- Synthesis of some monosaccharide-related ester derivatives as insecticidal and acaricidal agents
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To develop natural-product-based pesticidal agents, a series of monosaccharide-related ester derivatives (17a–q and 18a–f), glucose (xylose)-piperic acid/piperic acid-like conjugates, were synthesized. Three-dimensional structures of compounds 17b, 17g, 17h, and 17n were unambiguously determined by single-crystal X-ray diffraction. Especially compounds 18e and 18f exhibited the most potent insecticidal and acaricidal activities against Mythimna separata and Tetranychus cinnabarinus. Their structure-activity relationships were also discussed.
- Huang, Xiaobo,Zhang, Bingchuan,Xu, Hui
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supporting information
p. 4336 - 4340
(2017/09/12)
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- Design, synthesis and characterization of some bioactive conjugates of curcumin with glycine, glutamic acid, valine and demethylenated piperic acid and study of their antimicrobial and antiproliferative properties
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The monoesters of curcumin, a symmetric diphenol with valine and glycine have been prepared by a novel solid phase synthesis and its diesters with valine, glutamic acid and demethylenated piperic acid have been prepared by solution phase method. The assessment of their antimicrobial and anticancer (antiproliferative) activities suggested that diesters of curcumin are relatively more active than curcumin itself due to their increased solubility, slow metabolism and better cellular uptake. Furthermore, significant observation was that monoesters of curcumin have even better antimicrobial activity than their corresponding diesters, emphasizing the role of free phenolic group. The conjugate of curcumin with demethylenated piperic acid in which methylenedioxy ring was open also shows enhanced activity than the corresponding piperic acid conjugate, emphasizing the role of free phenolics in the transport or in the binding processes.
- Dubey, Shiv K.,Sharma, Anuj K.,Narain, Upma,Misra, Krishna,Pati, Uttam
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p. 1837 - 1846
(2008/12/22)
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- Design, development and synthesis of mixed bioconjugates of piperic acid-glycine, curcumin-glycine/alanine and curcumin-glycine-piperic acid and their antibacterial and antifungal properties
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In the present communication different curcumin bioconjugates viz. 4,4′-di-O-glycinoyl-curcumin, 4,4′-di-O-d-alaninoyl-curcumin, 4,4′-di-O-(glycinoyl-di-N-piperoyl)-curcumin, 4,4′-di-O-piperoyl curcumin, curcumin-4,4′-di-O-β-D-glucopyranoside, 4,4′-di-O-acetyl-curcumin along with piperoyl glycine, have been synthesised and characterised by spectra UV, 1H NMR and elemental analysis. All the covalent bonds used are biodegradable. This makes these derivatives as potent prodrugs, which can get hydrolysed at the target sites. These bioconjugates were tested in vitro against different bacteria and fungi. The 4,4′-di-O-(glycinoyl-di-N-piperoyl)-curcumin and 4,4′-di-O- acetyl-curcumin are more effective than Cefepime, an antibacterial drug available in market, at the same concentration. The 4,4′-di-O-(glycinoyl- di-N-piperoyl)-curcumin and 4,4′-di-O-piperoyl curcumin had antifungal activity in vitro almost comparable with fluconazole, the most popular antifungal drug. The enhanced activity of these bioconjugates vis-a-vis the parent molecule that is curcumin may be due to improved cellular uptake or reduced metabolism of these bioconjugates resulting in building up of enough concentration inside the infected cells. It opens a new era for exploring suitably designed curcumin bioconjugates as potential antibacterial/antifungal drugs.
- Mishra, Satyendra,Narain, Upma,Mishra, Roli,Misra, Krishna
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p. 1477 - 1486
(2007/10/03)
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- Amide derivatives and 5-lipoxygenase inhibitors containing the same as an active ingredient
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According to the invention, there are provided novel amide derivatives and 5-lipoxygenase inhibitors containing the same as an effective ingredient. The above-mentioned compounds of the invention have been demonstrated to posses 5-lipoxygenase-inhibiting activities. These compounds can inhibit the production of leucotrienes such as LTC4 and LTD4 which are allergy-inducing factors by inhibiting the activity of 5-lipoxygenase. Accordingly, the amide derivatives can be used as 5-lipoxygenase inhibitors effective for allergic asthma, allergic rhinitis and the like.
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