TY - JOUR
T1 - Expanding the scope of biocatalysis
T2 - Oxidative biotransformations on solid-supported substrates
AU - Brooks, Sarah J.
AU - Coulombel, Lydie
AU - Ahuja, Disha
AU - Clark, Douglas S.
AU - Dordick, Jonathan S.
N1 - Funding Information:
Spanish "Ministerio de Ciencia, Innovacion y Universidades" (grant SAF 2015-66603-P and the Cajal Blue Brain Project [C080020-09; the Spanish partner of the Blue Brain Project initiative from L'Ecole polytechnique federale de Lausanne (EPFL), Switzerland]); European Union's Horizon 2020 Research and Innovation Programme (grant 785907) (Human Brain Project second specific grant agreement [SGA2]).
PY - 2008/7/7
Y1 - 2008/7/7
N2 - Oxidative biocatalytic reactions were performed on solid-supported substrates, thus expanding the repertoire of biotransformations that can be carried out on the solid phase. Various phenylacetic and benzoic acid analogues were attached to controlled pore glass beads via an enzyme-cleavable linker. Reactions catalyzed by peroxidases (soybean and chloro), tyrosinase, and alcohol oxidase/dehydrogenase gave a range of products, including oligophenols, halogenated aromatics, catechols, and aryl aldehydes. The resulting products were recovered following cleavage from the beads using α-chymotrypsin to selectively hydrolyze a chemically non-labile amide linkage. Controlled pore glass (CPG) modified with a polyethylene glycol (PEG) linker afforded substantially higher product yields than non-PEGylated CPG or non-swellable polymeric resins. This work represents the first attempt to combine solid-phase oxidative biotransformations with subsequent protease-catalyzed cleavage, and serves to further expand the use of biocatalysis in synthetic and medicinal chemistry.
AB - Oxidative biocatalytic reactions were performed on solid-supported substrates, thus expanding the repertoire of biotransformations that can be carried out on the solid phase. Various phenylacetic and benzoic acid analogues were attached to controlled pore glass beads via an enzyme-cleavable linker. Reactions catalyzed by peroxidases (soybean and chloro), tyrosinase, and alcohol oxidase/dehydrogenase gave a range of products, including oligophenols, halogenated aromatics, catechols, and aryl aldehydes. The resulting products were recovered following cleavage from the beads using α-chymotrypsin to selectively hydrolyze a chemically non-labile amide linkage. Controlled pore glass (CPG) modified with a polyethylene glycol (PEG) linker afforded substantially higher product yields than non-PEGylated CPG or non-swellable polymeric resins. This work represents the first attempt to combine solid-phase oxidative biotransformations with subsequent protease-catalyzed cleavage, and serves to further expand the use of biocatalysis in synthetic and medicinal chemistry.
KW - Biotransformations
KW - Enzyme catalysis
KW - Halogenation
KW - Oxidation
KW - Solid-phase synthesis
UR - http://www.scopus.com/inward/record.url?scp=53849083761&partnerID=8YFLogxK
U2 - 10.1002/adsc.200800188
DO - 10.1002/adsc.200800188
M3 - Article
AN - SCOPUS:53849083761
SN - 1615-4150
VL - 350
SP - 1517
EP - 1525
JO - Advanced Synthesis and Catalysis
JF - Advanced Synthesis and Catalysis
IS - 10
ER -