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St Elmo Wilken

Showing results (1-10 of 11) with videos related to

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Bioinformatics (Oxford, England)|May 6, 2025
Algebraic differentiation for fast sensitivity analysis of optimal flux modes in metabolic modelsHester Chapman, Miroslav Kratochvíl, Oliver Ebenhöh, et al.
Biochemical Society Transactions|July 20, 2021
The view of microbes as energy converters illustrates the trade-off between growth rate and yieldSt Elmo Wilken, Victor Vera Frazão, Nima P Saadat, et al.
Bioinformatics (Oxford, England)|February 8, 2025
COBREXA 2: tidy and scalable construction of complex metabolic modelsMiroslav Kratochvíl, St Elmo Wilken, Oliver Ebenhöh, et al.
Metabolic Engineering|September 26, 2017
The importance of sourcing enzymes from non-conventional fungi for metabolic engineering and biomass breakdownSusanna Seppälä, St Elmo Wilken, Doriv Knop, et al.
Metabolic Engineering|September 24, 2022
Interrogating the effect of enzyme kinetics on metabolism using differentiable constraint-based modelsSt Elmo Wilken, Mathieu Besançon, Miroslav Kratochvíl, et al.
Metabolic Engineering Communications|December 5, 2019
Genomic and proteomic biases inform metabolic engineering strategies for anaerobic fungiSt Elmo Wilken, Susanna Seppälä, Thomas S Lankiewicz, et al.
Biotechnology and Bioengineering|December 15, 2017
Metabolic characterization of anaerobic fungi provides a path forward for bioprocessing of crude lignocelluloseJohn K Henske, St Elmo Wilken, Kevin V Solomon, et al.
ACS Synthetic Biology|August 29, 2019
Top-Down Enrichment Guides in Formation of Synthetic Microbial Consortia for Biomass DegradationSean P Gilmore, Thomas S Lankiewicz, St Elmo Wilken, et al.
Bioinformatics (Oxford, England)|November 18, 2021
COBREXA.jl: constraint-based reconstruction and exascale analysisMiroslav Kratochvíl, Laurent Heirendt, St Elmo Wilken, et al.
Nature Microbiology|February 2, 2021
Genomic and functional analyses of fungal and bacterial consortia that enable lignocellulose breakdown in goat gut microbiomesXuefeng Peng, St Elmo Wilken, Thomas S Lankiewicz, et al.
Pageof 2

Showing results (1-10 of 11) with videos related to

Sort By:
Pageof 2
Bioinformatics (Oxford, England)|May 6, 2025
Algebraic differentiation for fast sensitivity analysis of optimal flux modes in metabolic modelsHester Chapman, Miroslav Kratochvíl, Oliver Ebenhöh, et al.
Biochemical Society Transactions|July 20, 2021
The view of microbes as energy converters illustrates the trade-off between growth rate and yieldSt Elmo Wilken, Victor Vera Frazão, Nima P Saadat, et al.
Bioinformatics (Oxford, England)|February 8, 2025
COBREXA 2: tidy and scalable construction of complex metabolic modelsMiroslav Kratochvíl, St Elmo Wilken, Oliver Ebenhöh, et al.
Metabolic Engineering|September 26, 2017
The importance of sourcing enzymes from non-conventional fungi for metabolic engineering and biomass breakdownSusanna Seppälä, St Elmo Wilken, Doriv Knop, et al.
Metabolic Engineering|September 24, 2022
Interrogating the effect of enzyme kinetics on metabolism using differentiable constraint-based modelsSt Elmo Wilken, Mathieu Besançon, Miroslav Kratochvíl, et al.
Metabolic Engineering Communications|December 5, 2019
Genomic and proteomic biases inform metabolic engineering strategies for anaerobic fungiSt Elmo Wilken, Susanna Seppälä, Thomas S Lankiewicz, et al.
Biotechnology and Bioengineering|December 15, 2017
Metabolic characterization of anaerobic fungi provides a path forward for bioprocessing of crude lignocelluloseJohn K Henske, St Elmo Wilken, Kevin V Solomon, et al.
ACS Synthetic Biology|August 29, 2019
Top-Down Enrichment Guides in Formation of Synthetic Microbial Consortia for Biomass DegradationSean P Gilmore, Thomas S Lankiewicz, St Elmo Wilken, et al.
Bioinformatics (Oxford, England)|November 18, 2021
COBREXA.jl: constraint-based reconstruction and exascale analysisMiroslav Kratochvíl, Laurent Heirendt, St Elmo Wilken, et al.
Nature Microbiology|February 2, 2021
Genomic and functional analyses of fungal and bacterial consortia that enable lignocellulose breakdown in goat gut microbiomesXuefeng Peng, St Elmo Wilken, Thomas S Lankiewicz, et al.
Pageof 2