Vladimir G. Beylin scite author profile

A semiautomated device for solubility measurements in solution volumes as low as 1 mL was developed for pharmaceutical applications. The device operates nonisothermally, and can measure multiple samples simultaneously. Solubilities of model compounds such as paracetamol, mannitol, adipic acid, and glycine were measured and showed a maximum deviation of 5 wt % compared to literature data. Extrapolation of solubility data in the form of activity coefficients was found in good agreement with the literature value over a wide range of temperatures for paracetamol in 2-propanol and adipic acid in ethanol, while some deviation was observed for mannitol in water. The use of the solubility-measuring device to perform solvent screening on multiple solvents for early-stage pharmaceutical compounds was also examined. Results indicate that the slope of the solubility curve with temperature can be estimated with limited data for multiple solvents.

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Practical Alternative Synthesis of 1-(8-Fluoro-naphthalen-1-yl)piperazine

Zhu

Colbry

Lovdahl

et al. 2007

Org. Process Res. Dev.

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Mutagenicity of para-substituted α-methylstyrene oxide derivatives with Salmonella

Rosman

Beylin

Gaddamidi

et al. 1986

Mutation Research/Genetic Toxicology

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A series of 5 para-substituted alpha-methylstyrene oxide derivatives have been synthesized and together with alpha-methylstyrene oxide as well as styrene oxide have been studied as to their mutagenicity with the TA100 and TA1535 strains of Salmonella typhimurium. A multiple regression analysis model has been developed which describes the mutagenicity of the alpha-methylstyrene oxides in TA100. An increase in van der Waals volume was the most important variable in the model with greater improvement occurring with inclusion of the Hammett values for the para substituents on the compounds. The alpha-methylstyrene oxides were less active alkylating agents with 4-(p-nitrobenzyl)pyridine than styrene oxide and with pyridine all reactivity was at the beta-epoxide carbon. However all the alpha-methylstyrene oxide derivatives, except for the bromo compound where toxicity was evident, showed mutagenicity values either greater or comparable to that of styrene oxide. These studies would indicate that reactivity at the beta-carbon should also be a factor in describing the mutagenicity of the parent styrene oxide series.

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The Preparation of Two, Preclinical Amino-quinazolinediones as Antibacterial Agents

Beylin

Boyles

Curran

et al. 2007

Org. Process Res. Dev.

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This paper describes the synthesis of two amino-quinazolinediones which are potent gyrase/topoisomerase inhibitors and useful as antibacterial agents. The early scale-up work to prepare a chiral side chain on multigram scale and two different amino-quinazolinedione cores is detailed. The enabling synthesis for the side chain employed a previously reported Michael addition of MeNO 2 to an enantiomerically enriched δ-aminoenoate and a two-step de-oxygenation of a lactam. Key synthetic steps for core preparation and completion of the aminoquinazolinediones include dianion-promoted cyclization via intramolecular, nucleophilic aromatic substitution, electrophilic amination, nucleophilic aromatic substitution of the side chain to the core, deprotection and isolation of the hydrochloride salt in acceptable yield.

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Detoxication of aliphatic epoxides by diol formation and glutathione conjugation

Sinsheimer

Eeckhout

Hooberman

et al. 1987

Chemico-Biological Interactions

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The Ames procedure with Salmonella typhimurium strain TA100 was used to follow the detoxication by rat liver fractions of two series of aliphatic epoxides. The epoxides employed were 3-chloro-, 3,3-dichloro- and 3,3,3-trichloropropylene oxides and also p-methoxyphenyl-, phenyl- and p-nitrophenylglycidyl ethers. In our procedure with preincubation of the epoxides with rat liver fractions prior to the Ames tests, there was more detoxication of both systems by glutathione conjugation (non-enzymatic and transferase promoted) than by the hydrolase pathways. Non-enzymatic reaction with glutathione was more pronounced for the chloro series than for the glycidyl ethers. An HPLC system was developed which was capable of quantitative measurements of the phenylglycidyl ethers together with their diol and glutathione conjugate products. A comparison of the HPLC and Ames test results indicates that the glutathione transferase reported to be present in Salmonella could be playing a role in detoxication by the Ames test. Diols were measured more readily by HPLC than by use of the Ames test in the microsomal fraction and were detected in the cytosol with the glycidyl ethers while they were not by the Ames procedure. However, all three epoxides were converted to a greater extent to their glutathione conjugates than to their diols. Thus, while literature references question the availability of the glutathione detoxication system for epoxides produced by membrane-bound enzymes, such detoxication would be of primary importance where direct-acting environmental epoxides come into contact with the cytosolic enzymes prior to possible reaction with bionucleophiles.

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