| Literature DB >> 33406592 |
Marziyeh E Kenari1, Joshua I Putman1, Ravi P Singh1, Brandon B Fulton1, Huy Phan1, Reem K Haimour1, Key Tse1, Alain Berthod2, Carl J Lovely1, Daniel W Armstrong1.
Abstract
Twelve new azole compounds were synthesized through an ene reaction involving methylidene heterocycles and phenylmaleimide, producing four oxazoles, five thiazoles, and one pyridine derivative, and ethyl glyoxal for an oxazole and a thiazole compound. The twelve azoles have a stereogenic center in their structure. Hence, a method to separate the enantiomeric pairs, must be provided if any further study of chemical and pharmacological importance of these compounds is to be accomplished. Six chiral stationary phases were assayed: four were based on macrocyclic glycopeptide selectors and two on linear carbohydrates, i.e., derivatized maltodextrin and amylose. The enantiomers of the entire set of new chiral azole compounds were separated using the three different mobile phase elution modes: normal phase, polar organic, and reversed phase. The most effective chiral stationary phase was the MaltoShell column, which was able to separate ten of the twelve compounds in one elution mode or another. Structural similarities in the newly synthesized oxazoles provided some insights into possible chiral recognition mechanisms.Entities:
Keywords: core-shell supports; enantiomer separation; macrocyclic glycopeptides; mobile phase modes; oxazole; pyridine; thiazole
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Year: 2021 PMID: 33406592 PMCID: PMC7796373 DOI: 10.3390/molecules26010213
Source DB: PubMed Journal: Molecules ISSN: 1420-3049 Impact factor: 4.411