Non-Native Site-Selective Enzyme Catalysis
D Mondal, HM Snodgrass, CA Gomez… - Chemical …, 2023 - ACS Publications
The ability to site-selectively modify equivalent functional groups in a molecule has the
potential to streamline syntheses and increase product yields by lowering step counts …
potential to streamline syntheses and increase product yields by lowering step counts …
Non-Native Site-Selective Enzyme Catalysis
D Mondal, HM Snodgrass, CA Gomez… - Chemical … - pubmed.ncbi.nlm.nih.gov
The ability to site-selectively modify equivalent functional groups in a molecule has the
potential to streamline syntheses and increase product yields by lowering step counts …
potential to streamline syntheses and increase product yields by lowering step counts …
[PDF][PDF] Non-Native Site-Selective Enzyme Catalysis
D Mondal, HM Snodgrass, CA Gomez, JC Lewis - researchgate.net
The ability to a site-selectively modify equivalent functional groups in a molecule has the
potential to streamline syntheses and increase product yields by lowering step counts …
potential to streamline syntheses and increase product yields by lowering step counts …
Non-Native Site-Selective Enzyme Catalysis
D Mondal, HM Snodgrass, CA Gomez, JC Lewis - 2023 - chemrxiv.org
The ability to a site-selectively modify equivalent functional groups in a molecule has the
potential to streamline syntheses and increase product yields by lowering step counts …
potential to streamline syntheses and increase product yields by lowering step counts …
[PDF][PDF] Non-Native Site-Selective Enzyme Catalysis
researchgate.net
The ability to site-selectively modify equivalent functional groups in a molecule has the
potential to streamline syntheses and increase product yields by lowering step counts …
potential to streamline syntheses and increase product yields by lowering step counts …