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Research Interests: microbiome engineering, systems biology, synthetic biology, microbial ecology, machine learning, biological waste treatment, resource recovery, environmental biotechnology.
Society has enormous potential to recover renewable bioenergy and bioproducts from waste streams, while simultaneously reducing waste disposal impacts and our dependance on fossil fuels. Unlocking this potential will require bioengineering innovation to commoditize renewable energy, chemicals, and materials from waste streams at industrial scales. Revolutionary advances in systems and synthetic biology are positioned to make these innovations possible, as breakthroughs in metagenomic sequencing, high-resolution mass spectrometry, and genome editing have opened a window into the metabolic and regulatory networks driving microbial community (“microbiome”) functions, extending from single genes to whole ecosystems. However, incorporating these developments into biotechnologies at scale has been limited by the high complexity of microbe-microbe interactions and the lack of tools to manipulate microbiome assembly and function in a precise manner.
My research seeks to create novel anaerobic biotechnologies that recover valuable resources (energy, chemicals, materials) from waste streams using systems and synthetic biology approaches. This will enable a fundamental understanding of microbiome assembly and function and contribute transformative wastewater treatment and solid waste management technologies aimed at building a circular bioeconomy.
Society has enormous potential to recover renewable bioenergy and bioproducts from waste streams, while simultaneously reducing waste disposal impacts and our dependance on fossil fuels. Unlocking this potential will require bioengineering innovation to commoditize renewable energy, chemicals, and materials from waste streams at industrial scales. Revolutionary advances in systems and synthetic biology are positioned to make these innovations possible, as breakthroughs in metagenomic sequencing, high-resolution mass spectrometry, and genome editing have opened a window into the metabolic and regulatory networks driving microbial community (“microbiome”) functions, extending from single genes to whole ecosystems. However, incorporating these developments into biotechnologies at scale has been limited by the high complexity of microbe-microbe interactions and the lack of tools to manipulate microbiome assembly and function in a precise manner.
My research seeks to create novel anaerobic biotechnologies that recover valuable resources (energy, chemicals, materials) from waste streams using systems and synthetic biology approaches. This will enable a fundamental understanding of microbiome assembly and function and contribute transformative wastewater treatment and solid waste management technologies aimed at building a circular bioeconomy.
研究兴趣
论文共 24 篇作者统计合作学者相似作者
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Ethan Agena, Ian M Gois, Connor M Bowers,Radhakrishnan Mahadevan,Matthew J Scarborough,Christopher E Lawson
Journal of industrial microbiology & biotechnology (2024)
The ISME Journalno. 3 (2021): 673-687
mSystemsno. 4 (2021)
mSystemsno. 4 (2021)
Marta Cerruti,Bing Guo,Robert Delatolla,Nadieh De Jonge, Aleida De Vos Van Steenwijk,Paul Kadota,Christopher E. Lawson,Ted Mao,Margreet J. Oosterkamp,Fabrizio Sabba,Mikkel Stokholm-Bjerregaard, Ian Watson,
ENVIRONMENTAL SCIENCE-WATER RESEARCH & TECHNOLOGYno. 10 (2021): 1687-1706
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