2020
DOI: 10.1007/s11030-020-10037-x
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Novel metal complexes containing 6-methylpyridine-2-carboxylic acid as potent α-glucosidase inhibitor: synthesis, crystal structures, DFT calculations, and molecular docking

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Cited by 22 publications
(36 citation statements)
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“…The average bond length of M–O for complexes 1 – 4 are calculated to be 2.057 Å, 1.973 Å, 2.132 Å and 1.977 Å, whereas M–N average bond lengths are 2.023 Å, 1.996 Å, 2.15 Å and 2.094 Å, respectively. Similar results of Cu II complexes were reported where Cu–O caboxylate and Cu–N pyridine bond lengths have been ranged from 1.991–2.176 Å to 1.875–2.174 Å, respectively . Similarly, bond lengths of Zn II complexes were reported in a recent literature, where Zn–O caboxylate and Zn–N phen bond lengths have been in the range of 2.064 Å to 2.172 and 2.135 Å to 2.157 Å, respectively .…”
Section: Resultssupporting
confidence: 86%
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“…The average bond length of M–O for complexes 1 – 4 are calculated to be 2.057 Å, 1.973 Å, 2.132 Å and 1.977 Å, whereas M–N average bond lengths are 2.023 Å, 1.996 Å, 2.15 Å and 2.094 Å, respectively. Similar results of Cu II complexes were reported where Cu–O caboxylate and Cu–N pyridine bond lengths have been ranged from 1.991–2.176 Å to 1.875–2.174 Å, respectively . Similarly, bond lengths of Zn II complexes were reported in a recent literature, where Zn–O caboxylate and Zn–N phen bond lengths have been in the range of 2.064 Å to 2.172 and 2.135 Å to 2.157 Å, respectively .…”
Section: Resultssupporting
confidence: 86%
“…This monodetate and bidentate ligation of carboxylate is also governed by the size of metal ion and neighboring ligand. [17] [18] Similarly, bond lengths of Zn II complexes were reported in a recent literature, where Zn-O caboxylate and Zn-N phen bond lengths have been in the range of 2.064 Å to 2.172 and 2.135 Å to 2.157 Å, respectively. [19] The average bond angles for complexes Table 1 presents a summary of structure refinement about complexes 1-4 while the particular bond lengths and bond angles are summarized in Table 2.…”
Section: Structural Descriptionsupporting
confidence: 56%
“…These modes for Mn(II) complexes of picolinate and 6-methypicolinate ligands were found to be 3137 and 3225 cm −1 , respectively. [4,39] Although manganese complexes (complex 1, Mn(II) complexes of picolinate and 6-methylpicolinate) have similar coordination geometry, the substituent difference (Br atom, methyl group, and H atom) at Position 6 in these ligands provided the OH stretching vibration modes to be different from each other. It could be said that these differences are due to the effect of electron-donating properties of different substitutions at Position 6 in these ligands.…”
Section: The Vibrational Frequencies Of Complexes 1 Andmentioning
confidence: 99%
“…In Zn(II) complexes of picolinate and 6-methylpicolinate, the OH stretching bands were obtained at 3475 and 3287 cm −1 . [5,39] While the coordination geometry for the Zn(II) complexes of picolinate and 6-methylpicolinate is different from each other, that of complex 2 is similar to the picolinate complex. Depending complex geometry, the vibrational mode (ν OH) for complex 2 and picolinate complex was obtained at close value contrary to Zn(II) complex of 6-methylpicolinate.…”
Section: The Vibrational Frequencies Of Complexes 1 Andmentioning
confidence: 99%
“…It is the third leading cause of mortality worldwide. [ 15 ] According to the World Health Organization report, more than 400 million people live with diabetes worldwide. In 2016, it was the seventh leading cause of death.…”
Section: Introductionmentioning
confidence: 99%