Stephanie Thompson
Bioenergy Research
Biological Science Lab Technician
Phone: (309) 681-6286
Fax: (309) 681-6277
(Employee information on this page comes from the REE Directory. Please contact your front office staff to update the REE Directory.)
Publications
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Determining mating type and ploidy in Rhodotorula toruloides and its effect on growth on sugars from lignocellulosic biomass
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Dias Lopes, D., Dien, B.S., Hector, R.E., Singh, V., Thompson, S.R., Slininger, P.J., Boundy-Mills, K., Jagtap, S.S., Rao, C.V. 2023. Determining mating type and ploidy in Rhodotorula toruloides and its effect on growth on sugars from lignocellulosic biomass. Journal of Industrial Microbiology and Biotechnology. https://doi.org/10.1093/jimb/kuad040.
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Lipid production by Rhodosporidium toruloides cultures grown on lignocellulose pretreated using pressurized ammonia ball milling
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Lipid production by Rhodosporidium toruloides cultures grown on lignocellulose pretreated using pressurized ammonia ball milling
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Exploring proteomes of robust Yarrowia lipolytica isolates cultivated in biomass hydrolysate reveals key processes impacting mixed sugar utilization, lipid accumulation, and degradation
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Walker, C., Dien, B.S., Giannone, R., Slininger, P.J., Thompson, S.R., Trinh, C. 2021. Exploring proteomes of robust Yarrowia lipolytica isolates cultivated in biomass hydrolysate reveals key processes impacting mixed sugar utilization, lipid accumulation, and degradation. mSystems. 6(4). Article e00443-21. https://doi.org/10.1128/mSystems.00443-21.
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Conversion of high-solids hydrothermally pretreated bioenergy sorghum to lipids and ethanol using yeast cultures
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Cheng, M., Dien, B.S., Jin, Y.S., Thompson, S., Shin, J., Slininger, P.J., Qureshi, N., Singh, V. 2021. Conversion of high-solids hydrothermally pretreated bioenergy sorghum to lipids and ethanol using yeast cultures. ACS Sustainable Chemistry & Engineering. 9(25):8515–8525. https://doi.org/10.1021/acssuschemeng.1c01629.
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Cellulose nanofibers with gradient lignin degrees: a physicochemical comparison
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Lignin-containing cellulose nanofibers with gradient lignin content obtained from cotton gin motes and cotton gin trash
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Jordan, J.H., Easson, M.W., Thompson, S., Wu, Q., Condon, B.D. 2021. Lignin-containing cellulose nanofibers with gradient lignin content obtained from cotton gin motes and cotton gin trash. Cellulose. 28(2):757-773. https://doi.org/10.1007/s10570-020-03549-0.
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Extraction and characterization of nanocellulose crystals from cotton gin motes and cotton gin waste
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Jordan, J.H., Easson, M.W., Dien, B., Thompson, S., Condon, B.D. 2019. Extraction and characterization of nanocellulose crystals from cotton gin motes and cotton gin waste. Cellulose. 26(10):5959-5979. https://doi.org/10.1007/s10570-019-02533-7.
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Screening for oily yeasts able to convert hydrolyzates from biomass to biofuels while maintaining industrial process relevance
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Slininger, P.J., Dien, B.S., Quarterman, J.C., Thompson, S.R., Kurtzman, C.P. 2019. Screening for oily yeasts able to convert hydrolyzates from biomass to biofuels while maintaining industrial process relevance. Methods in Molecular Biology. 1995:249-283. https://doi.org/10.1007/978-1-4939-9484-7_16.
