Kachadourian et al., 1999 - Google Patents
Syntheses and Superoxide Dismuting Activities of Partially (1− 4) β-Chlorinated Derivatives of Manganese (III) m eso-Tetrakis (N-ethylpyridinium-2-yl) porphyrinKachadourian et al., 1999
- Document ID
- 7597032809797553167
- Author
- Kachadourian R
- Batinić-Haberle I
- Fridovich I
- Publication year
- Publication venue
- Inorganic Chemistry
External Links
Snippet
Manganese (III) β-mono-, di-, tri-, and tetrachloro-5, 10, 15, 20-tetrakis (N-ethylpyridinium-2- yl) porphyrin (MnCl x TE-2-PyP5+, with x from 1 to 4) were prepared through β-chlorination of 5, 10, 15, 20-tetrakis (2-pyridyl) porphyrin (H2T-2-PyP) followed by N-ethylation and …
- 230000000694 effects 0 title abstract description 132
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Kachadourian et al. | Syntheses and Superoxide Dismuting Activities of Partially (1− 4) β-Chlorinated Derivatives of Manganese (III) m eso-Tetrakis (N-ethylpyridinium-2-yl) porphyrin | |
| Batinić-Haberle et al. | Relationship among redox potentials, proton dissociation constants of pyrrolic nitrogens, and in vivo and in vitro superoxide dismutating activities of manganese (III) and iron (III) water-soluble porphyrins | |
| Bhunia et al. | Second sphere effects on oxygen reduction and peroxide activation by mononuclear iron porphyrins and related systems | |
| Vance et al. | Novel insights into the basis for Escherichia coli superoxide dismutase's metal ion specificity from Mn-substituted FeSOD and its very high E m | |
| Spasojević et al. | Manganese (III) biliverdin IX dimethyl ester: a powerful catalytic scavenger of superoxide employing the Mn (III)/Mn (IV) redox couple | |
| Batinić-Haberle et al. | Manganese (III) meso-tetrakis (ortho-N-alkylpyridyl) porphyrins. Synthesis, characterization, and catalysis of O 2− dismutation | |
| Lee et al. | Manganese porphyrins as redox-coupled peroxynitrite reductases | |
| Iranzo et al. | Cooperativity between metal ions in the cleavage of phosphate diesters and RNA by dinuclear Zn (II) catalysts | |
| Sessler et al. | Sapphyrins: versatile anion binding agents | |
| Lombard et al. | Superoxide reductase from Desulfoarculus baarsii: reaction mechanism and role of glutamate 47 and lysine 48 in catalysis | |
| Batinić-Haberle et al. | New class of potent catalysts of O 2− dismutation. Mn (iii) ortho-methoxyethylpyridyl-and di-ortho-methoxyethylimidazolylporphyrins | |
| Bari et al. | Fast nitroxyl trapping by ferric porphyrins | |
| Batinić-Haberle et al. | Superoxide dismutase mimics: chemistry, pharmacology, and therapeutic potential | |
| Sessler et al. | Synthetic expanded porphyrin chemistry | |
| Jensen et al. | Peroxynitrite decomposition activity of iron porphyrin complexes | |
| Low et al. | Photoinduced oxidation of microperoxidase-8: Generation of ferryl and cation-radical porphyrins | |
| Brezova et al. | Role of radicals and singlet oxygen in photoactivated DNA cleavage by the anticancer drug camptothecin: An electron paramagnetic resonance study | |
| Hyland et al. | Meso-tetrakis (pentafluorophenyl) porphyrin-derived chromene-annulated chlorins | |
| Drzewiecka-Matuszek et al. | Effects of heavy central metal on the ground and excited states of chlorophyll | |
| Yu et al. | Adding a second quinol to a redox-responsive MRI contrast agent improves its relaxivity response to H2O2 | |
| Costa et al. | A new mixed-valence Mn (II) Mn (III) compound with catalase and superoxide dismutase activities | |
| Okun et al. | Fine tuning the reactivity of corrole-based catalytic antioxidants | |
| Spasojević et al. | Rotational isomers of N-alkylpyridylporphyrins and their metal complexes. HPLC separation, 1H NMR and X-ray structural characterization, electrochemistry, and catalysis of O2•-disproportionation | |
| Spasojević et al. | Manganese (III) complexes with porphyrins and related compounds as catalytic scavengers of superoxide | |
| Mahal et al. | Radical scavenging and catalytic activity of metal− phenolic complexes |