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Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect

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Synthetic biology offers several routes for CO2 conversion into biomass or bio-chemicals, helping to avoid unsustainable use of organic feedstocks, wh…
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Methanol biotransformation toward high-level production of fatty
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Metabolic engineering strategies for microbial utilization of
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Advances in Industrial Biotechnology Using CRISPR-Cas Systems
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Synthetic Methylotrophy in Yeasts: Towards a Circular Bioeconomy
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
PDF) Artificial carbon assimilation: From unnatural reactions and
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
New opportunities by synthetic biology for biopharmaceutical
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Engineering the native methylotrophs for the bioconversion of
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Bioconversion of C1 feedstocks for chemical production using
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Outlook on engineering methylotrophs for one-carbon-based
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Investigating formate tolerance mechanisms in Saccharomyces
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Bioconversion of C1 feedstocks for chemical production using
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Methylotrophy of Pichia pastoris: Current Advances, Applications
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
High-throughput laboratory evolution reveals evolutionary
Adaptive laboratory evolution and reverse engineering enhances autotrophic growth in Pichia pastoris - ScienceDirect
Investigating formate tolerance mechanisms in Saccharomyces
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