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Towards the Synthesis of MagnesidinPingali, Subramanya 04 August 2011 (has links)
Magnesidin is a magnesium chelate of the 3-hexanoyl and 3-octanoyl tetramic acid derivatives isolated from Psuedomonas magensiorubra. Its activity against grampositive bacteria was found to be a specific target for Gingivitis, a dental plaque.Although the synthesis of magnesidin has been reported earlier, it was not reproducible. The highly polar nature and it’s ability to exhibit tautomerization makes their chemical behavior complex and difficult to predict its structure. A variety of reactions and an in depth understanding of the chemical structure is necessary to attain the synthesis of these compounds. This dissertation focuses on addressing the attempts towards the synthesis of Magnesidin by identifying the important intermediates necessary for the synthesis as β- keto esters, α,β-unsaturated amino esters. The focus of the work has been addressed by developing a TAG molecule approach, which is similar to the concept of solid phase synthesis except for the fact that the TAG molecule can be identified under UV and also can be detected using various spectroscopic techniques. Microwave synthesis has been explored and applied in to the synthesis of benzyl mono and di bromination, 1,3- benzodioxoles have been established. The benzyl mono bromination is applied to synthesize the TAG molecule, which is then applied in developing a method of synthesis for β-keto esters. The azide approach was used to synthesize the α,β- unsaturated amides, which are another essential class of compounds in the synthesis of magnesidin.
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Synthesis and Spectroscopic Study of Anticancer agent A-007 Prodrugs and Progress Towards the Synthesis of Tetramic acid AntibioticsSagiraju, Sarada 19 December 2008 (has links)
4, 4'-Dihydroxybenzophenone-2, 4-dinitrophenylhydrazone (A-007) has recently completed a phase-I clinical trial, and objective responses were seen in advanced breast cancer, lung cancer, ovarian cancer, melanoma, skin cancer and non-Hodgkin's lymphoma. Despite the promising results in the clinical trials, the major disadvantage to using A-007 as a broad-scale therapeutic is its poor water solubility. To make use of this promising anticancer drug either orally or intravenously, the short-term obstacle must be to overcome the limited solubility of A-007 in water. There are several approaches to overcome this obstacle. The first approach is to make hydrolysable prodrugs of A-007. The second approach is to make an A-007 complex with a water soluble host, such as cyclodextrin. We used a combination of these two previously described methods, i.e. transforming A-007 into a more water soluble prodrugs and then further increasing the prodrug water solubility by making their cyclodextrin inclusion complexes. Our syntheses and spectroscopic explorations of A-007 prodrugs are presented in this dissertation. Tetramic acid (2, 4 pyrrolidine-2, 4-dione ring system) containing compounds have been found to display a remarkable diversity of biological activities and have attracted the interest of medicinal and synthetic chemists. Magnesidin (1-acetyl-3-octanoyl-5-ethylidene tetramic acid) has strong antimicrobial activity against bacteria that cause gingivitis and dental plaque. Current efforts toward the synthesis of Magnesidin are discussed along with the plans for the completion of synthesis.
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