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W2014927759 abstract "V 51 solid-state NMR and density functional theory (DFT) investigations are reported for a series of pentacoordinate dioxovanadium(V)-dipicolinate [V(V)O2-dipicolinate] and heptacoordinate aquahydroxylamidooxovanadium(V)-dipicolinate [V(V)O-dipicolinate] complexes. These compounds are of interest because of their potency as phosphatase inhibitors as well as their insulin enhancing properties and potential for the treatment of diabetes. Experimental solid-state NMR results show that the electric field gradient tensors in the V(V)O2-dipicolinate derivatives are affected significantly by substitution on the dipicolinate ring and range from 5.8to8.3MHz. The chemical shift anisotropies show less dramatic variations with respect to the ligand changes and range between −550 and −600ppm. To gain insights on the origins of the NMR parameters, DFT calculations were conducted for an extensive series of the V(V)O2- and V(V)O-dipicolinate complexes. To assess the level of theory required for the accurate calculation of the V51 NMR parameters, different functionals, basis sets, and structural models were explored in the DFT study. It is shown that the original x-ray crystallographic geometries, including all counterions and solvation water molecules within 5Å of the vanadium, lead to the most accurate results. The choice of the functional and the basis set at a high level of theory has a relatively minor impact on the outcome of the chemical shift anisotropy calculations; however, the use of large basis sets is necessary for accurate calculations of the quadrupole coupling constants for several compounds of the V(V)O2 series. These studies demonstrate that even though the vanadium compounds under investigations exhibit distorted trigonal bipyramidal coordination geometry, they have a “perfect” trigonal bipyramidal electronic environment. This observation could potentially explain why vanadate and vanadium(V) adducts are often recognized as potent transition state analogs." @default.
W2014927759 created "2016-06-24" @default.
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W2014927759 date "2008-02-04" @default.
W2014927759 modified "2023-10-12" @default.
W2014927759 title "V 51 solid-state NMR and density functional theory studies of vanadium environments in V(V)O2 dipicolinic acid complexes" @default.
W2014927759 cites W1966017460 @default.
W2014927759 cites W1967156362 @default.
W2014927759 cites W1967906720 @default.
W2014927759 cites W1968821990 @default.
W2014927759 cites W1975930550 @default.
W2014927759 cites W1976822711 @default.
W2014927759 cites W1980388632 @default.
W2014927759 cites W1982356449 @default.
W2014927759 cites W1986323140 @default.
W2014927759 cites W1988847383 @default.
W2014927759 cites W1990675770 @default.
W2014927759 cites W1992337223 @default.
W2014927759 cites W1995418486 @default.
W2014927759 cites W1997738577 @default.
W2014927759 cites W2001796461 @default.
W2014927759 cites W2008578315 @default.
W2014927759 cites W2012130053 @default.
W2014927759 cites W2015121853 @default.
W2014927759 cites W2017735837 @default.
W2014927759 cites W2022673999 @default.
W2014927759 cites W2023271753 @default.
W2014927759 cites W2024796877 @default.
W2014927759 cites W2025171097 @default.
W2014927759 cites W2031019334 @default.
W2014927759 cites W2035814331 @default.
W2014927759 cites W2040116591 @default.
W2014927759 cites W2047573962 @default.
W2014927759 cites W2048186142 @default.
W2014927759 cites W2051820316 @default.
W2014927759 cites W2054164390 @default.
W2014927759 cites W2058680766 @default.
W2014927759 cites W2061695907 @default.
W2014927759 cites W2072413448 @default.
W2014927759 cites W2079677000 @default.
W2014927759 cites W2080234211 @default.
W2014927759 cites W2086997985 @default.
W2014927759 cites W2089821001 @default.
W2014927759 cites W2089883628 @default.
W2014927759 cites W2090224914 @default.
W2014927759 cites W2097574296 @default.
W2014927759 cites W2118961621 @default.
W2014927759 cites W2133533377 @default.
W2014927759 cites W2140679871 @default.
W2014927759 cites W2145250069 @default.
W2014927759 cites W2156115804 @default.
W2014927759 cites W2338037715 @default.
W2014927759 cites W2402743136 @default.
W2014927759 cites W2952815462 @default.
W2014927759 cites W2953130956 @default.
W2014927759 cites W3005007953 @default.
W2014927759 cites W3136527958 @default.
W2014927759 cites W4235261249 @default.
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W2014927759 doi "https://doi.org/10.1063/1.2830239" @default.
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