Identification of a novel thermostable transaminase and its application in L-phosphinothricin biosynthesis

Abstract: Transaminase (TA) is a crucial biocatalyst for enantioselective production of the herbicide L-phosphinothricin (L-PPT). The use of enzymatic cascades has been shown to effectively overcome the unfavorable thermodynamic equilibrium of TA-catalyzed transamination reaction, also increasing demand for TA stability. In this work, a novel thermostable transaminase (PtTA) from Pseudomonas thermotolerans was mined and characterized. The PtTA showed a high specific activity (28.63 U/mg) towards 2‐oxo‐4‐[(hydroxy)(methy… Show more

“…15−18 To date, several natural (S)selective ATs have been reported for the synthesis of L-PPT from its prochiral ketone, exhibiting satisfactory catalytic activity and strong tolerance to high concentrations of substrate. 9,19,20 However, the use of (R)-selective ATs for the kinetic resolution of D and L-PPT has rarely been reported in previous studies. Adaption to special ecological environments often leads to the evolution of enzymes with extraordinary properties.…”

“…As an alternative approach, the deracemization of unnatural amino acids using enantiocomplementary aminotransferases as catalysts has considerable potential for achieving stringent stereoselectivity with no redox cofactors required. Aminotransferase (AT)-based deracemization processes have been employed in the synthesis of various unnatural chiral amino acids such as l -homophenylalanine and ( S )-2-aminobutyrate, which are important chiral intermediates in pharmaceutical drugs. − To date, several natural ( S )-selective ATs have been reported for the synthesis of L-PPT from its prochiral ketone, exhibiting satisfactory catalytic activity and strong tolerance to high concentrations of substrate. ,, However, the use of ( R )-selective ATs for the kinetic resolution of D and L-PPT has rarely been reported in previous studies.…”

One-Pot Two-Stage Biocatalytic Cascade to Produce l-Phosphinothricin by Two Enantioselective Complementary Aminotransferases at High Substrate Loading via a Deracemization Process

“…15−18 To date, several natural (S)selective ATs have been reported for the synthesis of L-PPT from its prochiral ketone, exhibiting satisfactory catalytic activity and strong tolerance to high concentrations of substrate. 9,19,20 However, the use of (R)-selective ATs for the kinetic resolution of D and L-PPT has rarely been reported in previous studies. Adaption to special ecological environments often leads to the evolution of enzymes with extraordinary properties.…”

“…As an alternative approach, the deracemization of unnatural amino acids using enantiocomplementary aminotransferases as catalysts has considerable potential for achieving stringent stereoselectivity with no redox cofactors required. Aminotransferase (AT)-based deracemization processes have been employed in the synthesis of various unnatural chiral amino acids such as l -homophenylalanine and ( S )-2-aminobutyrate, which are important chiral intermediates in pharmaceutical drugs. − To date, several natural ( S )-selective ATs have been reported for the synthesis of L-PPT from its prochiral ketone, exhibiting satisfactory catalytic activity and strong tolerance to high concentrations of substrate. ,, However, the use of ( R )-selective ATs for the kinetic resolution of D and L-PPT has rarely been reported in previous studies.…”

One-Pot Two-Stage Biocatalytic Cascade to Produce l-Phosphinothricin by Two Enantioselective Complementary Aminotransferases at High Substrate Loading via a Deracemization Process

Identification of Efficient Amine Transaminase and Applicability in Dual Transaminases Cascade for Synthesis of L-Phosphinothricin