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Mendeleev Communications, 2020, Volume 30, Issue 5, Pages 621–623
DOI: https://doi.org/10.1016/j.mencom.2020.09.023 (Mi mendc1272) 		 
This article is cited in 23 scientific papers (total in 23 papers)

Communications

Aggregation of water soluble octaanionic phthalocyanines and their photoinactivation antimicrobial effect in vitro

D. B. Berezina, V. V. Makarova, S. A. Znoykoa, V. E. Mayzlisha, A. V. Kustovab

a Research Institute of Macroheterocycles, Ivanovo State University of Chemistry and Technology, Ivanovo, Russian Federation
b G.A. Krestov Institute of Solution Chemistry, Russian Academy of Sciences, Ivanovo, Russian Federation
Full-text PDF (376 kB) Citations (23)
DOI: https://doi.org/10.1016/j.mencom.2020.09.023
Abstract: Aggregation of sulfophenylsulfanyl-substituted phthalocyanine and its aluminum complex has been investigated in aqueous solutions of DMF or nonionic surfactant Tween 80 by UV-VIS spectroscopy and DLS. Aluminum complex is less aggregated and 4.5 orders of magnitude stronger bound to the micelles of Tween 80 compared to a metal-free ligand. Under irradiation the phthalocyanine derivatives reveal a pronounced antimicrobial activity towards both Gram(+) and Gram(−) archive microflora in vitro.
Keywords: antimicrobial photodynamic therapy, photosensitizer, water soluble phthalocyanine, aggregation, nonionic surfactant, microorganisms photoinactivation.
Document Type: Article
Language: English
Supplementary materials:
Supplementary_data_1.pdf (1.1 Mb)


