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Arjunic acid and arjunolic acid are main bioactive components of Terminalia arjuna stem bark and reported for various biological activities. In this study, microwave-assisted extraction (MAE) of arjunic and arjunolic acid from stem bark of T. arjuna was investigated with developed and validated HPLC-PDA method, which resulted in the isolation of a novel anticancer molecule i.e. arjunic acid. Effects of several experimental parameters, such as type and volume of extraction solvents, microwave power, microwave extraction time, on the extraction efficiencies of arjunic, and arjunolic acid from stem bark of T. arjuna were evaluated. The optimal extraction conditions identified were 5.0 g quantity of stem bark powder, 20 mL of ethyl acetate, preleaching time 10 min, microwave power 600 W, temperature 65°C, and microwave irradiation time 5 min. The results showed that MAE is a more rapid extraction method with higher yield and lower solvent consumptions than reported methods. The HPLC-PDA analysis method was developed and validated to have good linearity, precision, sensitivity, and accuracy. MAE-HPLC-PDA is a faster, convenient, and appropriate method for isolation and determination of arjunic acid and arjunolic acid in the stem bark of T. arjuna. 相似文献
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Batchu Chandra Sekhar Devalla Venkata Ramana Sukuru Raghu Ramadas 《Journal of heterocyclic chemistry》2001,38(2):383-386
The syntheses of tetracyclic 1,5‐benzoxazepines 3a‐e from heterocyclic (3‐chloroaldehydes 1a‐e and 2‐aminophenol are reported herein (Scheme I). Attempted lithium aluminium hydride (LiAlH4) reduction of the imine double bond in 3a‐e failed to furnish the corresponding saturated compounds 5a‐e. Attempted catalytic hydrogenation of 3a‐e in the presence of acetic acid and acetic anhydride gave surprisingly only the acetoxy derivatives 6a‐e in high yields (Scheme II). Base catalysed hydrolysis of acetoxy derivatives 6a‐e furnished, as expected, the corresponding phenolic derivatives 7a‐e , in moderate yields. Attempted cyclofunctionalization of 3a‐e either with mercaptoacetic acid or its methyl ester to obtain the new penta‐cyclic heterocycles 4a‐e was, however, not successful. 相似文献
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The molecular ions of N,N-dimethylthiobenzamide and its ortho substituted derivatives (substituents CH3, Cl, Br, I) lose a hydrogen atom and/or the ortho substituent. The mechanism of this process has been studied by measurements of the ionization energies, appearance energies of the product ions m/z 164 and the kinetic energy release during this process. The structure of the product ions m/z 164 and relevant reference ions have been investigated by mass analysed ion kinetic energy spectra, B/E linked scan spectra and collision induced decompositions. The results show clearly the formation of two different kinds of product ions m/z 164 depending on the substituent lost. Type a ions are formed by loss of a H atom or the CH3 substituent and correspond to protonated 3,4-benzo-N-methylpyroline-2-thione. The formation of these ions occurs by a hydrogen rearrangement followed by an intramolecular substitution via a 5-membered cyclic intermediate and is associated with a large release of kinetic energy. In contrast, the loss of the halogeno substituents to give type b ions probably occurs via a direct displacement reaction by the sulfur atom of the thioamide group giving rise to Gaussian shaped peaks mass analysed ion kinetic energy spectra. 相似文献
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