R., additional, and Himmel, Michael E., additional

Published
1994
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34. Cellulose crystallinity index: measurement techniques and their impact on interpreting cellulase performance

Author

Parilla Philip A, Himmel Michael E, Baker John O, Park Sunkyu, and Johnson David K

Subjects
Fuel, TP315-360, Biotechnology, TP248.13-248.65
Abstract

Abstract Although measurements of crystallinity index (CI) have a long history, it has been found that CI varies significantly depending on the choice of measurement method. In this study, four different techniques incorporating X-ray diffraction and solid-state 13C nuclear magnetic resonance (NMR) were compared using eight different cellulose preparations. We found that the simplest method, which is also the most widely used, and which involves measurement of just two heights in the X-ray diffractogram, produced significantly higher crystallinity values than did the other methods. Data in the literature for the cellulose preparation used (Avicel PH-101) support this observation. We believe that the alternative X-ray diffraction (XRD) and NMR methods presented here, which consider the contributions from amorphous and crystalline cellulose to the entire XRD and NMR spectra, provide a more accurate measure of the crystallinity of cellulose. Although celluloses having a high amorphous content are usually more easily digested by enzymes, it is unclear, based on studies published in the literature, whether CI actually provides a clear indication of the digestibility of a cellulose sample. Cellulose accessibility should be affected by crystallinity, but is also likely to be affected by several other parameters, such as lignin/hemicellulose contents and distribution, porosity, and particle size. Given the methodological dependency of cellulose CI values and the complex nature of cellulase interactions with amorphous and crystalline celluloses, we caution against trying to correlate relatively small changes in CI with changes in cellulose digestibility. In addition, the prediction of cellulase performance based on low levels of cellulose conversion may not include sufficient digestion of the crystalline component to be meaningful.

Published
2010
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35. Engineering enhanced cellobiohydrolase activity

Author

Taylor, Larry E., primary, Knott, Brandon C., additional, Baker, John O., additional, Alahuhta, P. Markus, additional, Hobdey, Sarah E., additional, Linger, Jeffrey G., additional, Lunin, Vladimir V., additional, Amore, Antonella, additional, Subramanian, Venkataramanan, additional, Podkaminer, Kara, additional, Xu, Qi, additional, VanderWall, Todd A., additional, Schuster, Logan A., additional, Chaudhari, Yogesh B., additional, Adney, William S., additional, Crowley, Michael F., additional, Himmel, Michael E., additional, Decker, Stephen R., additional, and Beckham, Gregg T., additional

Published
2018
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36. Undefined cellulase formulations hinder scientific reproducibility

Author

Himmel, Michael E., Abbas, Charles A., Baker, John O., Bayer, Edward A., Bomble, Yannick J., Brunecky, Roman, Chen, Xiaowen, Felby, Claus, Jeoh, Tina, Kumar, Rajeev, McCleary, Barry V., Pletschke, Brett I., Tucker, Melvin P., Wyman, Charles E., Decker, Stephen R., Himmel, Michael E., Abbas, Charles A., Baker, John O., Bayer, Edward A., Bomble, Yannick J., Brunecky, Roman, Chen, Xiaowen, Felby, Claus, Jeoh, Tina, Kumar, Rajeev, McCleary, Barry V., Pletschke, Brett I., Tucker, Melvin P., Wyman, Charles E., and Decker, Stephen R.

Published
2017

39. Dramatic performance of Clostridium thermocellum explained by its wide range of cellulase modalities

Author

Xu, Qi, primary, Resch, Michael G., additional, Podkaminer, Kara, additional, Yang, Shihui, additional, Baker, John O., additional, Donohoe, Bryon S., additional, Wilson, Charlotte, additional, Klingeman, Dawn M., additional, Olson, Daniel G., additional, Decker, Stephen R., additional, Giannone, Richard J., additional, Hettich, Robert L., additional, Brown, Steven D., additional, Lynd, Lee R., additional, Bayer, Edward A., additional, Himmel, Michael E., additional, and Bomble, Yannick J., additional

Published
2016
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43. Expression and secretion of fungal endoglucanase II and chimeric cellobiohydrolase I in the oleaginous yeast Lipomyces starkeyi.

