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W4308446656 abstract "The interaction results of 1,2-dibromo-3-isothiocyanatopropane with some pyrazoles as well as cytisine and salsoline alkaloids were presented in this paper. It was shown that the reaction resulted in one one-step and rather mild method for the preparation of the corresponding 1,3-thiazoline bromomethyl derivatives. The yield of this reaction was affected by the presence of a base and an order in which reagents were added. Molecular docking of the synthesized 1,3-thiazoline derivatives for putative antibacterial activity was carried out using the penicillin-binding target protein (PBP4) of the bacteria E. coli “Homo sapiens” and S. aureus “Homo sapiens” as an example. Molecular docking demonstrated that the compounds had insignificant binding energies at the level of selected reference drugs (Cephalotin and Chloramphenicol). The presence of natural alkaloids in the structure of thiazoline derivatives somewhat increased the affinity of these substrates for target proteins selected." @default.
W4308446656 created "2022-11-12" @default.
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W4308446656 date "2022-11-05" @default.
W4308446656 modified "2023-10-14" @default.
W4308446656 title "Synthesis, Structure and Molecular Docking of New 4,5-Dihydrothiazole Derivatives Based on 3,5-Dimethylpyrazole and Cytisine and Salsoline Alkaloids" @default.
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W4308446656 cites W167820875 @default.
W4308446656 cites W1964021292 @default.
W4308446656 cites W1964773470 @default.
W4308446656 cites W1971241436 @default.
W4308446656 cites W1971793108 @default.
W4308446656 cites W1972180303 @default.
W4308446656 cites W1975757666 @default.
W4308446656 cites W1979821607 @default.
W4308446656 cites W1981449487 @default.
W4308446656 cites W1982766494 @default.
W4308446656 cites W1985621269 @default.
W4308446656 cites W1989976154 @default.
W4308446656 cites W1990361269 @default.
W4308446656 cites W1991767477 @default.
W4308446656 cites W1995153130 @default.
W4308446656 cites W2003823448 @default.
W4308446656 cites W2005970858 @default.
W4308446656 cites W2007846213 @default.
W4308446656 cites W2017554119 @default.
W4308446656 cites W2021110656 @default.
W4308446656 cites W2021137564 @default.
W4308446656 cites W2023171612 @default.
W4308446656 cites W2029299893 @default.
W4308446656 cites W2031488922 @default.
W4308446656 cites W2040326199 @default.
W4308446656 cites W2043912903 @default.
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W4308446656 cites W2052771556 @default.
W4308446656 cites W2058527983 @default.
W4308446656 cites W2058620142 @default.
W4308446656 cites W2059100500 @default.
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W4308446656 cites W2074178415 @default.
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W4308446656 cites W2091183918 @default.
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W4308446656 cites W2105668062 @default.
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W4308446656 cites W2127387400 @default.
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W4308446656 doi "https://doi.org/10.3390/molecules27217598" @default.
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