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- Structural insight into the catalytic mechanism of a cis-epoxysuccinate hydrolase producing enantiomerically pure d(−)-tartaric acid. Sheng Dong, Xi Liu, Gu-Zhen Cui, Qiu Cui, Xinquan Wang, Yingang Feng
, Chem. Commun.
, 2018
, 54
, 8482
- Applications of biotransformations in organic synthesis: preparation of enantiomerically pure esters of cis- and trans-epoxysuccinic acid. David H. G. Crout, Véronique S. B. Gaudet, Keith O. Hallinan
, J. Chem. Soc., Perkin Trans. 1
, 1993
, 805
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Fe-TAML/hydrogen peroxide degradation of concentrated solutions of the commercial azo dye tartrazine. Evan S. Beach, Ryan T. Malecky, Roberto R. Gil, Colin P. Horwitz, Terrence J. Collins
, Catal. Sci. Technol.
, 2011
, 1
, 437
- Metal–organic coordination polymers based on a flexible tetrahydrofuran-2,3,4,5-tetracarboxylate ligand: syntheses, crystal structures, and magnetic/photoluminescent properties. Chun-Sen Liu, E. Carolina Sañudo, Min Hu, Li-Ming Zhou, Liang-Qi Guo, Song-Tao Ma, Li-Jun Gao, Shao-Ming Fang
, CrystEngComm
, 2010
, 12
, 853
- Enzyme immobilisation on wood-derived cellulose scaffolds via carbohydrate-binding module fusion constructs. A. D. Roberts, K. A. P. Payne, S. Cosgrove, V. Tilakaratna, I. Penafiel, W. Finnigan, N. J. Turner, N. S. Scrutton
, Green Chem.
, 2021
, 23
, 4716
- Production of chiral compounds using immobilized cells as a source of biocatalysts. Camila M. Kisukuri, Leandro H. Andrade
, Org. Biomol. Chem.
, 2015
, 13
, 10086
- 701. Syntheses of α-amino-β-hydroxy-acids. Part II. Erythro- and threo-β-hydroxy-DL-aspartic acid. Y. Liwschitz, Y. Rabinsohn, A. Haber
, J. Chem. Soc.
, 1962
, 3589
- Stereospecific preparation of N-alkyl- and N-aralkyl-α-amino-β-hydroxy-acids. A. Singerman, Y. Liwschitz
, J. Chem. Soc. C
, 1966
, 1301
- Recent advances in the use of enzyme-catalysed reactions in organic research: the synthesis of biologically active natural products and analogues. S. Butt, S. M. Roberts
, Nat. Prod. Rep.
, 1986
, 3
, 489