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Stabilizing intramolecular cobalt-imidazole coordination with a remote methyl group in the backbone of a cofactor B12-protein modelElectronic supplementary information (ESI) available: Experimental details. See DOI: 10.1039/c8dt01298a
This communication describes the stabilizing effect (ΔΔ G ° = −4 kJ mol −1 ) of a remote methyl group in the backbone of a cobalamin-enzyme mimic on intramolecular imidazole-cobalt coordination. For this purpose, two B 12 derivatives with an appended imidazole base were synthesized and analysed with...
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| container_end_page | 1446 |
| container_issue | 31 |
| container_start_page | 1443 |
| container_title | |
| container_volume | 47 |
| creator | Sonnay, Marjorie Zelder, Felix |
| description | This communication describes the stabilizing effect (ΔΔ
G
° = −4 kJ mol
−1
) of a remote methyl group in the backbone of a cobalamin-enzyme mimic on intramolecular imidazole-cobalt coordination. For this purpose, two B
12
derivatives with an appended imidazole base were synthesized and analysed with spectrophotometric pH titrations. Qualitative conformation analysis of the backbone structure suggests that a thermodynamically unfavoured
gauche
interaction in the base-off form of a model containing an (
R
)-configured CH
3
group at position C176 of the linker between the corrin ring and the terminal imidazole ligand steers the base toward cobalt coordination.
This communication describes the stabilizing effect of a remote methyl group in the backbone of a cobalamin-protein mimic on intramolecular imidazole-cobalt coordination. |
| doi_str_mv | 10.1039/c8dt01298a |
| format | article |
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G
° = −4 kJ mol
−1
) of a remote methyl group in the backbone of a cobalamin-enzyme mimic on intramolecular imidazole-cobalt coordination. For this purpose, two B
12
derivatives with an appended imidazole base were synthesized and analysed with spectrophotometric pH titrations. Qualitative conformation analysis of the backbone structure suggests that a thermodynamically unfavoured
gauche
interaction in the base-off form of a model containing an (
R
)-configured CH
3
group at position C176 of the linker between the corrin ring and the terminal imidazole ligand steers the base toward cobalt coordination.
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G
° = −4 kJ mol
−1
) of a remote methyl group in the backbone of a cobalamin-enzyme mimic on intramolecular imidazole-cobalt coordination. For this purpose, two B
12
derivatives with an appended imidazole base were synthesized and analysed with spectrophotometric pH titrations. Qualitative conformation analysis of the backbone structure suggests that a thermodynamically unfavoured
gauche
interaction in the base-off form of a model containing an (
R
)-configured CH
3
group at position C176 of the linker between the corrin ring and the terminal imidazole ligand steers the base toward cobalt coordination.
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G
° = −4 kJ mol
−1
) of a remote methyl group in the backbone of a cobalamin-enzyme mimic on intramolecular imidazole-cobalt coordination. For this purpose, two B
12
derivatives with an appended imidazole base were synthesized and analysed with spectrophotometric pH titrations. Qualitative conformation analysis of the backbone structure suggests that a thermodynamically unfavoured
gauche
interaction in the base-off form of a model containing an (
R
)-configured CH
3
group at position C176 of the linker between the corrin ring and the terminal imidazole ligand steers the base toward cobalt coordination.
This communication describes the stabilizing effect of a remote methyl group in the backbone of a cobalamin-protein mimic on intramolecular imidazole-cobalt coordination.</abstract><doi>10.1039/c8dt01298a</doi><tpages>4</tpages></addata></record> |
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| source | Royal Society of Chemistry Journals |
| title | Stabilizing intramolecular cobalt-imidazole coordination with a remote methyl group in the backbone of a cofactor B12-protein modelElectronic supplementary information (ESI) available: Experimental details. See DOI: 10.1039/c8dt01298a |
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