321329-81-1Relevant articles and documents
Chemoselective esterification of α-hydroxyacids catalyzed by salicylaldehyde through induced intramolecularity
Weng, Shiue-Shien,Li, Hsin-Chun,Yang, Teng-Mao
, p. 1976 - 1986 (2013/03/13)
A new, direct and chemoselective esterification of α-hydroxyacids was developed using a reversible covalent-binding strategy. By taking advantage of acetal chemistry, simple aldehydes can be used to efficiently catalyze the esterification of α-hydroxy carboxylic acids in the presence of β-hydroxyacid moieties or other carboxylic acids in amounts equal to or in excess of the alcohols. A diverse array of α-aryl, α-alkyl, α-heteroaryl, and functionalized α-hydroxyacids were smoothly esterified with 1° and 2° alcohols catalyzed by 10 mol% inexpensive and commercially available salicylaldehyde, furnishing the resultant esterification products in 83-95% yields after a simple basic aqueous workup to remove the unreacted hydroxyacids. In addition, the salicylaldehyde can be recovered through vacuum distillation or silica gel purification, thereby meeting the standards of green chemistry. A mechanistic study proved that the formation of covalent adduct III during our proposed catalytic cycle (Scheme 1A) is responsible for the real catalysis.
AMINOBUTANOIC ACID COMPOUNDS HAVING METALLOPROTEASE INHIBITING PROPERTIES
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, (2008/06/13)
Aminobutanoic acids of the following formula (I): STR1 where R 1-R 5 are a variety of substituents, novel intermediates, a pharmaceutical composition for treating inflammatory diseases, demyelinating diseases, and tumor metastasis, methods for such treatm