scholarly article | Q13442814 |
P356 | DOI | 10.1039/C3DT52350K |
P8608 | Fatcat ID | release_7lazhf32wzhvvhd7qvron2eehu |
P698 | PubMed publication ID | 24654008 |
P5875 | ResearchGate publication ID | 261000104 |
P50 | author | Eringathodi Suresh | Q39993902 |
Muniyandi Sankaralingam | Q86519560 | ||
Natarajan Saravanan | Q96202148 | ||
P2093 | author name string | Mallayan Palaniandavar | |
Natarajan Anitha | |||
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Crystal structure of an aromatic ring opening dioxygenase LigAB, a protocatechuate 4,5-dioxygenase, under aerobic conditions | Q27619532 | ||
The 1.8 A crystal structure of catechol 1,2-dioxygenase reveals a novel hydrophobic helical zipper as a subunit linker | Q27622422 | ||
Structure of Acinetobacter strain ADP1 protocatechuate 3, 4-dioxygenase at 2.2 A resolution: implications for the mechanism of an intradiol dioxygenase | Q27625306 | ||
Crystal Structures of Fe2+ Dioxygenase Superoxo, Alkylperoxo, and Bound Product Intermediates | Q27644520 | ||
Crystal structure of the biphenyl-cleaving extradiol dioxygenase from a PCB-degrading pseudomonad | Q27729302 | ||
Structure of protocatechuate 3,4-dioxygenase from Pseudomonas aeruginosa at 2.15 A resolution | Q27730790 | ||
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The axial tyrosinate Fe3+ ligand in protocatechuate 3,4-dioxygenase influences substrate binding and product release: evidence for new reaction cycle intermediates | Q27748882 | ||
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Dioxygen activation at mononuclear nonheme iron active sites: enzymes, models, and intermediates | Q35660894 | ||
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Spectroscopic and electronic structure study of the enzyme-substrate complex of intradiol dioxygenases: substrate activation by a high-spin ferric non-heme iron site | Q42531901 | ||
Novel square pyramidal iron(III) complexes of linear tetradentate bis(phenolate) ligands as structural and reactive models for intradiol-cleaving 3,4-PCD enzymes: Quinone formation vs. intradiol cleavage | Q42909701 | ||
Selective extradiol cleavage of catechol achieved in organized assemblies using [Fe(BPA)Cl(3)] (BPA = bis(pyridylmethyl)amine). | Q43183256 | ||
Iron(III) complexes of tripodal monophenolate ligands as models for non-heme catechol dioxygenase enzymes: correlation of dioxygenase activity with ligand stereoelectronic properties. | Q43289092 | ||
Extradiol oxidative cleavage of catechols by ferrous and ferric complexes of 1,4,7-triazacyclononane: insight into the mechanism of the extradiol catechol dioxygenases | Q43678118 | ||
Novel iron(III) complexes of tripodal and linear tetradentate bis(phenolate) ligands: close relevance to intradiol-cleaving catechol dioxygenases | Q44682137 | ||
How O2 binds to heme: reasons for rapid binding and spin inversion | Q44748878 | ||
Iron(III) complexes of sterically hindered tetradentate monophenolate ligands as functional models for catechol 1,2-dioxygenases: the role of ligand stereoelectronic properties. | Q45077451 | ||
Acid-base catalysis in the extradiol catechol dioxygenase reaction mechanism: site-directed mutagenesis of His-115 and His-179 in Escherichia coli 2,3-dihydroxyphenylpropionate 1,2-dioxygenase (MhpB). | Q45112105 | ||
A linear correlation between energy of LMCT band and oxygenation reaction rate of a series of catecholatoiron(III) complexes: initial oxygen binding during intradiol catechol oxygenation | Q45263514 | ||
Functional models for catechol dioxygenases: iron(III) complexes of cis-facially coordinating linear 3N ligands. | Q46439835 | ||
Novel iron(III) complexes of sterically hindered 4N ligands: regioselectivity in biomimetic extradiol cleavage of catechols | Q46505182 | ||
Roles of the equatorial tyrosyl iron ligand of protocatechuate 3,4-dioxygenase in catalysis | Q46651093 | ||
Correlation of spin states and spin delocalization with the dioxygen reactivity of catecholatoiron(III) complexes | Q46810779 | ||
Iron(III) complexes of tridentate 3N ligands as functional models for catechol dioxygenases: the role of ligand N-alkyl substitution and solvent on reaction rate and product selectivity. | Q46934010 | ||
Biomimetic iron(III) complexes of N3O and N3O2 donor ligands: protonation of coordinated ethanolate donor enhances dioxygenase activity | Q50436595 | ||
A new tripodal iron(III) monophenolate complex: effects of ligand basicity, steric hindrance, and solvent on regioselective extradiol cleavage. | Q50690305 | ||
Tuning the Regiospecificity of Cleavage in FeIII Catecholate Complexes: Tridentate Facial versus Meridional Ligands. | Q52715064 | ||
Iron(III) complexes of N2O and N3O donor ligands as functional models for catechol dioxygenase enzymes: ether oxygen coordination tunes the regioselectivity and reactivity. | Q53232358 | ||
Modeling the 2-His-1-carboxylate facial triad: iron-catecholato complexes as structural and functional models of the extradiol cleaving dioxygenases. | Q53573979 | ||
A new synthesis of bis(2-{pyrid-2-yl}ethyl)amine (LH) from bis(2-{pyrid-2-yl}ethyl)hydroxylamine (LOH), and the copper-dependent reduction of LOH to LHElectronic supplementary information (ESI) available: Full synthetic procedures and analytical data | Q56482635 | ||
MECHANISM OF THE PYROCATECHASE REACTION | Q56812999 | ||
Synthesis, structure and dioxygen reactivity of a bis(µ-iodo)dicopper(i) complex supported by the [N-(3,5-di-tert-butyl-2-hydroxybenzyl)-N,N-di-(2-pyridylmethyl)]amine ligand | Q58376485 | ||
P433 | issue | 18 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | biomimetics | Q1145644 |
P304 | page(s) | 6828-6841 | |
P577 | publication date | 2014-05-01 | |
P1433 | published in | Dalton Transactions | Q282900 |
P1476 | title | Biomimetic iron(III) complexes of facially and meridionally coordinating tridentate 3N ligands: tuning of regioselective extradiol dioxygenase activity in organized assemblies | |
P478 | volume | 43 |
Q38543236 | New avenues for ligand-mediated processes--expanding metal reactivity by the use of redox-active catechol, o-aminophenol and o-phenylenediamine ligands | cites work | P2860 |