Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand
Density functional theory and quantum mechanics/molecular mechanics computations predict cob(I)alamin (Co+Cbx), a universal B12 intermediate state, to be a pentacoordinated square pyramidal complex, which is different from the most widely accepted viewpoint of its tetracoordinated square planar geom...
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sg-ntu-dr.10356-968382020-03-07T12:37:07Z Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand Kozlowski, Pawel M. Kumar, Manoj Kumar, Neeraj Hirao, Hajime School of Physical and Mathematical Sciences Density functional theory and quantum mechanics/molecular mechanics computations predict cob(I)alamin (Co+Cbx), a universal B12 intermediate state, to be a pentacoordinated square pyramidal complex, which is different from the most widely accepted viewpoint of its tetracoordinated square planar geometry. The square pyramidality of Co+Cbx is inspired by the fact that a Co+ ion, which has a dominant d8 electronic configuration, forms a distinctive Co+--H interaction because of the availability of appropriately oriented filled d orbitals. This uniquely H-bonded Co+Cbx may have catalytic relevance in the context of thermodynamically uphill Co2+/Co+ reduction that constitutes an essential component in a large variety of methyltransferases. 2013-07-16T06:55:10Z 2019-12-06T19:35:36Z 2013-07-16T06:55:10Z 2019-12-06T19:35:36Z 2012 2012 Journal Article Kumar, M., Kumar, N., Hirao, H., & Kozlowski, P. M. (2012). Co 2+ /Co + Redox Tuning in Methyltransferases Induced by a Conformational Change at the Axial Ligand. Inorganic Chemistry, 51(10), 5533-5538. 0020-1669 https://hdl.handle.net/10356/96838 http://hdl.handle.net/10220/11575 10.1021/ic201970k en Inorganic chemistry © 2012 American Chemical Society. |
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Density functional theory and quantum mechanics/molecular mechanics computations predict cob(I)alamin (Co+Cbx), a universal B12 intermediate state, to be a pentacoordinated square pyramidal complex, which is different from the most widely accepted viewpoint of its tetracoordinated square planar geometry. The square pyramidality of Co+Cbx is inspired by the fact that a Co+ ion, which has a dominant d8 electronic configuration, forms a distinctive Co+--H interaction because of the availability of appropriately oriented filled d orbitals. This uniquely H-bonded Co+Cbx may have catalytic relevance in the context of thermodynamically uphill Co2+/Co+ reduction that constitutes an essential component in a large variety of methyltransferases. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Kozlowski, Pawel M. Kumar, Manoj Kumar, Neeraj Hirao, Hajime |
| format |
Article |
| author |
Kozlowski, Pawel M. Kumar, Manoj Kumar, Neeraj Hirao, Hajime |
| spellingShingle |
Kozlowski, Pawel M. Kumar, Manoj Kumar, Neeraj Hirao, Hajime Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| author_sort |
Kozlowski, Pawel M. |
| title |
Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| title_short |
Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| title_full |
Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| title_fullStr |
Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| title_full_unstemmed |
Co 2+ /Co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| title_sort |
co 2+ /co + redox tuning in methyltransferases induced by a conformational change at the axial ligand |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/96838 http://hdl.handle.net/10220/11575 |
| _version_ |
1681034728068612096 |