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Russian Chemical Reviews, 2021, Volume 90, Issue 7, Pages 868–893
DOI: https://doi.org/10.1070/RCR5001 (Mi rcr4353) 		 
This article is cited in 15 scientific papers (total in 15 papers)

Photopharmacological compounds based on azobenzenes and azoheteroarenes: principles of molecular design, molecular modelling, and synthesis

M. N. Ryazantsevab, D. M. Strashkova, D. M. Nikolaeva, A. A. Shtyrovb, M. S. Panovb

a Peter the Great St. Petersburg Polytechnic University, Institute of Biomedical Systems and Biotechnologies, Saint Petersburg, Russian Federation
b Institute of Chemistry, St. Petersburg State University
English full-text Citations (15) Russian version article
DOI: https://doi.org/10.1070/RCR5001
Abstract: Photopharmacology is a field of medicine and pharmacology that uses light to selectively activate or deactivate pharmaceutical agents. This approach significantly enhances and localizes the drug action and, therefore, reduces its side effects. Apart from the bioactive moiety, any photopharmacological compound should contain a photoactive group that must absorb light at the desired wavelength and reorganize the molecular structure after photoactivation. The design of an effective photopharmacological compound requires careful tuning of physical, chemical, and biological properties. The present review summarizes and analyzes the main approaches to the molecular design of photopharmacological drugs based on azobenzene or azoheteroarenes. The main ideas and methods used for tuning spectral and photochemical properties of compounds of this class are discussed. A comparative analysis of main computational methods for their in silico screening is carried out; the most common approaches to the synthesis of azobenzenes and azoheteroarenes derivatives are systematized. Special attention is given to the methods and approaches that are specific to the molecular design of photopharmacological compounds with required physicochemical and photochemical properties.
The bibliography includes 212 references.
Keywords: photopharmacology, molecular photoswitches, azobenzenes, heteroaryl dyes .
Funding agency Grant number
Russian Foundation for Basic Research 19-115-50477 Экспансия
Ministry of Education and Science of the Russian Federation 5-100
Received: 25.08.2020
Bibliographic databases:
Document Type: Article
Language: English
Original paper language: Russian
Citation: M. N. Ryazantsev, D. M. Strashkov, D. M. Nikolaev, A. A. Shtyrov, M. S. Panov, “Photopharmacological compounds based on azobenzenes and azoheteroarenes: principles of molecular design, molecular modelling, and synthesis”, Russian Chem. Reviews, 90:7 (2021), 868–893
Citation in format AMSBIB
\Bibitem{RyaStrNik21}
\by M.~N.~Ryazantsev, D.~M.~Strashkov, D.~M.~Nikolaev, A.~A.~Shtyrov, M.~S.~Panov
\paper Photopharmacological compounds based on azobenzenes and azoheteroarenes: principles of molecular design, molecular modelling, and synthesis
\jour Russian Chem. Reviews
\yr 2021
\vol 90
\issue 7
\pages 868--893
\mathnet{http://mi.mathnet.ru/eng/rcr4353}
\crossref{https://doi.org/10.1070/RCR5001}
\adsnasa{https://adsabs.harvard.edu/cgi-bin/bib_query?2021RuCRv..90..868R}
\isi{https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=Publons&SrcAuth=Publons_CEL&DestLinkType=FullRecord&DestApp=WOS_CPL&KeyUT=000697215400003}
\elib{https://elibrary.ru/item.asp?id=46976472}
\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85112605347}
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  • https://doi.org/10.1070/RCR5001
  • https://www.mathnet.ru/eng/rcr/v90/i7/p868
    • This publication is cited in the following 15 articles:
    1. Amirhossein Bakhtiiari, Ruibin Liang, J Comput Chem, 46:7 (2025)  crossref
    2. Yuxia Hao, Ruinong Han, Shuai Li, Lihong Liu, Wei-Hai Fang, J. Phys. Chem. A, 128:3 (2024), 528  crossref
    3. Konstantin A. Martyanov, Arina A. Tsybushkina, Anton V. Cherkasov, Alexey A. Belikov, Viacheslav A. Kuropatov, Mendeleev Communications, 34:4 (2024), 584  crossref
    4. Zhubo Sheng, Wen Fu, Hangji Zhang, Weiguo Wang, Xiaoyan Li, Zhiping Xu, Zhong Li, Xusheng Shao, J. Agric. Food Chem., 2024  crossref
    5. Raveendra Bhat, Venkatraman Hegde, Vinayak Adimule, Vandna Sharma, Pankaj Kumar, Santosh Khatavi, Santosh Nandi, Rangappa Keri, J Fluoresc, 2024  crossref
    6. I. V. Dyadishchev, A. V. Bakirov, S. M. Peregudova, S. A. Ponomarenko, Yu. N. Luponosov, Mendeleev Communications, 33:3 (2023), 393  crossref
    7. D. M. Nikolaev, V. N. Mironov, A. A. Shtyrov, I. D. Kvashnin, A. S. Mereshchenko, A. V. Vasin, M. S. Panov, M. N. Ryazantsev, International Journal of Molecular Sciences, 24:3 (2023), 2435  crossref
    8. M. V. Nikolaev, D. M. Strashkov, M. N. Ryazantsev, D. B. Tikhonov, European Journal of Pharmacology, 938 (2023), 175448  crossref
    9. Shuwen Chen, Jun Zhu, J. Org. Chem., 88:17 (2023), 12183  crossref
    10. D. M. Nikolaev, A. A. Shtyrov, S. Yu. Vyazmin, A. V. Vasin, M. S. Panov, M. N. Ryazantsev, International Journal of Molecular Sciences, 24:24 (2023), 17269  crossref
    11. E. Doronina, V. Jouikov, E. Belogolova, V. Sidorkin, J. Organomet. Chem., 958 (2022), 122189  crossref  isi  scopus
    12. D. D. Stupin, A. A. Abelit, A. S. Mereshchenko, M. S. Panov, M. N. Ryazantsev, Biosensors, 12:7 (2022), 527  crossref
    13. E. P. Doronina, V. Jouikov, V. F. Sidorkin, Chemistry A European J., 28:57 (2022)  crossref
    14. Nikolaev V M., Strashkov D.M., Ryazantsev M.N., Tikhonov D.B., ACS Chem. Neurosci., 12:18 (2021), 3347–3357  crossref  isi
    15. Strashkov D.M., Mironov V.N., Nikolaev D.M., Panov M.S., Linnik S.A., Mereshchenko A.S., Kochemirovsky V.A., Vasin A.V., Ryazantsev M.N., Int. J. Mol. Sci., 22:23 (2021), 13171  crossref  isi
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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