TY - JOUR
T1 - The immobilization of a cyclodipeptide synthase enables biocatalysis for cyclodipeptide production
AU - Alvarado-Ramirez, Lynette
AU - Sutherland, Emma Jay
AU - Melchor-Martinez, Elda
AU - Parra-Saldivar, Roberto
AU - Bonaccorso, Alfredo Damiano
AU - Melo Czekster, Clarissa
N1 - Funding: C.M.C. and E.S. are funded by the Wellcome trust (217078/Z/19/Z). L.A.R. is funded by Consejo Nacional de Humanidades Ciencia y Tecnología (CONAHCYT) Mexico (486638) and by the Global Challenges Research Fund (GCRF) grant GCRFNGR4\1388. R.P.S. and E.M.M.M. are funded by the project, Development of Smart Edible Coating for the Preservation of Berries I025-IAMSM005-C3-T1-T, of the Challenge-Based Research Funding Program of the Tecnologico de Monterrey.
PY - 2024/9/2
Y1 - 2024/9/2
N2 - Cyclodipeptide synthases (CDPSs) are enzymes that use aminoacylated tRNAs as substrates to produce cyclic dipeptide natural products acting as anticancer and neuroprotective compounds. Many CDPSs, however, suffer from instability and poor recyclability, while enzyme immobilization can enhance catalyst efficiency and reuse. Here, the CDPS enzyme from Parcubacteria bacterium RAAC4_OD1_1 was immobilized using three different supports: biochar from waste materials, calcium-alginate beads, and chitosan beads. Immobilization of active PbCDPS was successful, and production of the cyclodipeptide cyclo (His-Glu) (cHE) was confirmed by HPLC-MS. Biochar from spent coffee activated with glutaraldehyde, alginate beads, and chitosan beads activated with glutaraldehyde led to a 5-fold improvement in cHE production, with the immobilized enzyme remaining active for seven consecutive cycles. Furthermore, we co-immobilized three enzymes participating in the cascade reaction yielding cHE (PbCDPS, histidyl-tRNA synthetase, and glutamyl-tRNA synthetase). The enzymatic cascade successfully produced the cyclic dipeptide, underscoring the potential of immobilizing various enzymes within a single support. Importantly, we demonstrated that tRNAs remained free in solution and were not adsorbed by the beads. We paved the way for the immobilization of enzymes that utilize tRNAs and other complex substrates, thereby expanding the range of reactions that can be exploited by using this technology.
AB - Cyclodipeptide synthases (CDPSs) are enzymes that use aminoacylated tRNAs as substrates to produce cyclic dipeptide natural products acting as anticancer and neuroprotective compounds. Many CDPSs, however, suffer from instability and poor recyclability, while enzyme immobilization can enhance catalyst efficiency and reuse. Here, the CDPS enzyme from Parcubacteria bacterium RAAC4_OD1_1 was immobilized using three different supports: biochar from waste materials, calcium-alginate beads, and chitosan beads. Immobilization of active PbCDPS was successful, and production of the cyclodipeptide cyclo (His-Glu) (cHE) was confirmed by HPLC-MS. Biochar from spent coffee activated with glutaraldehyde, alginate beads, and chitosan beads activated with glutaraldehyde led to a 5-fold improvement in cHE production, with the immobilized enzyme remaining active for seven consecutive cycles. Furthermore, we co-immobilized three enzymes participating in the cascade reaction yielding cHE (PbCDPS, histidyl-tRNA synthetase, and glutamyl-tRNA synthetase). The enzymatic cascade successfully produced the cyclic dipeptide, underscoring the potential of immobilizing various enzymes within a single support. Importantly, we demonstrated that tRNAs remained free in solution and were not adsorbed by the beads. We paved the way for the immobilization of enzymes that utilize tRNAs and other complex substrates, thereby expanding the range of reactions that can be exploited by using this technology.
KW - Cyclodipeptide synthases
KW - Immobilization
KW - Biochar
KW - Beads
U2 - 10.1021/acssuschemeng.4c01230
DO - 10.1021/acssuschemeng.4c01230
M3 - Article
C2 - 39239621
SN - 2168-0485
VL - 12
SP - 13080
EP - 13089
JO - ACS Sustainable Chemistry & Engineering
JF - ACS Sustainable Chemistry & Engineering
IS - 35
ER -