2016
DOI: 10.1021/acs.inorgchem.6b02189
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Hiding in Plain Sight: The Bimetallic Magnesium Covalent Bond in Enzyme Active Sites

Abstract: The transfer of phosphate groups is an essential function of many intracellular biological enzymes. The transfer is, in many cases, facilitated by a protein scaffold involving two closely spaced magnesium “ions”. It has long been a mystery as to how these “ions” can retain their closely spaced positions throughout enzymatic phosphate transfer: Coulomb’s law would dictate large repulsive forces between these ions at observed distances. Here we show, however, that the electron density can be borrowed from nearby… Show more

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Cited by 13 publications
(18 citation statements)
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References 27 publications
(52 reference statements)
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“…3 ). The product metal, therefore, inhibits the reverse reaction, promoting the forward (synthesis) reaction, consistent with stable product complexes (DNA/PP i ) of pols μ or β that do not form dNTP and DNA −1 , and computational studies 17 , 18 , 47 . Notably, a PP i analog (PNP) that decreases the chemical and overall equilibrium, permits crystallographic characterization of the reverse reaction 48 .…”
Section: Discussionsupporting
confidence: 55%
“…3 ). The product metal, therefore, inhibits the reverse reaction, promoting the forward (synthesis) reaction, consistent with stable product complexes (DNA/PP i ) of pols μ or β that do not form dNTP and DNA −1 , and computational studies 17 , 18 , 47 . Notably, a PP i analog (PNP) that decreases the chemical and overall equilibrium, permits crystallographic characterization of the reverse reaction 48 .…”
Section: Discussionsupporting
confidence: 55%
“…The positive ΔH ex values of ligands without benzene moieties (I-III) show that the η 6 coordination is more important for the stabilization than the carbene moieties. The MnÀ Mn bond lengths of these complexes (1-3), which are in the range of 1.73-1.75 Å, are shorter than those of the carbene complexes featuring η 6 coordination (1.87-2.08 Å), but still [c] 150 + 11.0 (À 2.9) À 94.1 + 179.7 12' [d] DACBz 2.02 1.36 1.58 2.041 [c] 159 (4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15)(16)(17)(18) are significantly larger than that of Mn 2 Bz 2 , highlighting once more the thermodynamic stability of these systems.…”
Section: Overview Of the Mn 2 L 2 Systemsmentioning
confidence: 99%
“…As a consequence, compounds featuring metal‐metal bonds are now widely used in organometallic catalysis, [9] small molecule activation, [10] photochemistry, [11] and in the development of metal‐organic frameworks [12] and extended metal atom chains [13] . Metal‐metal bonds also play a crucial role in biological processes, not only stabilizing low‐valence states and initiating oxidative addition reactions in metalloenzymes, [14] but also allowing the transfer of phosphate groups in for example DNA polymerases [15] …”
Section: Introductionmentioning
confidence: 99%
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“…The interactions among these components are interdependent such that chemistry depends upon hydrogen bonding between the template base and incoming nucleotide base, as well as interactions between the enzyme and the triphosphate group of the incoming nucleotide, among others. A key component in this network of interactions is the integrity of a charge neutralization system between two closely positioned divalent metal ions, water molecules, enzyme side chains, and the triphosphate group of the incoming nucleotide 8 .…”
Section: Introductionmentioning
confidence: 99%