Guosen He scite author profile

The biologically relevant alkylations of the thiolate ligands in tripod zinc thiolates by methyl iodide were studied kinetically. Five tripod ligands of the pyrazolyl/thioimidazolyl borate type were employed, offering N3, N2S, NS2, and S3 donor sets. For each of them, the ethyl-, benzyl-, phenyl-, and p-nitrophenylthiolate zinc complexes were investigated, yielding a total of 20 second-order rate constants. The comparison of these rate constants shows three effects: (1) the electronic effect among the thiolates, i.e., the ethanethiolates react about 3 orders of magnitude faster than the p-nitrophenylthiolates; (2) the steric effect among the pyrazolylborates, i.e., the phenyl-substituted ones react about 2 orders of magnitude faster than the tert-butyl-substituted ones; and (3) the strong acceleration by the sulfur donors in the tripods, reaching 4 orders of magnitude between the reaction times of the (N3)Zn-SR and (S3)Zn-SR complexes.

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Biomimetic Thiolate Alkylation with Zinc Pyrazolylbis(thioimidazolyl)borate Complexes

Ibrahim

Benkmil

et al. 2005

Eur J Inorg Chem

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The NS 2 ZnX coordination in thiolate-alkylating zinc enzymes is reproduced in (tripod)ZnX complexes with substituted pyrazolylbis(thioimidazolyl)borate tripod ligands. Intermediate (tripod)Zn nitrates and perchlorates are converted into (tripod)Zn thiolates, including the biologically relevant homocysteinate. Methylation with CH 3 I converts these to (tripod)ZnI and the corresponding thioethers CH 3 SR, including methionine. A kinetic investigation has shown the alky-

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Metal ion effects on the asymmetric dimerization of 1-phenyl-3,4-dimethylphosphole

Qin

Mok

et al. 2000

Chem. Commun.

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Metal Template Synthesis and Coordination Chemistry of Functionalized P-Chiral Phosphanorbornenes

Leung

Lang

et al. 2000

Tetrahedron

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Zn−OH₂ and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

et al. 2006

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The complete array of those hydrotris(pyrazolyl/thioimidazolyl)borate ligands that were developed and used in the author's laboratories, with N3, N2S, NS2, and S3 donor sets, was scanned for their ability to form Zn-OH2 and Zn-OH complexes. The coordination motifs found were Zn-OH2, Zn-OH, Zn-OH-Zn, and Zn-O2H3-Zn. Of these, the well-established Zn-OH motif was complemented with novel species bearing N3, NS2, and S3 tripods. The Zn-OH2 motif was observed only with pyrazolylborate ligands and only in unusual situations with coordination numbers higher than 4 for zinc. The new Zn-OH-Zn motif was realized for three different pyrazolylborates, for one NS2 tripod, and for two S3 tripods. Finally, it was verified that the Zn-O2H3-Zn motif again occurs only with pyrazolylborate ligands. The new complexes were identified by a total of 11 structure determinations.

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Guosen He

Thiolate Alkylation in Tripod Zinc Complexes: A Comparative Kinetic Study

Biomimetic Thiolate Alkylation with Zinc Pyrazolylbis(thioimidazolyl)borate Complexes

Metal ion effects on the asymmetric dimerization of 1-phenyl-3,4-dimethylphosphole

Metal Template Synthesis and Coordination Chemistry of Functionalized P-Chiral Phosphanorbornenes

Zn−OH₂ and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

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Guosen He

Thiolate Alkylation in Tripod Zinc Complexes: A Comparative Kinetic Study

Biomimetic Thiolate Alkylation with Zinc Pyrazolylbis(thioimidazolyl)borate Complexes

Metal ion effects on the asymmetric dimerization of 1-phenyl-3,4-dimethylphosphole

Metal Template Synthesis and Coordination Chemistry of Functionalized P-Chiral Phosphanorbornenes

Zn−OH2 and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study

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Product

Resources

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Zn−OH₂ and Zn−OH Complexes with Hydroborate-Derived Tripod Ligands: A Comprehensive Study