KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT
Malaria is a common endemic disease in the tropical region. WHO has recommended artemisinin combination based therapy to alleviate the Plasmodium falciparum infection in the chloroquine resistance cases.The main problems that arise in the use of artemisinin are the high demand for ACT from variou...
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id-itb.:483812020-06-29T07:58:38ZKLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT Samantha Puteri, Patricia Indonesia Final Project Artemisia annua L., DNA cloning, cytochrome 450, flavodoxin, flavodoxin reductase INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/48381 Malaria is a common endemic disease in the tropical region. WHO has recommended artemisinin combination based therapy to alleviate the Plasmodium falciparum infection in the chloroquine resistance cases.The main problems that arise in the use of artemisinin are the high demand for ACT from various countries and fluctuations in the price and production of artemisinin. In this study, an alternative pathway for artemisinin biosynthesis was proposed by utilizing amorphadiene synthase flexibility to receive 12-hydroxyparnesyl diphosphate as its modified substrate. This alternative pathway might shorten the natural biosynthesis pathway of artemisinin by generating dihydroartemisinic aldehyde from farnesyl diphosphate using two instead of three steps of reactions. The product requires one step oxidation reaction to produce dihydroartemisinic acid as the closest precursor of artemisinin. Theoretically, the hydroxylation of farnesyl diphosphate requires CYP124 from Mycobacterium tuberculosis. The cytochrome activity requires ferredoxin / flavodoxin and ferredoxin / flavodoxin - NADPH reductase which play a role in the delivery of electrons to the cytochrome reaction center. This research is focused on the cloning process of the CYP124, flavodoxin, and flavodoxin reductase gene of Escherichia coli. The construction of CYP124, flavodoxin and flavodoxin reductase gene in the plasmid was carried out using the polymerase chain reaction (PCR) and circular polymerase extention cloning (CPEC) methods. Gene confirmation upon the isolation and cloning process was conducted using gel agarose electrophoresis. Based on the DNA electrophoresis migration, it was confirmed that the isolated genes have comparable size to E. coli flavodoxin and flavodoxin reductase available in the reference. In addition, the effectiveness of cytochrome fusion with its reductase pair is discussed. Comparisons were made between CYP725A4-CPR cytochrome fusion and separate expressions of the two, with the amount of oxidized taxadiene product as parameter. The results showed that the expression of CYP725A4 separately from CPR gave a much higher amount of oxidized taxadiene than the fusion of the two. text |
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Malaria is a common endemic disease in the tropical region. WHO has recommended artemisinin
combination based therapy to alleviate the Plasmodium falciparum infection in the chloroquine
resistance cases.The main problems that arise in the use of artemisinin are the high demand for
ACT from various countries and fluctuations in the price and production of artemisinin. In this study,
an alternative pathway for artemisinin biosynthesis was proposed by utilizing amorphadiene
synthase flexibility to receive 12-hydroxyparnesyl diphosphate as its modified substrate. This
alternative pathway might shorten the natural biosynthesis pathway of artemisinin by generating
dihydroartemisinic aldehyde from farnesyl diphosphate using two instead of three steps of
reactions. The product requires one step oxidation reaction to produce dihydroartemisinic acid as
the closest precursor of artemisinin. Theoretically, the hydroxylation of farnesyl diphosphate
requires CYP124 from Mycobacterium tuberculosis. The cytochrome activity requires ferredoxin /
flavodoxin and ferredoxin / flavodoxin - NADPH reductase which play a role in the delivery of
electrons to the cytochrome reaction center. This research is focused on the cloning process of the
CYP124, flavodoxin, and flavodoxin reductase gene of Escherichia coli. The construction of CYP124,
flavodoxin and flavodoxin reductase gene in the plasmid was carried out using the polymerase
chain reaction (PCR) and circular polymerase extention cloning (CPEC) methods. Gene confirmation
upon the isolation and cloning process was conducted using gel agarose electrophoresis. Based on
the DNA electrophoresis migration, it was confirmed that the isolated genes have comparable size
to E. coli flavodoxin and flavodoxin reductase available in the reference. In addition, the
effectiveness of cytochrome fusion with its reductase pair is discussed. Comparisons were made
between CYP725A4-CPR cytochrome fusion and separate expressions of the two, with the amount
of oxidized taxadiene product as parameter. The results showed that the expression of CYP725A4
separately from CPR gave a much higher amount of oxidized taxadiene than the fusion of the two.
|
| format |
Final Project |
| author |
Samantha Puteri, Patricia |
| spellingShingle |
Samantha Puteri, Patricia KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT |
| author_facet |
Samantha Puteri, Patricia |
| author_sort |
Samantha Puteri, Patricia |
| title |
KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT |
| title_short |
KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT |
| title_full |
KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT |
| title_fullStr |
KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT |
| title_full_unstemmed |
KLONING DAN KONSTRUKSI GEN FLAVODOKSIN DAN FLAVODOKSIN REDUKTASE DARI ESCHERICHIA COLI UNTUK KOEKSPRESI DENGAN CYP124 MYCOBACTERIUM TUBERCULOSIS DALAM RANGKA PRODUKSI ALDEHID DIHIDROARTEMISINAT |
| title_sort |
kloning dan konstruksi gen flavodoksin dan flavodoksin reduktase dari escherichia coli untuk koekspresi dengan cyp124 mycobacterium tuberculosis dalam rangka produksi aldehid dihidroartemisinat |
| url |
https://digilib.itb.ac.id/gdl/view/48381 |
| _version_ |
1822927904590266368 |