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Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences 100 #1 _$aEfremenko, Elena Nikolaevna _$aLomonosov Moscow State University 100 #1 _$aInozemcev, Valeriy Alexandrovich _$aFederal State Budgetary Establishment «33 Central Scientific Research Test Institute» of the Ministry of Defense of the Russian Federation 100 #1 _$aKomissarenko, Sergey Anatol'evich _$aFederal State Budgetary Establishment «33 Central Scientific Research Test Institute» of the Ministry of Defense of the Russian Federation 100 #1 _$aKurochkin, Il'ya Nikolaevich _$aEmanuel Institute of Biochemical Physics Russian Academy of Sciences 100 #1 _$aLeontievsky, Alexey Arkad'evich _$aG.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences 100 #1 _$aLushchekina, Sofya Vladimirovna _$aEmanuel Institute of Biochemical Physics Russian Academy of Sciences 100 #1 _$aLyagin, Il'ya Vladimirovich _$aLomonosov Moscow State University 100 #1 _$aMaslova, Olga Vasil'evna _$aLomonosov Moscow State University 100 #1 _$aMasson, Patrick Ivon Moris _$aKazan Federal University 100 #1 _$aMahaeva, Galina Fayvelevna _$aInstitute of Physiologically Active Substances Russian Academy of Sciences 100 #1 _$aMahlis, Tat'yana Abramovna _$aLomonosov Moscow State University 100 #1 _$aMedveckiy, Igor Viktorovich _$aFederal State Budgetary Establishment «33 Central Scientific Research Test Institute» of the Ministry of Defense of the Russian Federation 100 #1 _$aMoralev, Sergey Nikolaevich _$aSechenov Institute of Evolutionary Physiology and Biochemistry, RAS 100 #1 _$aNelga, Igor Alikovich _$aFederal State Budgetary Establishment «33 Central Scientific Research Test Institute» of the Ministry of Defense of the Russian Federation 100 #1 _$aNechaeva, Nataliya Leonidovna _$aEmanuel Institute of Biochemical Physics Russian Academy of Sciences 100 #1 _$aNovichkova, Dana Alexandrovna _$aEmanuel Institute of Biochemical Physics Russian Academy of Sciences 100 #1 _$aNemuchin, Alexander Vladimirivich _$aEmanuel Institute of Biochemical Physics Russian Academy of Sciences 100 #1 _$aRozengart, Evgeniy Viktorovich _$aSechenov Institute of Evolutionary Physiology and Biochemistry, RAS 100 #1 _$aSviridov, Alexey Vladimirivich _$aG.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences 100 #1 _$aSen'ko, Ol'ga Vital'evna _$aLomonosov Moscow State University 100 #1 _$aStepanov, Nikolay Alekseevich _$aLomonosov Moscow State University 100 #1 _$aTretyakov, Sergey Vadimovich _$aFederal State Budgetary Establishment «33 Central Scientific Research Test Institute» of the Ministry of Defense of the Russian Federation 100 #1 _$aFrolov, George Alexandrovich _$aInstitute of Steel and Alloys 100 #1 _$aTsybenova, Svetlana Batozhargalovna _$aEmanuel Institute of Biochemical Physics Russian Academy of Sciences 100 #1 _$aSherstyuk, Artem Valer'evich _$aFederal State Budgetary Establishment «33 Central Scientific Research Test Institute» of the Ministry of Defense of the Russian Federation 100 #1 _$aShushkova, Tatyana Valentinovna _$aG.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences 100 #1 _$aEpiktetov, Dmitriy Olegovich _$aG.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences 245 00 _$aORGANOPHOSPHORUS NEUROTOXINS _$cMonography 260 1# _$aMoscow _$bPublishing Center RIOR _$c2020 300 ## _$a380 p. 500 ## _$aThe collective monograph is devoted to discussing the history of creation, studying the properties, neutralizing and using organophosphorus neurotoxins, which include chemical warfare agents, agricultural crop protection chemical agents (herbicides and insecticides) and medicines. The monograph summarizes the results of current scientific research and new prospects for the development of this field of knowledge in the 21st century, including the use of modern physicochemical methods for experimental study and theoretical analysis of biocatalysis