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Cultivation and sequencing of rumen microbiome
members from the Hungate1000 Collection
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Seshadri, R., Leahy, S.C., Attwood, G.T., Hoong Teh, K., Lambie, S.C., Eloe-Fadrosh, E.A., Pavlopoulos, G.A, Hadjithomas, M., Varghese, N.J., Paez-Espino, D., Hungate1000 Project Collaborators*: Palevich, N., Janssen,P.H.,Ronimus, R.S., Noel, S., Soni, P., Reilly, K., Atherly, T., Ziemer, C., Wright, A.D., Ishaq, S., Cotta, M., Thompson, S.R., Crosley, K., Mckain, N., Wallace, R.J., Flint, H.J., Martin, J.C., Forster, R.J., Gruninger, R.J., McAllister, T., Gilbert, R., OuwerkerK, D., Klieve, A., Jassim, R.A., Denman, S., McSweeney, C., Rosewarne, C., Koike, S., Kobayashi, Y., Mitsumori, M., Shinkai, T., Cravero, S., Ceron Cucchi, M.*, Perry, R., Henderson, G., Creevey, C.J., Tarrapon, N., Lapebie, P., Drula, E., Lombard, V., Rubin, E., Kyrpides, N.C., Henrissat, B., Woyke, T., Ivanova, N.N, Kelly, W.J. 2018. Cultivation and sequencing of rumen microbiome members from the Hungate1000 Collection. Nature Biotechnology. 36:359-367. doi: 10.1038/nbt.4110.
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A survey of yeast from the Yarrowia clade for lipid production in dilute-acid pretreated lignocellulosic biomass hydrolysate
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Quarterman, J., Slininger, P.J., Kurtzman, C.P., Thompson, S.R., Dien, B.S. 2017. A survey of yeast from the Yarrowia clade for lipid production in dilute-acid pretreated lignocellulosic biomass hydrolysate. Applied Microbiology and Biotechnology. 101(8):3319-3334. doi: 10.1007/s00253-016-8062-y.
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Techniques for the evolution of robust pentose-fermenting yeast for bioconversion of lignocellulose to ethanol
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Slininger, P.J., Shea-Andersh, M.A., Thompson, S.R., Dien, B.S., Kurtzman, C.P., Sousa, L.D., Balan, V. 2016. Techniques for the evolution of robust pentose-fermenting yeast for bioconversion of lignocellulose to ethanol. Journal of Visualized Experiments. 116:1-15. doi: 10.3791/54227.
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Process strategies for high titers of lipid production by oleaginous yeasts in undetoxified hydrolyzates of lignocellulosic biomass
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Patricia J. Slininger*, Bruce S. Dien, Cletus P. Kurtzman, Bryan R. Moser, Erica L. Bakota, Stephanie R.Thompson, Patricia J. O’Bryan, Michael A. Cotta, Venkatesh Balan, Mingjie Jin, Leonardo D. Sousa, Bruce E. Dale. Process Strategies for High Titers of Lipid Production by Oleaginous Yeasts in Undetoxified Hydrolyzates of Lignocellulosic Biomass. Proceedings of the 2016 AICHE Annual Meeting, Biochemical Conversion Processes in Forest/Plant Biomass Biorefineries Session, Paper # 567b, San Francisco, CA, November 13-18, 2016.
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Process strategies to maximize lipid accumulations of novel yeast in acid and base treated hydrolyzates
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Slininger, P.J., Dien, B.S., Moser, B.R., Bakota, E.L., Evangelista, R.L., Thompson, S.R., O Bryan, P.J., Cotta, M.A., Balan, V., Xue, Y., Jin, M., Orjuela, A., De Costa Sousa, L., Dale, B. 2015. Process strategies to maximize lipid accumulations of novel yeast in acid and base treated hydrolyzates [abstract].
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Repression of xylose-specific enzymes by ethanol in Scheffersomyces (Pichia) stipitis and elimination of diauxic lag with xylose-grown populations
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Repression of xylose-specific enzymes by ethanol in Scheffersomyces (Pichia) stipitis and utility of repitching xylose-grown populations to eliminate diauxic lag
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Slininger, P.J., Thompson, S.R., Weber, S.A., Liu, Z., Moon, J. 2011. Repression of xylose-specific enzymes by ethanol in Scheffersomyces (Pichia) stipitis and utility of repitching xylose-grown populations to eliminate diauxic lag. Biotechnology and Bioengineering. 108(8):1801-1815.
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The switch from xylose to glucose stalled by repression of xylose-utilizing enzymes during exposure of Scheffersomyces (Pichia) stipitis to high ethanol concentrations
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Slininger, P.J., Moon, J., Thompson, S.R., Weber, S.A., Liu, Z. 2010. The switch from xylose to glucose stalled by repression of xylose-utilizing enzymes during exposure of Scheffersomyces (Pichia) stipitis to high ethanol concentrations [abstract]. In: Proceedings of the Biotechnology for Fuels and Chemicals Symposium, April 19-22, 2010, Clearwater, Florida. p. 129.
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