ISOLATION AND CHARACTERIZATION OF LEVAN FROM HALOMONAS SMYRNENSIS BK4 AND ITS APPLICATION AS NANOPARTICLES
Levan is homopolymer of fructose synthesized through enzymatic reaction by <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> levansucrase (E.C. 2.4.1.10). This bioplymer is produced by several types of plants, fungi, <br...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/29430 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Levan is homopolymer of fructose synthesized through enzymatic reaction by <br />
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levansucrase (E.C. 2.4.1.10). This bioplymer is produced by several types of plants, fungi, <br />
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and bacteria. Currently, levan has been developed as nanoparticle systems, as a carrier <br />
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for metal ions, catalyst, and drugs. Halophilic bacteria has been known as one of the <br />
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potential levan producers. Halomonas smyrnensis BK4 was identified as one of halophilic <br />
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bacteria potentially produces levan. This study aims to evaluate the use of levan produced <br />
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by Halomonas smyrnensis BK4 as a material for immobilization of enzymes in the form of <br />
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nanoparticle. The bacterium was reconfirmed by ribotyping, followed by levan production <br />
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and isolation, enzyme immobilization with levan as nanoparticles, measurement of <br />
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enzyme activity in free and immobilized states, and cloning of levansucrase genes. <br />
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Ribotyping and phylogenetic analysis reconfirmed that the halophilic bacterium used is <br />
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Halomonas smyrnensis. Production of levan by this bacterium that cultivated in LB <br />
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medium containing 20% (w/v) sucrose by agitation rate of 150 rpm at 37 oC for 18 hours <br />
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produced levan of 3.02 g/L. The FTIR spectrum of levan sample from H. smyrnensis BK4 <br />
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appeared to be similar to levan from Erwinia herbicola, whereas its H-NMR spectrum, was <br />
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similar to levan from Bacillus licheniformis. This levan was then used to immobilize two <br />
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different enzymes, levansucrase and lipase, in the form of nanoparticle. The scanning <br />
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electron microscope (SEM) image showed irregular geometry of levan nanoparticle used <br />
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to immobilize levansucrase, while levan nanoparticles used to immobilize lipase exhibited <br />
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more spherical geometry. Particle size analyzer (PSA) indicated size distribusion range of <br />
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347.3 ̶ 947.2 nm diameter of levan nanoparticles used to immobilize levansucrase with <br />
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zeta potential of about ̶ 43.59 mV, whereas for those used to immobilize lipase have <br />
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diameter distribution of 164.2 ̶ 635.7 nm with zeta potential of about ̶ 24.99 mV. The <br />
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specific activity of immobilized levansucrase was about 2.98 unit/mg, which was relatively <br />
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higher compare to levansucrase activity in the free state, which was about 1.51 unit/mg. <br />
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Contrary, the specific activity of immobilized lipase was almost similar to that of the free <br />
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state one, which was about 5.67 and 5.72 unit/mg, respectively. Efforts to clone the <br />
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levansucrase gene using pGEM-T plasmid and E. coli TOP10 as host cell has also been <br />
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carried out, but did not give to desired result. |
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