ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS
World’s fuel consumption is increasing year by year, but it is not comparable to the amount of <br /> <br /> production. An alternative renewable fuel beside fossil fuel is needed. Microalgae has great potential as a <br /> <br /> renewable fuel source because microalgae a...
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id-itb.:305392018-09-14T13:37:02ZISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS AYU PRANA (NIM:10514011), RISNA Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/30539 World’s fuel consumption is increasing year by year, but it is not comparable to the amount of <br /> <br /> production. An alternative renewable fuel beside fossil fuel is needed. Microalgae has great potential as a <br /> <br /> renewable fuel source because microalgae are the highest accumulated lipid-producing microorganisms, <br /> <br /> which is about 20-50% of the weight of dry biomass. To increase the economic value of fuel from <br /> <br /> microalgae, we need to increase the lipid production from microalgae by genetic engineering of lipid <br /> <br /> biosynthesis pathways in microalgae. S-acyltransferase protein (PAT) is one of the proteins that has an <br /> <br /> important role in lipid biosynthesis. This protein is a key in the process of transfer of acyl chains to <br /> <br /> acceptor molecules in TAG biosynthesis. Without these proteins, the cycle of lipid biosynthesis will stop <br /> <br /> until the formation of fatty acids. This research aims is to isolate and clone the S-acyltransferase gene <br /> <br /> from Indonesian marine microalgae, Chlorella vulgaris. The research stages included the preparation of <br /> <br /> pure microalgae culture, microalgae activation and cultivation, investigation of cell morphology under the <br /> <br /> light microscopy, total DNA isolation, amplification of PAT genes fragment with PCR, sequencing of <br /> <br /> PAT gene fragment, total RNA isolation, RT-PCR for synthesis of the first cDNA chain, PCR on the first <br /> <br /> cDNA chain using spesific primers of PAT gene, cloning PAT gene fragments using pGEM-T vector and <br /> <br /> E coli TOP 10F’ as host cell. This study research, 0,7 kb and 0,9 kb fragments of PAT gene have been <br /> <br /> successfully cloned in E. coli cells. text |
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World’s fuel consumption is increasing year by year, but it is not comparable to the amount of <br />
<br />
production. An alternative renewable fuel beside fossil fuel is needed. Microalgae has great potential as a <br />
<br />
renewable fuel source because microalgae are the highest accumulated lipid-producing microorganisms, <br />
<br />
which is about 20-50% of the weight of dry biomass. To increase the economic value of fuel from <br />
<br />
microalgae, we need to increase the lipid production from microalgae by genetic engineering of lipid <br />
<br />
biosynthesis pathways in microalgae. S-acyltransferase protein (PAT) is one of the proteins that has an <br />
<br />
important role in lipid biosynthesis. This protein is a key in the process of transfer of acyl chains to <br />
<br />
acceptor molecules in TAG biosynthesis. Without these proteins, the cycle of lipid biosynthesis will stop <br />
<br />
until the formation of fatty acids. This research aims is to isolate and clone the S-acyltransferase gene <br />
<br />
from Indonesian marine microalgae, Chlorella vulgaris. The research stages included the preparation of <br />
<br />
pure microalgae culture, microalgae activation and cultivation, investigation of cell morphology under the <br />
<br />
light microscopy, total DNA isolation, amplification of PAT genes fragment with PCR, sequencing of <br />
<br />
PAT gene fragment, total RNA isolation, RT-PCR for synthesis of the first cDNA chain, PCR on the first <br />
<br />
cDNA chain using spesific primers of PAT gene, cloning PAT gene fragments using pGEM-T vector and <br />
<br />
E coli TOP 10F’ as host cell. This study research, 0,7 kb and 0,9 kb fragments of PAT gene have been <br />
<br />
successfully cloned in E. coli cells. |
| format |
Final Project |
| author |
AYU PRANA (NIM:10514011), RISNA |
| spellingShingle |
AYU PRANA (NIM:10514011), RISNA ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS |
| author_facet |
AYU PRANA (NIM:10514011), RISNA |
| author_sort |
AYU PRANA (NIM:10514011), RISNA |
| title |
ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS |
| title_short |
ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS |
| title_full |
ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS |
| title_fullStr |
ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS |
| title_full_unstemmed |
ISOLATION AND CLONING OF PUTATIVE PROTEIN SACYLTRANSFERASE (PAT) GENE OF MARINE MICROALGAE CHLORELLA VULGARIS |
| title_sort |
isolation and cloning of putative protein sacyltransferase (pat) gene of marine microalgae chlorella vulgaris |
| url |
https://digilib.itb.ac.id/gdl/view/30539 |
| _version_ |
1822923297338163200 |