95395-89-4Relevant academic research and scientific papers
Structure Property Relationships of Carboxylic Acid Isosteres
Lassalas, Pierrik,Gay, Bryant,Lasfargeas, Caroline,James, Michael J.,Tran, Van,Vijayendran, Krishna G.,Brunden, Kurt R.,Kozlowski, Marisa C.,Thomas, Craig J.,Smith, Amos B.,Huryn, Donna M.,Ballatore, Carlo
, p. 3183 - 3203 (2016/05/19)
The replacement of a carboxylic acid with a surrogate structure, or (bio)-isostere, is a classical strategy in medicinal chemistry. The general underlying principle is that by maintaining the features of the carboxylic acid critical for biological activity, but appropriately modifying the physicochemical properties, improved analogs may result. In this context, a systematic assessment of the physicochemical properties of carboxylic acid isosteres would be desirable to enable more informed decisions of potential replacements to be used for analog design. Herein we report the structure-property relationships (SPR) of 35 phenylpropionic acid derivatives, in which the carboxylic acid moiety is replaced with a series of known isosteres. The data set generated provides an assessment of the relative impact on the physicochemical properties that these replacements may have compared to the carboxylic acid analog. As such, this study presents a framework for how to rationally apply isosteric replacements of the carboxylic acid functional group.
A novel route to 5-substituted 3-isoxazolols. Cyclization of N,O-diBoc β-keto hydroxamic acids synthesized via acyl Meldrum's acids
Sorensen, Ulrik S.,Falch, Erik,Krogsgaard-Larsen, Povl
, p. 1003 - 1007 (2007/10/03)
3-Isoxazolols are most often synthesized from a β-keto ester and hydroxylamine. This cyclization typically gives rise to a major byproduct, the corresponding 5-isoxazolone. We have found that N,O-diBoc-protected β- keto hydroxamic acids can be synthesized and cyclized to 5-substituted 3- isoxazolols without formation of any byproduct. We present a novel and versatile three-step procedure in which carboxylic acid derivatives are converted into acyl Meldrum's acids which, upon aminolysis with N,O-bis(tert- butoxycarbonyl)hydroxylamine, lead to the N,O-diBoc-protected β-keto hydroxamic acids. These hydroxamic acid analogues were then, upon treatment with hydrochloric acid, cyclized to the corresponding 5-substituted 3- isoxazolols.
Synthesis of β-Ketocarboxamide Derivatives Using 2,2-Dimethyl-2H,4H-1,3-dioxin-4-ones
Sato, Masayuki,Ogasawara, Hiromichi,Komatsu, Sachiko,Kato, Tetsuzo
, p. 3848 - 3856 (2007/10/02)
Thermal reaction of 2,2-dimethyl-2H,4H-1,3-dioxin-4-ones (1) with amines was studied.Acylketenes 2, generated by heating of 1, reacted with anilines and benzylamine to give the corresponding β-ketocarboxamides (3,4, and 5) in good yields.The reaction of 1 with ammonia gave 3-amino-2-alkenamides (7), which were hydrolyzed to β-ketocarboxamides (6).The former products 7 were readily transformed to the 6-substituted 2-methyl-3H-pyrimidin-4-ones (9) via the 3-acetamido-2-alkenamides (8).Acylation of O-benzylhydroxylamine with 1 gave the β-ketohydroxamic acids 10.Debenzylation of 10 followed by cyclization gave rise to 5-alkyl-3-hydroxyisoxazoles (12).The reaction of 1 with amides gave the corresponding N-acetylated amides (13). Keywords --- 2H,4H-1,3-dioxin-4-one; thermal fragmentation; acylketene; acylation; carboxamide; hydroxamic acid; 3-hydroxyisoxazole; 3H-pyrimidin-4-one
