- Preparation method of 4-methyl-5-(2-acetoxyethyl) thiazole
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The invention relates to a preparation method of 4-methyl-5-(2-acetoxyethyl) thiazole, and discloses a preparation method of 4-methyl-5-(2-acetoxyethyl) thiazole, the 4-methyl-5-(2-acetoxyethyl) thiazole is obtained by reaction of 3-halogenated-5-acetoxy-2-pentanone and thioformamide, and the reaction takes SBA-15 molecular sieve loaded ionic liquid as a catalyst. The catalyst not only improves the reaction yield, but also improves the product purity.
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Paragraph 0032-0038
(2021/07/14)
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- Synthetic method of thiazoles (by machine translation)
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4 - Acetoxy 3 - acetyl -3 - chloropropyl acetate is hydrolyzed under acidic conditions to prepare 4 -mercapto -2 - methyl -2 - (β - acetoxyethyl)-thiazole; the step of preparing -2 - methyl -2 - (β - acetoxyethyl)-thiazole with 3 - methyl -3 - (β - acetoxyethyl)-thiazole under acidic condition is carried out under an acidic condition by adding an oxidizing agent under an acidic condition in 3 -chloro -3 -methyl 2 - (β - acetoxyethyl)-thiazole in an acidic condition under an acidic condition by adding 4 - an oxidizing agent under an acidic condition; and a -5 - method -5 - for synthesizing thiazoles -4 - and -5 -mercapto 2 -methyl-ethyl)-thiazole in an acidic condition by adding an -5 - oxidizing agent under an -5 - 4 - acidic condition; and the method comprises the following steps: preparing -4 -4 - ethyl acetoxyethyl)-thiazole. The synthesis method is mild in overall reaction condition, simple in post-treatment and suitable for pilot scale test and industrial production. (by machine translation)
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- Synthesis of [thiazolium-2,2′-14C2]-SAR97276A from [14C]-thiourea
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[thiazolium-2,2′-14C2]-SAR97276A, a bis(thiazolium) antimalarial development candidate, was synthesized from [ 14C]-thiourea with an overall radiochemical yield of 15%. The synthetic route involves a modified procedure for the synthesis of [ 14C]-sulfurol, also a key intermediate in thiamine synthesis, which was developed due to unlabelled chemistry proving irreproducible with the radiolabelled substrate. Copyright
- Herbert, John M.,Le Strat, Franck,Oumeddour, Delphine G.,Passey, Stephen C.,Taylor, Keith,Whitehead, David M.
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experimental part
p. 89 - 92
(2011/10/02)
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- C2, C5, and C4 azole N-oxide direct arylation including room-temperature reactions
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The N-oxide group imparts a dramatic increase in reactivity at all positions of the azole ring of thiazoles and imidazoles and changes the weak bias for C5 > C2 arylation to a reliable C2 > C5 > C4 reactivity profile. Use of this cross-coupling strategy enables high yielding and room-temperature C2 arylations, mild reactions at C5, and the first examples of C4 arylation-providing a unique opportunity for exhaustive functionalization of the azole core with complete control of regioselectivity. A correlation of reactivity with the relative contributions of each carbon atom to the HOMO is observed and discussed. Copyright
- Campeau, Louis-Charles,Bertrand-Laperle, Megan,Leclerc, Jean-Philippe,Villemure, Elisia,Gorelsky, Serge,Fagnou, Keith
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p. 3276 - 3277
(2008/10/09)
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- Synthesis, in vitro and in vivo activity of thiamine antagonist transketolase inhibitors
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Tumor cells extensively utilize the pentose phosphate pathway for the synthesis of ribose. Transketolase is a key enzyme in this pathway and has been suggested as a target for inhibition in the treatment of cancer. In a pharmacodynamic study, nude mice with xenografted HCT-116 tumors were dosed with 1 ('N3′-pyridyl thiamine'; 3-(6-methyl-2-amino-pyridin-3-ylmethyl)-5-(2-hydroxy-ethyl)-4-methyl-thiazol-3-ium chloride hydrochloride), an analog of thiamine, the co-factor of transketolase. Transketolase activity was almost completely suppressed in blood, spleen, and tumor cells, but there was little effect on the activity of the other thiamine-utilizing enzymes α-ketoglutarate dehydrogenase or glucose-6-phosphate dehydrogenase. Synthesis and SAR of transketolase inhibitors is described.
- Thomas, Allen A.,Le Huerou,De Meese,Gunawardana, Indrani,Kaplan, Tomas,Romoff, Todd T.,Gonzales, Stephen S.,Condroski, Kevin,Boyd, Steven A.,Ballard, Josh,Bernat, Bryan,DeWolf, Walter,Han, May,Lee, Patrice,Lemieux, Christine,Pedersen, Robin,Pheneger, Jed,Poch, Greg,Smith, Darin,Sullivan, Francis,Weiler, Solly,Wright, S. Kirk,Lin, Jie,Brandhuber, Barb,Vigers, Guy
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p. 2206 - 2210
(2008/12/20)
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