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Morus is one of the most important genus belongs to the family Moraceae, beside <br /> <br /> <br /> <br /> <br /> Artocarpus and Ficus. Some of these spesies are used as food source for <br /> <br /> <br /> <br /> <br /> silkwo...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/18838 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Morus is one of the most important genus belongs to the family Moraceae, beside <br />
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Artocarpus and Ficus. Some of these spesies are used as food source for <br />
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silkworms, as fruit, and its stem has been used to building materials. Plants of <br />
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Morus comprise plenty of phenolic constituents, including Diels-Alder type <br />
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adducts, flavonoids, 2-arylbenzofurans, and stilbenes, which showed various <br />
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bioactivities (e.g antifungal, antioxidant, etc). Study on Morus which is developed <br />
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by the tissue culture technique, produced phenolic compounds, mainly Diels- <br />
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Alder type adducts. Diels-Alder type adducts compounds produced by this plant <br />
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are formed by cycloaddition reaction between chalcone as dienophille and <br />
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dehydroprenyl phenol (e.g dehydroprenyl stilbene, dehydroprenyl flavonoids, or <br />
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dehydroprenyl-2-arylbenzofuran) as diene. This reaction is suggested to be <br />
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catalyzed by Diels-Alderase in the biosynthetic pathway. Previous study showed <br />
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that Diels-Alder type adducts were mainly produced in root culture of Morus, so <br />
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hence the present work used the root culture of M. cathayana as the source of <br />
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enzyme, while as substrate use isobavachalcone. First investigation about <br />
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detection of enzymatic activity from Morus have been reported, and also optimum <br />
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condition of Diels-Alderase. To date, no report for the characterization of an <br />
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enzyme, and catalyzing a Diels-Alder has been made. Therefore, in the objective <br />
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of this study it to isolate and characterize Diels-Alderase from Morus plant. The <br />
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steps of enzyme isolation include homogenation, extraction, fractionation and <br />
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purification. Homogenation of enzyme was carried by adding liquid nitrogen, and <br />
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iv <br />
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the culture was ruptured via mechanic process use mortar and pastle. Addition the <br />
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extraction buffer to stabilize extracted protein, and supernatant as crude enzyme <br />
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of Diels-Alderase. The substrate was diluted with phosphate buffer and was added <br />
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crude enzyme, the assay mixture was incubated at 37oC for 16 hour. The extracts <br />
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were analyzed by reverse phase HPLC, with solvent system methanol : water <br />
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(0,1% phosphate acid). The product of the enzymatic reaction was verified by coinjection <br />
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of authentic samples in HPLC analysis, and monitored by UV detectors <br />
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at 370 nm. Chromatogram standard for substrate and product arise at 4 min and 8 <br />
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min respectively. The HPLC profile showed a retention time of kuwanon V (the <br />
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reaction product) at 8 min, which was simillar to that of the standard product. <br />
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Further analyses by LC-MS revealed that the indicated peak appear at m/z value = <br />
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647 (M+H)+,which is corresponds with the molecular weight of kuwanon V. After <br />
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succesfully detection of enzyme Diels-Alder activity, then fractionation using <br />
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ammonium sulfate precipitation, and fraction 40-60% which gave the highest <br />
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Diels-Alderase activity. SDS PAGE also gave further confirmation, which show <br />
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the major band at this fraction. After that, reproduce samples of Diels-Alderase <br />
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and determination of protein concentration using Bradford method. Partial <br />
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purification of Diels-Alderase was conducted using ion exchange <br />
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chromatography, and the result was evaluated with SDS PAGE. Elution with <br />
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phospate buffer containing NaCl concentrations of 300 mM and 500 mM showed <br />
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major band with molecular weight of 40-60 kDa. The enzyme fractions from the <br />
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NaCl 500 mM elution showed the highest activity, with a specific activity of <br />
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790,08 Unit/mg of protein, where this value is equivalent to 14 times purity <br />
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compare to ammonium sulfate precipitation. From these results, it can be <br />
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concluded that, Diels-Alderase has been succesfully isolated from the root culture <br />
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of M. cathayana, and the partially purified enzyme approximately has molecular <br />
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weight of 40-60 kDa. |
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