Add to ORKGThe synthesis of optically pure enantiomers is a challenge for traditional chemistry. Enzymes often perform better than inorganic catalysts because of their enantioselectivity, effectiveness and ecological sustainability. However, natural enzymes that evolved under the drive of natural selective pressure for their biological function, are not suitable for most industrial applications 1. For this reason, enzymes must be improved by protein engineering. L-amino acid deaminase from Proteus myxofaciens (PmaLAAD) catalyzes the oxidative deamination of L-amino acids (AAs) to the corresponding -keto acids (KA). This biocatalyst can be used for the setup “green processes” to produce pure KA and D-AAs, which are used as raw materials for the synth...
Unnatural amino acids are important compounds with wide-ranging applications in the pharmaceutical a...
In nature, the D-enantiomers of amino acids (D-AAs) are not used for protein synthesis and during ev...
AbstractEnzymes are an attractive alternative in the asymmetric syntheses of chiral building blocks....
The synthesis of optically pure enantiomers is a challenge for traditional chemistry. Enzymes often ...
l-Amino acid deaminase from Proteus myxofaciens (PmaLAAD) is a promising biocatalyst for enantiosele...
Enantiomerically pure α-amino acids are compounds of primary interest for the fine chemical, pharma...
Enantiomerically pure α-amino acids are compounds of primary interest for the fine chemical, pharma...
L-Amino acid deaminase from Proteus myxofaciens (Pma-LAAD) is a membrane flavoenzyme that catalyzes ...
A general chemo-enzymatic process has been developed to prepare enantiomerically pure L- and D-amino...
SummaryModern tools for enzyme discovery combined with the development of increasingly reliable stra...
The market demand for enantiopure non-canonical amino acids (NCAA) has been increasing in recent y...
Introduction of innovative biocatalytic processes offers great promise for applications in green che...
Biocatalysis might effectively address the challenges associated with green and sustainable chemical...
The standard proteinogenic amino acids grant access to a myriad of chemistries that harmonize to cre...
Unnatural amino acids are important compounds with wide-ranging applications in the pharmaceutical a...
In nature, the D-enantiomers of amino acids (D-AAs) are not used for protein synthesis and during ev...
AbstractEnzymes are an attractive alternative in the asymmetric syntheses of chiral building blocks....
The synthesis of optically pure enantiomers is a challenge for traditional chemistry. Enzymes often ...
l-Amino acid deaminase from Proteus myxofaciens (PmaLAAD) is a promising biocatalyst for enantiosele...
Enantiomerically pure α-amino acids are compounds of primary interest for the fine chemical, pharma...
Enantiomerically pure α-amino acids are compounds of primary interest for the fine chemical, pharma...
L-Amino acid deaminase from Proteus myxofaciens (Pma-LAAD) is a membrane flavoenzyme that catalyzes ...
A general chemo-enzymatic process has been developed to prepare enantiomerically pure L- and D-amino...
SummaryModern tools for enzyme discovery combined with the development of increasingly reliable stra...
The market demand for enantiopure non-canonical amino acids (NCAA) has been increasing in recent y...
Introduction of innovative biocatalytic processes offers great promise for applications in green che...
Biocatalysis might effectively address the challenges associated with green and sustainable chemical...
The standard proteinogenic amino acids grant access to a myriad of chemistries that harmonize to cre...
Unnatural amino acids are important compounds with wide-ranging applications in the pharmaceutical a...
In nature, the D-enantiomers of amino acids (D-AAs) are not used for protein synthesis and during ev...
AbstractEnzymes are an attractive alternative in the asymmetric syntheses of chiral building blocks....