A Molecular Mechanics Force Field for Alkylcobaloximes, a Model of Vitamin B12 Coenzyme – Implications of Steric and Electronic Factors in the Co–C Bond Cleavage

Geremia, Silvano; Calligaris, M.; Randaccio, Lucio

doi:10.1002/(sici)1099-0682(199906)1999:6<981::aid-ejic981>3.0.co;2-i

Cited by 22 publications

(15 citation statements)

References 61 publications

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“…These structural features are in agreement with recent molecular mechanics calculations for LCo(DH) 2 Me (L is a planar N donor ligand) based on a new approach which also takes the contribution of the electronic trans influence into account. [5] These calculations have furnished profiles of the strain energy against the ϕ angle, which is characterised by a large maximum centred at ϕ ϭ 90°and a minimum at ϕ ϭ 0°, the difference in height ranging from 8 to 40 kJ/mol and increasing with the L bulk. [5] In addition, the large maximum at approximately ϕ ϭ 90°has a fine structure, consisting of two nearly equal maxima at about 55°and 145°, separated by a relative minimum at ϕ ϭ 90°.…”

Section: Discussionmentioning

confidence: 99%

“…[5] These calculations have furnished profiles of the strain energy against the ϕ angle, which is characterised by a large maximum centred at ϕ ϭ 90°and a minimum at ϕ ϭ 0°, the difference in height ranging from 8 to 40 kJ/mol and increasing with the L bulk. [5] In addition, the large maximum at approximately ϕ ϭ 90°has a fine structure, consisting of two nearly equal maxima at about 55°and 145°, separated by a relative minimum at ϕ ϭ 90°. This suggested that orientation C (Scheme 2) is energetically even less favoured than orientation B.…”

Section: Discussionmentioning

confidence: 99%

“…[2] This finding has renewed interest in the nature of the CoϪL bond in simple models. [3,4,5] The early hypothesis [1] that the CoϪL distance is influenced by the orientation of the planar L ligand, measured by the torsional angle ϕ around that bond, has been confirmed. [6Ϫ8] In orientation A (Scheme 2), when ϕ is close to 0, the CoϪL distance is found to be shorter by about 0.03 Å than in orientation B (Scheme 2), corresponding to ϕ close to 90°.…”

Section: Introductionmentioning

confidence: 99%

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New Alkyl−Cobalt(III) Complexes with Tridentate Amino−Oxime Ligands: Synthesis, Structure, and Reactivity

Dreos

Felluga

Nardin

et al. 2001

Eur. J. Inorg. Chem.

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The oxidative addition of alkyl halides to the Co I species generated by the reduction of [Co III (LNHpy)(HLNHpy)]-(ClO 4 ) 2 (1), where HLNHpy is the tridentate 2-(2-pyridylethyl)amino-3-butanone oxime ligand and LNHpy is its conjugate base, led to the formation of a new class of organocobalt complexes of general formula [RCo III (LNHpy)(HLNHpy)]-(ClO 4 ) [R = Me (2a), Et (2b), CH 2 CF 3 (2c), nBu (2d), and CH 2 Cl (2e)]. All the complexes were characterised by 1 H and 13 C NMR spectroscopy. The X-ray structures of 2a, 2b and [a]

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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New Alkyl−Cobalt(III) Complexes with Tridentate Amino−Oxime Ligands: Synthesis, Structure, and Reactivity

Dreos

Felluga

Nardin

et al. 2001

Eur. J. Inorg. Chem.

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“…The observed bond lengths in the octahedron of complex 2 can be slightly modified by the packing effects, which can force the molecule into a strained conformation. 29 At the same time, the axial DMF ligand was expected to have lower σ-donor ability in the structure of complex 2. So the bond lengths around the central Ni atom of complex 2 are all slightly shorter than the corresponding ones of compound 1.…”

Section: Crystal Structurementioning

confidence: 99%

Syntheses, Structures and Antibacterial Activities of Two Nickel(II) Complexes with N‐Hexanoylsalicylhydrazide Ligand

Yang

Lin

et al. 2005

Chin. J. Chem.

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2), were prepared by the reaction of Ni(OAc) 2 •4H 2 O with N-hexanoylsalicylhydrazide. The crystal structures of complexes were determined by X-ray diffraction analysis. Complex 1 takes triclinic symmetry with space group P-1 and cell dimensions of a＝0.92377(2) nm, b＝1.08786 (6) nm, c＝1.29391(3) nm, α＝76.395(4)°, β＝78.418(3)°, γ＝67.378(4)°, V＝1.15772(7) nm 3 , Z＝1, µ＝12.63 cm -1 . Complex 2 belongs to triclinic system and P2(1) space group and the crystallographic data: a＝1.4889(2) nm, b＝1.0389(1) nm, c＝1.4994(2) nm, β＝ 96.174(4)°, V＝2.3058(5) nm 3 , Z＝2, µ＝12.70 cm -1 . The structures of the two molecules are similar. The threenickel atoms in each molecule of the two title complexes arrange in a strictly linear structure. The central nickel atom of the molecule adopts octahedral configuration, while the two nickel atoms on the two sides adopt square-planar configuration in each molecule. But the central nickel atoms of the two complexes have different axial ligands, which cause a slight difference in the bond distances of the octahedron. The antibacterial activity of compound 1 against seven common bacteria was investigated.

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“…These studies were useful in understanding the mechanism of Co-C bond cleavage in the vitamin B 12 coenzyme. Marques et al 11 and Randaccio et al 12 studied the molecular mechanism of modelling of cobaloximes. Halpern et al 13 studied the hydrolytic dealkylation of organo-cobaloximes related to coenzyme B 12 .…”

Section: Introductionmentioning

confidence: 99%

Coenzyme B12 model studies: Equilibrium constants for the pH-dependent axial ligation of benzyl(aquo)cobaloxime by various N- and S-donor ligands

Reddy

Sridhar

et al. 2002

J Chem Sci

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Equilibria of the axial ligation of benzyl(aquo)cobaloximes by imidazole, 1-methyl imidazole, histidine, histamine, glycine, ethyl glycine ester, thiourea and urea have been spectrophotometrically measured in aqueous solutions of ionic strength 1⋅0 M (KCl) at 25°C as a function of pH. The equilibrium constants are in the order CN-> 1-methyl imidazole > imidazole > histidine > histamine > glycine > ethyl glycine ester > thiourea > urea. The order of stability of benzyl(ligand)cobaloxime is explained based on the basicity of the ligand, Co(III) → L dπ-pπ back bonding and soft-soft and soft-hard interaction. Imidazole, substituted imidazoles, histidine and histamine form more stable complexes than glycine, ethyl glycine ester in contrast to the basicity of the ligands. Benzyl(ligand)cobaloximes were isolated and characterized by elemental analysis, IR and 1 H NMR spectra.

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A Molecular Mechanics Force Field for Alkylcobaloximes, a Model of Vitamin B12 Coenzyme – Implications of Steric and Electronic Factors in the Co–C Bond Cleavage

Cited by 22 publications

References 61 publications

New Alkyl−Cobalt(III) Complexes with Tridentate Amino−Oxime Ligands: Synthesis, Structure, and Reactivity

New Alkyl−Cobalt(III) Complexes with Tridentate Amino−Oxime Ligands: Synthesis, Structure, and Reactivity

Syntheses, Structures and Antibacterial Activities of Two Nickel(II) Complexes with N‐Hexanoylsalicylhydrazide Ligand

Coenzyme B12 model studies: Equilibrium constants for the pH-dependent axial ligation of benzyl(aquo)cobaloxime by various N- and S-donor ligands

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