and its mechanisms based on molecular modeling with supercomputer power. The book is intended for specialists who are interested in the current state of research in the field of organophosphorus neurotoxins. The monograph will be useful for students, graduate students, researchers specializing in the field of physical chemistry, physicochemical biology, chemical enzymology, toxicology, biochemistry, molecular biology and genetics, biotechnology, nanotechnology and biomedicine. _$aorganophosphorus compounds, kinetic model, dynamics of the process, the human brain, inhibition of acetylcholinesterase, acetylcholine, neuromuscular contraction, cholinergic synapse, synaptic cleft, degradation, immobilized enzymes, environmental safety, hydrolases, oxidoreductases, C-P-bound, cholinesterase, phosphatase, organophosphate hydrolase, catalysis mechanism, active center, metal ions, computer modeling, self-detoxification, composite protective materials, microbial biodegradation _$a10.29039/02026-5 510 0# _$aAslanli A.G., Stepanov N.A., Senko O.V., Maslova O.V., Lyagin I.V., Efremenko E.N. The hexahistidine containing organophosphorus hydrolase enzyme and bacterial cellulose based functional materials. In IOP Conference Series: Materials Science and Engineering, 2019, 525 (1). P. 012005. IOP Publishing. 510 0# _$aAslanly A.G., Maslova O.V., Sen'ko O.V., Efremenko E.N. Polifunkcional'nyy fermentnyy biopreparat na osnove geksagistidinsoderzhaschey organofosfatgidrolazy, deystvuyuschiy protiv bakterioza rasteniy. Vestnik biotehnologii i fiziko-himicheskoy biologii imeni Yu.A. Ovchinnikova, 2017, 13. S. 13-17. 510 0# _$aAslanli A., Lyagin I., Efremenko E. Charges' interaction in polyelectrolyte (nano)complexing of His6-OPH with peptides: unpredictable results due to imperfect or useless concept? Int. J. Biol. Macromol., 2019, 140. Pp. 368–376. 510 0# _$aBoroduleva A.Y., Wu J., Yang Q., Li H., Zhang Q., Li P., Eremin. S.A. Development of fluorescence polarization immunoassays for parallel detection of pesticides carbaryl and triazophos in wheat grains. Anal. Methods, 2017, 9 (48). Pp. 6814–6822. 510 0# _$aBravaya K.B., Bochenkova A.V., Grigorenko B.L., Topol I.A., Burt S.K., Nemukhin A.V. Molecular modeling the reaction mechanism of serine-carboxyl peptidases. J. Chem. Theory Comput., 2006, 2. Pp. 1168–1175. 510 0# _$aCarletti E.N., Colletier J.-P., Dupeux F., Trovaslet M., Masson P., Nachon F. Structural evidence that human acetylcholinesterase inhibited by tabun ages through O-dealkylation. J Med Chem, 2010, 53. Pp. 4002–4008. 510 0# _$aGrigorenko B.L., Novichkova D.A., Lushchekina S.V., Zueva I.V., Schopfer L.M., Nemukhin A.V., Varfolomeev S.D., Lockridge O., Masson P. Computer-designed active human butyrylcholinesterase double mutant with a new catalytic triad, Chem.-Biol. Interact., 2019, 306. Pp. 138–146. 510 0# _$aGudkov D.A., Lyagin I.V., Efremenko E.N., Kabanov A.V. Effect of dimerization on the catalytic properties of native and chimeric organophosphorus hydrolase determined by molecular modeling of the enzyme structure. Russian Chemical Bulletin, 2012, 1 (2), Pp. 449–455. 510 0# _$aGudkov D.A., Lyagin I.V., Verkhusha V.V., Efremenko E.N. Hybrid proteins with organophosphorus hydrolase activity and fluorescence of deGFP4 protein. Moscow University Chemistry Bulletin, 2011, 66 (2). Pp. 92–98. 510 0# _$aEfremenko E., Lyagin I., Gudkov D., Varfolomeyev S. Immobilized biocatalysts for detoxification of neurotoxic organophosphorous compounds. Biocatalysis and Biotransformation, 2007, 25 (2–4). Pp. 359–364. 510 0# _$aEfremenko E.N., Sen'ko O.V., Kuc V.V., Alenina K.A., Holstov A.V., Ismailov A.D. Lyuminescentnyy biokatalizator dlya opredeleniya toksikantov. Patent RF na izobretenie № 2394910, 2010. 