Your search keyword '"Baker, Scott E."' showing total 4 results

1. A new approach to Cas9-based genome editing in Aspergillus niger that is precise, efficient and selectable.

Author

Leynaud-Kieffer, Laure MC, Curran, Samuel C, Kim, Irene, Magnuson, Jon K, Gladden, John M, Baker, Scott E, and Simmons, Blake A

Subjects

Aspergillus niger, Gene Targeting, Genomics, Genome, Fungal, CRISPR-Cas Systems, Gene Editing, Genome, Fungal, MD Multidisciplinary, General Science & Technology

Abstract

Aspergillus niger and other filamentous fungi are widely used in industry, but efficient genetic engineering of these hosts remains nascent. For example, while molecular genetic tools have been developed, including CRISPR/Cas9, facile genome engineering of A. niger remains challenging. To address these challenges, we have developed a simple Cas9-based gene targeting method that provides selectable, iterative, and ultimately marker-free generation of genomic deletions and insertions. This method leverages locus-specific "pop-out" recombination to suppress off-target integrations. We demonstrated the effectiveness of this method by targeting the phenotypic marker albA and validated it by targeting the glaA and mstC loci. After two selection steps, we observed 100% gene editing efficiency across all three loci. This method greatly reduces the effort required to engineer the A. niger genome and overcomes low Cas9 transformations efficiency by eliminating the need for extensive screening. This method represents a significant addition to the A. niger genome engineering toolbox and could be adapted for use in other organisms. It is expected that this method will impact several areas of industrial biotechnology, such as the development of new strains for the secretion of heterologous enzymes and the discovery and optimization of metabolic pathways.

Published

2019

2. Expression of naturally ionic liquid-tolerant thermophilic cellulases in Aspergillus niger.

Author

Amaike Campen, Saori, Lynn, Jed, Sibert, Stephanie J, Srikrishnan, Sneha, Phatale, Pallavi, Feldman, Taya, Guenther, Joel M, Hiras, Jennifer, Tran, Yvette Thuy An, Singer, Steven W, Adams, Paul D, Sale, Kenneth L, Simmons, Blake A, Baker, Scott E, Magnuson, Jon K, and Gladden, John M

Subjects

Escherichia coli, Aspergillus niger, Cellulases, Recombinant Proteins, Biomass, Fermentation, Hydrolysis, Ionic Liquids, General Science & Technology

Abstract

Efficient deconstruction of plant biomass is a major barrier to the development of viable lignocellulosic biofuels. Pretreatment with ionic liquids reduces lignocellulose recalcitrance to enzymatic hydrolysis, increasing yields of sugars for conversion into biofuels. However, commercial cellulases are not compatible with many ionic liquids, necessitating extensive water washing of pretreated biomass prior to hydrolysis. To circumvent this issue, previous research has demonstrated that several thermophilic bacterial cellulases can efficiently deconstruct lignocellulose in the presence of the ionic liquid, 1-ethyl-3-methylimadizolium acetate. As promising as these enzymes are, they would need to be produced at high titer in an industrial enzyme production host before they could be considered a viable alternative to current commercial cellulases. Aspergillus niger has been used to produce high titers of secreted enzymes in industry and therefore, we assessed the potential of this organism to be used as an expression host for these ionic liquid-tolerant cellulases. We demonstrated that 29 of these cellulases were expressed at detectable levels in a wild-type strain of A. niger, indicating a basic level of compatibility and potential to be produced at high levels in a host engineered to produce high titers of enzymes. We then profiled one of these enzymes in detail, the β-glucosidase A5IL97, and compared versions expressed in both A. niger and Escherichia coli. This comparison revealed the enzymatic activity of A5IL97 purified from E. coli and A. niger is equivalent, suggesting that A. niger could be an excellent enzyme production host for enzymes originally characterized in E. coli, facilitating the transition from the laboratory to industry.

Published

2017

3. Expression of naturally ionic liquid-tolerant thermophilic cellulases in Aspergillus niger

Author

Campen, Saori Amaike, Lynn, Jed, Sibert, Stephanie J, Srikrishnan, Sneha, Phatale, Pallavi, Feldman, Taya, Guenther, Joel M, Hiras, Jennifer, Tran, Yvette Thuy An, Singer, Steven W, Adams, Paul D, Sale, Kenneth L, Simmons, Blake A, Baker, Scott E, Magnuson, Jon K, and Gladden, John M

Subjects

Biological Sciences, Industrial Biotechnology, Aspergillus niger, Biomass, Cellulases, Escherichia coli, Fermentation, Hydrolysis, Ionic Liquids, Recombinant Proteins, General Science & Technology

Abstract

Efficient deconstruction of plant biomass is a major barrier to the development of viable lignocellulosic biofuels. Pretreatment with ionic liquids reduces lignocellulose recalcitrance to enzymatic hydrolysis, increasing yields of sugars for conversion into biofuels. However, commercial cellulases are not compatible with many ionic liquids, necessitating extensive water washing of pretreated biomass prior to hydrolysis. To circumvent this issue, previous research has demonstrated that several thermophilic bacterial cellulases can efficiently deconstruct lignocellulose in the presence of the ionic liquid, 1-ethyl-3-methylimadizolium acetate. As promising as these enzymes are, they would need to be produced at high titer in an industrial enzyme production host before they could be considered a viable alternative to current commercial cellulases. Aspergillus niger has been used to produce high titers of secreted enzymes in industry and therefore, we assessed the potential of this organism to be used as an expression host for these ionic liquid-tolerant cellulases. We demonstrated that 29 of these cellulases were expressed at detectable levels in a wild-type strain of A. niger, indicating a basic level of compatibility and potential to be produced at high levels in a host engineered to produce high titers of enzymes. We then profiled one of these enzymes in detail, the β-glucosidase A5IL97, and compared versions expressed in both A. niger and Escherichia coli. This comparison revealed the enzymatic activity of A5IL97 purified from E. coli and A. niger is equivalent, suggesting that A. niger could be an excellent enzyme production host for enzymes originally characterized in E. coli, facilitating the transition from the laboratory to industry.

Published

2017

4. Comprehensive Metabolomic, Lipidomic and Microscopic Profiling of Yarrowia lipolytica during Lipid Accumulation Identifies Targets for Increased Lipogenesis

Author

Pomraning, Kyle R., primary, Wei, Siwei, additional, Karagiosis, Sue A., additional, Kim, Young-Mo, additional, Dohnalkova, Alice C., additional, Arey, Bruce W., additional, Bredeweg, Erin L., additional, Orr, Galya, additional, Metz, Thomas O., additional, and Baker, Scott E., additional

Published

2015