NADP+-dependent formate dehydrogenases (FDHs) are biotechnologically relevant enzymes for cofactors regeneration in industrial processes employing redox biocatalysts. Their effective applicability is however hampered by the low cofactor and substrate affinities of the few enzymes described so far. After different efforts to ameliorate the previously studied GraFDH from the acidobacterium Granulicella mallensis MP5ACTX8, an enzyme having double (NAD+ and NADP+) cofactor specificity, we started over our search with the advantage of hindsight. We identified and characterized GraFDH2, a novel highly active FDH, which proved to be a good NAD+-dependent catalyst. A rational engineering approach permitted to switch its cofactor specificity, producing an enzyme variant that displays a 10-fold activity improvement over the wild-type enzyme with NADP+. Such variant resulted to be one of the best performing enzyme among the NADP+-dependent FDHs reported so far in terms of catalytic performance.
From the Amelioration of a NADP+-dependent Formate Dehydrogenase to the Discovery of a New Enzyme: Round Trip from Theory to Practice
Marina Simona RobescuInvestigation
;Rudy RubiniInvestigation
;Elisa BeneventiInvestigation
;Michele TavantiInvestigation
;Chiara LonigroInvestigation
;Francesco FilippiniSupervision
;Laura Cendron
Conceptualization
;
2020
Abstract
NADP+-dependent formate dehydrogenases (FDHs) are biotechnologically relevant enzymes for cofactors regeneration in industrial processes employing redox biocatalysts. Their effective applicability is however hampered by the low cofactor and substrate affinities of the few enzymes described so far. After different efforts to ameliorate the previously studied GraFDH from the acidobacterium Granulicella mallensis MP5ACTX8, an enzyme having double (NAD+ and NADP+) cofactor specificity, we started over our search with the advantage of hindsight. We identified and characterized GraFDH2, a novel highly active FDH, which proved to be a good NAD+-dependent catalyst. A rational engineering approach permitted to switch its cofactor specificity, producing an enzyme variant that displays a 10-fold activity improvement over the wild-type enzyme with NADP+. Such variant resulted to be one of the best performing enzyme among the NADP+-dependent FDHs reported so far in terms of catalytic performance.File | Dimensione | Formato | |
---|---|---|---|
Robescu_et_al-2020-ChemCatChem_Accepted.pdf
Open Access dal 06/02/2021
Tipologia:
Postprint (accepted version)
Licenza:
Accesso gratuito
Dimensione
5.9 MB
Formato
Adobe PDF
|
5.9 MB | Adobe PDF | Visualizza/Apri |
Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.