Citation: D. B. Berezin, V. V. Makarov, S. A. Znoyko, V. E. Mayzlish, A. V. Kustov, “Aggregation of water soluble octaanionic phthalocyanines and their photoinactivation antimicrobial effect in vitro”, Mendeleev Commun., 30:5 (2020), 621–623
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  • https://www.mathnet.ru/eng/mendc/v30/i5/p621
    • This publication is cited in the following 23 articles:
    1. P. D. Krutov, V. E. Maizlish, O. N. Krutova, T. R. Usacheva, M. I. Bazanov, M. V. Chislov, E. E. Kiptikova, “Thermochemistry of the Dissolution of Tetra-4-carboxyphthalocyanine Hydroxyaluminum in Aqueous Solutions of KOH at 298.15 K”, Russ. J. Phys. Chem., 99:1 (2025), 19  crossref
    2. Derya Güngördü Solğun, Sadin Özdemir, Mehmet Salih Ağ{\i}rtaş, Gülşah Tollu, “Synthesis and biological properties of benzyl 2-(oxy)benzoate-substituted silicon phthalocyanine”, J Incl Phenom Macrocycl Chem, 104:3-4 (2024), 137  crossref
    3. P. D. Krutov, V. E. Maizlish, O. N. Krutova, V. V. Chernikov, M. I. Bazanov, E. E. Kiptikova, “Thermochemistry of the Dissolution of Copper Tetra-3-carboxyphtalocyanine in Aqueous Solutions of KOH at 298.15 K”, Russ. J. Phys. Chem., 98:10 (2024), 2233  crossref
    4. Andréia da Cruz Rodrigues, Juliana Kafka Bilha, Priscila Romero Mazzini Pereira, Clóvis Wesley Oliveira de Souza, Michel Rodrigo Zambrano Passarini, Marciana Pierina Uliana, “Photoinactivation of microorganisms using bacteriochlorins as photosensitizers”, Braz J Microbiol, 55:2 (2024), 1139  crossref
    5. V. A. Mozgova, N. G. Bichan, E. N. Ovchenkova, E. V. Motorina, M. S. Gruzdev, T. N. Lomova, “Equilibria and Rates of Formation of New Donor-Acceptor Systems Based on the Porphyrin Complex of Cobalt(II) and Fulleropyrrolidine”, Russ. J. Phys. Chem., 98:14 (2024), 3347  crossref
    6. O. N. Krutova, V. E. Maizlish, A. I. Lytkin, V. V. Chernikov, A. V. Volkov, A. E. Fedotova, P. D. Krutov, “Thermochemistry of the Dissolution of Tetra-4-carboxymetallophthalocyanines in Aqueous Solutions of KOH at 298.15 K”, Russ. J. Phys. Chem., 97:2 (2023), 318  crossref
    7. Angelo Frei, Anthony D. Verderosa, Alysha G. Elliott, Johannes Zuegg, Mark A. T. Blaskovich, “Metals to combat antimicrobial resistance”, Nat Rev Chem, 7:3 (2023), 202  crossref
    8. Vladimir Baklagin, Vyacheslav Baklagin, Aleksandr Kotov, Igor Abramov, “Synthesis of substituted 4-aryloxypthalic acids based on 4-nitro-N-methylphthalimide”, From Chemistry Towards Technology Step-By-Step, 4:2 (2023), 51  crossref
    9. O. N. Krutova, V. E. Maizlish, V. V. Chernikov, T. V. Tikhomirova, P. D. Krutov, “Thermochemistry of the Dissolution of Tetra-4-(4'-carboxyphenyoxy)- and Tetra-4-(4'-carboxyphenylthio)phthalocyanines of Copper in Aqueous Solutions of KOH at 298.15 K”, Russ. J. Phys. Chem., 97:6 (2023), 1142  crossref
    10. O. N. Krutova, V. E. Maizlish, A. I. Lytkin, V. V. Chernikov, A. V. Volkov, A. E. Fedotova, P. D. Krutov, “Thermochemistry of the Dissolution of Tetra-4-carboxymetallophthalocyanines in Aqueous Solutions of KOH at 298.15 K”, Russian Journal of Physical Chemistry, 97:2 (2023), 199  crossref
    11. Dmitry B. Berezin, Sergey O. Kruchin, Natal'ya V. Kukushkina, Evgeny A. Venediktov, Mikhail O. Koifman, Andrey V. Kustov, “Water-Soluble Dicationic Deuteroporphyrin Derivative for Antimicrobial PDT: Singlet Oxygen Generation, Passive Carrier Interaction and Nosocomial Bacterial Strains Photoinactivation”, Photochem, 3:1 (2023), 171  crossref
    12. Vladimir Baklagin, Vyacheslav Baklagin, Aleksandr Kotov, Igor Abramov, “Synthesis of substituted 4-aryloxypthalic acids based on 4-nitro-N-methylphthalimide”, From Chemistry Towards Technology Step-By-Step, 4:2 (2023), 97  crossref
    13. O. N. Krutova, V. E. Maizlish, V. V. Chernikov, T. V. Tikhomirova, P. D. Krutov, “Thermochemistry of the Dissolution of Tetra-4-(4'-carboxyphenyoxy)- and Tetra-4-(4'-carboxyphenylthio)phthalocyanines of Copper in Aqueous Solutions of KOH at 298.15 K”, Russian Journal of Physical Chemistry, 97:6 (2023), 794  crossref
    14. Ana Clara B. Rodrigues, Susana M. M. Lopes, Carla Cunha, João Braz, Teresa M. V. D. Pinho e Melo, J. Sérgio Seixas de Melo, Marta Pineiro, “The role of solvents and concentrations in the properties of oxime bearing A2B corroles”, Phys. Chem. Chem. Phys., 25:15 (2023), 10263  crossref
    15. A. V. Kustov, Ph. K. Morshnev, O. V. Shukhto, N. L. Smirnova, N. V. Kukushkina, O. I. Koifman, D. B. Berezin, “Interactions of photosensitizers with potential delivery systems: binding of charged chlorins to Tween 80”, Russ Chem Bull, 72:2 (2023), 566  crossref
    16. Dmitry Erzunov, Svetlana Tonkova, Anastasia Belikova, Arthur Vashurin, “Enhanced Visible Light Absorption and Photophysical Features of Novel Isomeric Magnesium Phthalocyaninates with Cyanophenoxy Substitution”, Chemosensors, 10:12 (2022), 503  crossref
    17. Lekhetho S. Mpeta, Tebello Nyokong, “Phthalocyanine based fabricated exfoliated graphite photoanode for electrodegradation of 4-acetamidophenol under visible light irradiation”, Journal of Photochemistry and Photobiology A: Chemistry, 432 (2022), 114115  crossref
    18. Andrey V. Kustov, Philipp K. Morshnev, Natal'ya V. Kukushkina, Nataliya L. Smirnova, Dmitry B. Berezin, Dmitry R. Karimov, Olga V. Shukhto, Tatyana V. Kustova, Dmitry V. Belykh, Marina V. Mal'shakova, Vladimir P. Zorin, Tatyana E. Zorina, “Solvation, Cancer Cell Photoinactivation and the Interaction of Chlorin Photosensitizers with a Potential Passive Carrier Non-Ionic Surfactant Tween 80”, IJMS, 23:10 (2022), 5294  crossref
    19. N. Yu. Zhidomorov, O. A. Nazarenko, V. I. Demidov, A. V. Kustov, N. V. Kukushkina, O. I. Koifman, A. K. Gagua, I. K. Tomilova, D. B. Berezin, “Study of acute toxicity of monocationic chlorin e6 derivative, a perspective photosensitizer for antimicrobial and antitumor photodynamic therapy”, Biomedical photonics, 11:2 (2022), 23  crossref
    20. A. V. Kustov, D. B. Berezin, S. O. Kruchin, D. V. Batov, “Interaction of Macrocyclic Dicationic Photosensitizers with Tween 80”, Russ. J. Phys. Chem., 96:4 (2022), 793  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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