Author

Qi Xu, Knoshaug, Eric P., Wei Wang, Alahuhta, Markus, Baker, John O., Shihui Yang, Wall, Todd Vander, Decker, Stephen R., Himmel, Michael E., Min Zhang, and Hui Wei

Subjects
GLUCANASES, CELLULOSE 1,4-beta-cellobiosidase, YEAST fungi genetics, FUNGAL secretions, LIPID synthesis, LIGNOCELLULOSE
Abstract

Background: Lipomyces starkeyi is one of the leading lipid-producing microorganisms reported to date; its genetic transformation was only recently reported. Our aim is to engineer L. starkeyi to serve in consolidated bioprocessing (CBP) to produce lipid or fatty acid-related biofuels directly from abundant and low-cost lignocellulosic substrates. Results: To evaluate L. starkeyi in this role, we first conducted a genome analysis, which revealed the absence of key endo- and exocellulases in this yeast, prompting us to select and screen four signal peptides for their suitability for the overexpression and secretion of cellulase genes. To compensate for the cellulase deficiency, we chose two prominent cellulases, Trichoderma reesei endoglucanase II (EG II) and a chimeric cellobiohydrolase I (TeTrCBH I) formed by fusion of the catalytic domain from Talaromyces emersonii CBH I with the linker peptide and cellulose-binding domain from T. reesei CBH I. The systematically tested signal peptides included three peptides from native L. starkeyi and one from Yarrowia lipolytica. We found that all four signal peptides permitted secretion of active EG II. We also determined that three of these signal peptides worked for expression of the chimeric CBH I; suggesting that our design criteria for selecting these signal peptides was effective. Encouragingly, the Y. lipolytica signal peptide was able to efficiently guide secretion of the chimeric TeTrCBH I protein from L. starkeyi. The purified chimeric TeTrCBH I showed high activity against the cellulose in pretreated corn stover and the purified EG II showed high endocellulase activity measured by the CELLG3 (Megazyme) method. Conclusions: Our results suggest that L. starkeyi is capable of expressing and secreting core fungal cellulases. Moreover, the purified EG II and chimeric TeTrCBH I displayed significant and potentially useful enzymatic activities, demonstrating that engineered L. starkeyi has the potential to function as an oleaginous CBP strain for biofuel production. The effectiveness of the tested secretion signals will also benefit future secretion of other heterologous proteins in L. starkeyi and, given the effectiveness of the cross-genus secretion signal, possibly other oleaginous yeasts as well. [ABSTRACT FROM AUTHOR]

Published
2017
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45. Comparison of transcriptional profiles of Clostridium thermocellum grown on cellobiose and pretreated yellow poplar using RNA-Seq

Author

Wei, Hui, primary, Fu, Yan, additional, Magnusson, Lauren, additional, Baker, John O., additional, Maness, Pin-Ching, additional, Xu, Qi, additional, Yang, Shihui, additional, Bowersox, Andrew, additional, Bogorad, Igor, additional, Wang, Wei, additional, Tucker, Melvin P., additional, Himmel, Michael E., additional, and Ding, Shi-You, additional

Published
2014
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46. Genomic, Proteomic, and Biochemical Analyses of Oleaginous Mucor circinelloides: Evaluating Its Capability in Utilizing Cellulolytic Substrates for Lipid Production

Author

Wei, Hui, primary, Wang, Wei, additional, Yarbrough, John M., additional, Baker, John O., additional, Laurens, Lieve, additional, Van Wychen, Stefanie, additional, Chen, Xiaowen, additional, Taylor, Larry E., additional, Xu, Qi, additional, Himmel, Michael E., additional, and Zhang, Min, additional

Published
2013
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