510 0# _$aEfremenko E.N., Zav'yalova N.V., Lyagin I.V., Sen'ko O.V., Gudkov D.A., Aksenov A. V., Stepanov N.A., Sirotkina M.S., Spiricheva O.V., Ivanov R.V., Lozinskiy V.I., Varfolomeev S.D., Kondrat'ev V.B., Holstov V.I. Sposob biorazlozheniya fosfororganicheskih soedineniy v sostave reakcionnyh mass, poluchaemyh posle himicheskogo unichtozheniya veschestva tipa VX. Patent RF na izobretenie № 2408724, 2009. 510 0# _$aEremenko A.V., Prokopkina T.A., Kasatkin V.E., Osipova T.A., Kurochkin I.N. Planarnye tiol-chuvstvitel'nye sensornye elementy dlya opredeleniya aktivnosti butirilholine¬sterazy i analiza ee ingibitorov. Vestnik Moskovskogo Universiteta. Seriya 2. Himiya, 2014, 55 (3). S. 174–179. 510 0# _$aEfremenko E.N., Lyagin I.V., Klyachko N.L., Bronich T., Zavyalova N.V., Jiang Y., Kabanov A.V. A simple and highly effective catalytic nanozyme scavenger for organophosphorus neurotoxins. J. Control. Release, 2017, 247. Pp. 175–181. 510 0# _$aEfremenko E.N., Lyagin I.V., Zav'yalov V.V., Zav'yalova N.V., Holstov V.I., Yankovskaya A.A. Razryv S-R svyazi v fosfonatah pod deystviem fermentnyh biokatalizatorov. Teoreticheskaya i prikladnaya ekologiya, 2015, 3. C. 47–54 510 0# _$aEfremenko E.N., Lyagin I.V., Gudkov D.A., Stepanov N.A., Sen'ko O.V., Maslova O.V., Kovalev D.A., Zav'yalova N.V., Holstov V.I., Yankovskaya A.A. Kombinirovannoe primenenie fermentnogo i bakterial'nogo biokatalizatorov v processah biodestrukcii FOV i produktov ih razlozheniya. Teoreticheskaya i prikladnaya ekologiya, 2015, (3). S. 35–39. 510 0# _$aEremenko A.V., Dontsova E.A., Nazarov A.P., Evtushenko E.G., Amitonov S.V., Savilov S.V., Martynova L.F., Lunin V.V., Kurochkin I.N. Manganese Dioxide Nanostructures as a Nov¬el Electrochemical Mediator for Thiol Sensors. Electroanalysis, 2012, 3. P. 573. 510 0# _$aErmakova I.T., Shushkova T.V., Sviridov A.V., Zelenkova N.F., Vinokurova N.G., Baskunov B.P., Leontievsky A.A. Organophosphonates utilization by soil strains of Ochrobactrum anthropi and Achromobacter sp. Arch. Microbiol., 2017, 199(5). Pp. 665–675. 510 0# _$aFilimonov I.V., Yankovskaya A.A., Kuzhelko S.V., Zav'yalov V.V., Zav'yalova N.V., Golipad A.N., Kolesnikov D.P., Kovtun V.A., Holstov V.I., Lyagin I.V., Efremenko E.N. Issledovaniya v sfere perspektivnogo ispol'zovaniya himiko-biologicheskih i medicinskih biokataliticheskih tehnologiy v interesah Vooruzhennyh Sil. Vestnik voysk RHB zaschity, 2018, 2 (2). S. 18–50. 510 0# _$aHua X., Eremin S.A., Liu F., Wang M. Antibody Developments and Immunoassays for Organophosphorus Chemicals: A Review. Current Organic Chemistry, 2017, 21 (26). Pp. 2640–2652. 510 0# _$aLiu Y., Liu R., Boroduleva A., Eremin S., Guo Y., Zhu G. A highly specific and sensitive fluorescence polarization immunoassay for the rapid detection of triazophos residue in agricultural products. Anal. Methods, 2016, 8 (36). Pp. 6636–6644. 510 0# _$aLyagin I.V., Efremenko E.N., Varfolomeev S.D. Fermentnye biosensory dlya opredeleniya pesticidov. Uspehi himii, 2017, 86. 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Esterase profiles of organophosphorus compounds in vitro predict their behavior in vivo, Chem.-Biol. Interact., 2016, 259 (Pt B). Pp. 332–342. 510 0# _$aMaslova O.V., Stepanov N.A., Grigoryeva A.I., Bruyako M.G., Efremenko E.N. New effective His6-OPH-containing mineral carriers pretreated by low-temperature plasma for destruction of organophosphates in different types of soil. International Journal of Pharmacy & Technology, 2016, 8. Pp. 27317–27333. 510 0# _$aMaslova O., Aslanli A., Stepanov N., Lyagin I., Efremenko E. Catalytic characteristics of new antibacterials based on hexahistidine-containing organophosphorus hydrolase. Catalysts, 2017, 7 (9). P. 271. 510 0# _$aMaslova O.V., Senko O.V., Stepanov N.A., Aslanli A.G.Q., Efremenko E.N. His6-OPH and its stabilized forms combating quorum sensing molecules of gram-negative bacteria in combination with antibiotics. Jundishapur J. Nat. Pharm. Prod., 2017, 12 (3). 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