Fluorescence and optical absorption study of interaction of two water soluble porphyrins with bovine serum albumin. The role of albumin and porphyrin aggregation
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[1] M. Tabak,et al. H NMR and electronic absorption spectroscopy of paramagnetic water-soluble meso-tetraarylsubstituted cationic and anionic metalloporphyrins. , 1996, Journal of inorganic biochemistry.
[2] E. Ben-hur,et al. ADVANCES IN PHOTOCHEMICAL APPROACHES FOR BLOOD STERILIZATION , 1995, Photochemistry and photobiology.
[3] P. Collings,et al. Resonance light scattering: a new technique for studying chromophore aggregation , 1995, Science.
[4] N. Serpone,et al. Laser-induced light attenuation in solutions of porphyrin aggregates , 1995 .
[5] A. E. Senior,et al. INHIBITION OF THE ATPase ACTIVITY OF P‐GLYCOPROTEIN BY PORPHYRIN PHOTOSENSITIZATION OF MULTIDRUG‐RESISTANT CELLS in vitro , 1995, Photochemistry and photobiology.
[6] M. Soncin,et al. UNUSUALLY HIGH AFFINITY OF Zn(II)‐TETRADIBENZOBARRELENOOCTABUTOXY‐ PHTHALOCYANINE FOR LOW‐DENSITY LIPOPROTEINS IN A TUMOR‐BEARING MOUSE , 1995, Photochemistry and photobiology.
[7] C. Tanielian,et al. EFFECT OF AGGREGATION ON THE HEMATOPORPHYRIN‐SENSITIZED PRODUCTION OF SINGLET MOLECULAR OXYGEN , 1995 .
[8] R. Margalit,et al. THERMODYNAMICS OF THE BINDING OF HEMATOPORPHYRIN ESTER, A HEMATOPORPHYRIN DERIVATIVE‐LIKE PHOTOSENSITIZER, AND ITS COMPONENTS TO HUMAN SERUM ALBUMIN, HUMAN HIGH‐DENSITY LIPOPROTEIN AND HUMAN LOW‐DENSITY LIPOPROTEIN , 1993, Photochemistry and photobiology.
[9] M. Mimuro,et al. THE CHLOROPHYLL a AGGREGATE ABSORBING NEAR 685 nm IS SELECTIVELY FORMED IN AQUEOUS TETRAHYDROFURAN * , 1993 .
[10] J. Cannon,et al. Pharmaceutics and drug delivery aspects of heme and porphyrin therapy. , 1993, Journal of pharmaceutical sciences.
[11] G. Fasman,et al. Analysis of the circular dichroism spectrum of proteins using the convex constraint algorithm: a practical guide. , 1992, Analytical biochemistry.
[12] Krasnovskiĭ Aa,et al. [Photosensitized formation of singlet oxygen in water solutions of covalent porphyrin-antibody conjugates]. , 1990 .
[13] G. Cilento,et al. INTERACTION OF ENZYME‐GENERATED SPECIES WITH CHLOROPHYLL‐a AND PROBES BOUND TO SERUM ALBUMINS , 1988, Photochemistry and photobiology.
[14] J. Newman,et al. Photodynamic therapy of viral contaminants with potential for blood banking applications , 1988, Transfusion.
[15] M. El-far,et al. Selective in vivo tumor localization of uroporphyrin isomer I in mouse mammary carcinoma: superiority over other porphyrins in a comparative study. , 1986, Cancer research.
[16] Giulio Jori,et al. DISTRIBUTION OF PORPHYRINS IN THE VARIOUS COMPARTMENTS OF UNILAMELLAR LIPOSOMES OF DIPALMITOYL‐PHOSPHATIDYLCHOLINE AS PROBED BY FLUORESCENCE SPECTROSCOPY , 1986, Photochemistry and photobiology.
[17] J. S. Cohen,et al. Paramagnetic metalloporphyrins as potential contrast agents in NMR imaging , 1984, FEBS letters.
[18] U. Muller-eberhard,et al. Fluorimetric study of the binding of protoporphyrin to haemopexin and albumin. , 1981, Biochemical Journal.
[19] U Kragh-Hansen,et al. Molecular aspects of ligand binding to serum albumin. , 1981, Pharmacological reviews.
[20] P Jones,et al. Equilibrium and kinetic studies of the aggregation of porphyrins in aqueous solution. , 1976, The Biochemical journal.
[21] E. Fleischer,et al. Thermodynamic and kinetic properties of an iron-porphyrin system. , 1971, Journal of the American Chemical Society.
[22] W.Phillip Helman,et al. Quantum Yields for the Photosensitized Formation of the Lowest Electronically Excited Singlet State of Molecular Oxygen in Solution , 1993 .
[23] P. Valk,et al. The distribution of various water soluble radioactive metalloporphyrins in tumor bearing mice. , 1975, Bioinorganic chemistry.
[24] G. M. Badger,et al. The chemistry of heterocyclic compounds , 1961 .