#TITLE_ALTERNATIVE#
Ursodeoxycholic acid or UDCA is one of natural bile acid from cholesterol metabolism, which is <br /> <br /> widely used to reduce symptoms of chronic cholestatic liver diseases. The compound is commonly <br /> <br /> obtained through extraction from farm animals. Furthermore...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/26366 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Ursodeoxycholic acid or UDCA is one of natural bile acid from cholesterol metabolism, which is <br />
<br />
widely used to reduce symptoms of chronic cholestatic liver diseases. The compound is commonly <br />
<br />
obtained through extraction from farm animals. Furthermore, the amount of the compound, which <br />
<br />
naturally occurs in biles is only 3% form the total bile acid. In order to generate an alternative <br />
<br />
production of UDCA, a genetic modification strategy could be applied to produce the compound in <br />
<br />
plants. This method could be done by inserting the coding gene for UDCA's biosynthesis enzymes <br />
<br />
from animals to plants through Agrobacterium sp. mediation to induce genetic modification. The <br />
<br />
cholesterol 7-α-hydroxylase enzyme is the enzyme for the first biosynthesis path of UDCA from <br />
<br />
cholesterol, whose production is encoded by cytochrome P450 gene family 7 subfamily A number <br />
<br />
1 (CYP7A1). In this research, cDNA was synthesized through reverse transcription process of <br />
<br />
ribonucleic acid (RNA) from red junglefowl (Gallus gallus) liver extraction. The cDNA was used as a <br />
<br />
template for amplification using cyp7a1 primers. The gene was ligated to pGEM®-T Easy cloning <br />
<br />
vector, which was then transformed to Escherichia coli cultured in the Luria-Bertani medium. <br />
<br />
Colonies from the transformation were selected by antibiotic screening using ampicillin and blue <br />
<br />
and white screening using IPTG and X-gal. The resulted positive colonies were cultured in liquid <br />
<br />
Luria-Bertani medium for 18 hours. Plasmids from the liquid culture were isolated and then <br />
<br />
analyzed using nucleotide base pair sequence analysis to confirm the successfulness of cyp7a1 <br />
<br />
cloning process. The nucleotide sequence was identified using the Basic Local Alignment Search <br />
<br />
Tool (BLAST®). CYP7A1 gene was successfully cloned in E. coli proven with BLAST® that shows 99% <br />
<br />
identity match with cyp7a1 mRNA accession number AY700578.1 and 99% match with cholesterol <br />
<br />
7-α-hydroxylase protein accession number AAW33560.1 <br />
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