40484-15-9Relevant articles and documents
1,3,4-OXADIAZOLE HOMOPHTHALIMIDE DERIVATIVE COMPOUNDS AS HISTONE DEACETYLASE 6 INHIBITOR, AND THE PHARMACEUTICAL COMPOSITION COMPRISING THE SAME
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Page/Page column 102, (2020/12/11)
The present invention relates to novel compounds having a histone deacetylase 6 (HDAC6) inhibitory activity, stereoisomers thereof or pharmaceutically acceptable salts thereof, a medicinal use thereof, and a method for preparing the same. The novel compounds according to the present invention, stereoisomers thereof or pharmaceutically acceptable salts thereof have the histone deacetylase 6 (HDAC6) inhibitory activity, and are effective in preventing or treating HDAC6-related diseases, comprising infectious diseases; neoplasm; endocrinopathy; nutritional and metabolic diseases; mental and behavioral disorders; neurological diseases; eye and ocular adnexal diseases; circulatory diseases; respiratory diseases; digestive diseases; skin and subcutaneous tissue diseases; musculoskeletal system and connective tissue diseases; and teratosis or deformities, or chromosomal aberration.
Synthesis of 1,2- and 1,3-dicarboxylic acids via Pd(II)-catalyzed carboxylation of aryl and vinyl C-H bonds
Giri, Ramesh,Yu, Jin-Quan
supporting information; experimental part, p. 14082 - 14083 (2009/03/11)
A Pd(II)-catalyzed reaction protocol for the direct carboxylation of benzoic and phenylacetic acid derivatives to form dicarboxylic acids has been developed. The reaction conditions are also applicable for the carboxylation of vinyl C-H bonds. The first C-H insertion Pd-aryl complex from carboxylic acids has been characterized by X-ray crystallography. Copyright
Stereopopulation Control. 8. Rate and Equilibrium Enhancement in the Formation of Homophthalic Anhydrides
Hillery, Paul S.,Cohen, Louis A.
, p. 2760 - 2770 (2007/10/02)
The kinetics of cyclization of α,α,3,4,6-pentamethylhomophthalic acid have been measured in sovent acetonitrile at 28.5 deg C, using as catalysts a series of acids ranging in strength from perchloric to acetic.In the presence of 0.12 M HClO4, t1/2 for acid anhydride formation = 0.3 s.For the stronger acid catalysts, kcycl is a linear function of catalyst concentration; for the weak acids, however, a change in rate-limiting step is revealed by curvature in the plots of ktotobsd vs. .All the weak acids show the same limiting value, 6.45E-3 min-1; this value is considered to be the rate constant for uncatalyzed formation of the tetrahedral intermediate.Homoconjugate bases (HA2(-)) of the weak acids show a similar curvature in their dilution plots, and the same limiting rate constant as for weak acids.Two independent and competitive pathways for cyclization are proposed.For strong acid catalysis, an intermediate acylium ion is considered on the basis of Broensted α = -0.79, kH/kD ca. 1, and acceleration of anhydride hydrolysis by methyl substituents.A value of ΔSexcit. = -23 eu suggests that cyclization, rather than acylium ion formation, is rate limiting.For weak acid catalysis, α = -0.17, kH/kD = 4.3, ΔSexcit. = -31 eu, and methyl groups retard anhydride hydrolysis by electron release; for this pathway, catalyzed breakdown of a tetrahedral intermediate is considered rate limiting.The composite Broensted plot is curved because the two pathways follow different rate laws.In contrast to rate enhancement results for phenolic lactone formation, the pentamethylhomophthalic acid is only sevenfold as reactive as α,α-dimethylhomophthalic acid.For the catalyst acids, pK(acetonitrile) is shown to be a linear function of pK(H2O) over the entire range of acids examined.