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Dinitrozylowe kopleksy żelaza – półwieku badane a jednak nieznane
- Wysokocząsteczkowe ligandy – masa cząsteczkowa powyżej 100kD
- Niskocząsteczkowe ligandy – masa cząsteczkowa poniżej 100kDa
- Vanin A.F., Nalbandyan. 1965. Free radical species of a new type in yeast cells. Biofizyka (Russia) 10 pp. 167-168
- Vanin A.F., Nalbandyan. 1966. Free radical species with unpaired electron localization on sulfur atom in yeast cells. Biofizyka (Russia) 11 pp. 178-179
- Vithaythil A.J., Ternberg J.L., Commoner B. 1965. Changes in electron spin resonance signals of rat liver during chemical carcinogenesis. Nature 207 pp. 1240-1249
- Palmer R.M., Ferrige A.G., Moncada S. 1987. Nitric oxide release accounts for the biological activity of endothelium-derived relaxing factor. Nature 327 (6122) pp. 524-526
- Vanin A.F. 1998. Dinitrosyl-iron complexes and S-nitrosothiols are two possible forms of stabilization and transport of nitric oxide in biological systems. Biochemistry 63 pp.782-793
- Vanin A.F. 2004. Dinitrosyl-iron complexes are endogenous signaling agents in human and animal cells and tissues. Hypothesis, Biofizika (Russia) 49 pp.581-586
- Reginato N., McCrory C.T.C., Pervitsky D., Li L. 1999. Synthesis, X-ray crystal structure, and solution behavior of Fe(NO)2(2-MeIm)2: implications for nitrosyl-iron complexes with g=2,03. J.Am. Chem. Soc., 121 pp.10217-10218
- Sanina N.A., Rakova O.A., Aldoshin S.M., Shilov G.V., Chuev I.I., Atovmyasn E.G., Ovanesyan N.S. 2001 Synthesis and X-ray and spectral study of the compounds [Q4N]2[Fe2(S2O3)2(NO)4] (Q=Me, Et, n-Pr, n-Bu). Russ. J. Coord. Chem. 27 pp. 179-183
- Sanina N.A., Rakova O.A., Aldoshin S.M., Shilov G.V., Shulga Y.M., Kulikov A.V., Ovanesyan N.S. 2004 Structure of the neutral mononuclear dinitrosyl-iron complex with 1,2,4-triazole-3-thione {Fe(SC2H3N3)2(NO)2]0.5H2O. Mendeleev Comm. (Issue1) pp.1-2
- Tsai M.-I., Chen C.-C., Hsu I.-J., Ke S.-C., Hsien C.-H., Chiang K.-A., Lee G.-H., Wang Y., Chen J.-M., Lee J.-F., Liaw W.-F. 2004. Photochemistry of the dinitrosyl-iron complex [S5Fe(NO)2]- leading to reversible formation of [S5Fe(µ-S)2(FeS5)2-: Spectroscopic charakterization of species relevant to the nitric oxide modification and repair of [2Fe-2S] ferredoxins. Inorg. Chem. 43 pp. 5159-5167
- Chiang C.-Y., Miller M.L., Reibenspies J.H., Darensbourg M.Y. 2004. Bismercaptoethandiazacyclooctane as a N2S2 chelating agent and cys-X-cys mimic for Fe(NO) and Fe(NO)2. J. Am. Chem. Soc. 126 pp.10867-10874
- Chen H.-W., Lin C.-W., Chen C.-C., Yang L.-B., Chiang M.-H., Liaw W.-F. 2005. Homodinuclear iron thiolate nitrosyl compounds [(ON)FeS,S-C6H4)Fe(NO)2]- and [(ON)Fe(SO2,S-C6H4)Fe(NO)2]- with {Fe(NO)}7 - {Fe(NO)}9 Electronic coupling: New members of class of dinitrosyliron complexes. Inorg. Chem. 44 pp.3226-3232
- Wang X., Sundberg E.B., Li L., Kantardjieff K.A., Herron S.R., Lim M., Ford P. 2005.A cycilc tetra-nuclear dinitrosyl-iron complex [Fe(NO)2(imidazolate)4]: synthesis, structure stability. Chem. Comm. pp.477-479
- Cesario E., Parker L.J., Pedersen J.Z., Nuccetelli M., Mazzetti A.P., Pastore A., Federici G., Caccuri A.M., Ricci G., Adams J.J., Parker M.W., LoBello M. 2005. Nitrosylation of human transferase P1-1 with dinitrosyl diglutathionyl iron complex in vitro i in vivo. J. Biol. Chem. 280 pp.42172-42180
- Vanin A.F., Sanina N.A., Serezhenkov V.A., Burbaev D. Sh., Lozinsky V.I., Aldoshin S.M. 2006. Dinitrosyl-iron complexes with thiol-containing ligands: Spatial and electronic structures. Elsevier Nitric Oxide 16 (2007) pp.82-93
- Bryar T.R.; Eaton D.R. 1992. Electronic configuration and structure of paramagnetic iron dinitrosyl complexes. Can. J. Chem. 70 pp. 1917-1926
- Shumaev K.B., Gubkin A.A., Gubkina S.A., Gudkov L.L., Lakomkin V.L., Topunov A.F., Vanin A.F., Ruuge E.K. 2007. Interaction between albumin-bound dinirosyl iron complexes and reactive oxygen species. Biophysics 52(5) pp. 534-538
- Lee M., Arosio P.,Cozzi A., Chasteen N.D. 1994. Identyfication of the EPR-active iron-nitrosyl complexes in mammalian ferritins. Biochemistry 33(12) pp.3679-3687
- Foster H.W., Cowan J.A. 1999. Chemistry of nitric oxide with protein-bound iron sulfur center. Insights on physiological reactvity. J. Am. Chem. Soc. 121 pp.4093-4100
- Bastian N.R., Yim C.Y., Hibbs J.B., Samlowski W.E. 1994. Induction of iron-derived EPR signals in murine cancers by nitric oxide. Evidence for multiple intracellular target. J. Biol. Chem. 269 (7) pp. 5127-5131
- Shergill J.K., Cammack R., Cooper C.E., Cooper J.M., Mann V.M, Schapira A.H. 1996. Detection of nitrosyl complexes in human substantia nigra, in relation to Parkinson’s disease. Biochem. Biophys. Res. Commun. 228 (2) pp.298-305
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