PERANCANGAN PRIMER DAN PROBE UNTUK DETEKSI RESIDUAL DNA SEL INANG DENGAN METODE TAQMAN QPCR PADA VAKSIN HEPATITIS B
Hepatitis B caused by Hepatitis B Virus (HBV) can be categorized as serious disease that affects liver function. Vaccination can be performed to prevent liver diseases caused by HBV. PT Bio Farma produces Hepatitis B vaccine with HBsAg expression using yeast cell host Ogataea polymorpha strain BF...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/50302 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Hepatitis B caused by Hepatitis B Virus (HBV) can be categorized as serious disease that affects
liver function. Vaccination can be performed to prevent liver diseases caused by HBV. PT Bio
Farma produces Hepatitis B vaccine with HBsAg expression using yeast cell host Ogataea
polymorpha strain BF, Pichia genus. In the production and purification step of a recombinant
Hepatitis B vaccine antigen possibly produced impurity in the form of host cell residual DNA. One
of recombinant vaccine requirement from WHO for licensed vaccine is one vaccine dose has to
contain less than 10 pg host cell residual DNA. resDNASEQ™Quantitative Pichia DNA kit from
Applied Biosystems with Taqman qPCR method commercially available for that assay with Pichia
pastoris DNA as a template. From preliminary test, the kit did not give PCR product using O.
polymorpha BF DNA as a template. The aim of this research is to design primer and probe for
detection of host cell residual DNA O. polymorpha BF for qPCR Taqman based detection system.
Three sets of primer and probe were designed using https://idtdna.com, SnapGene, and
DNASTAR PrimerSelection in accordance with recommended criteria. Primer annealing was
analysed by conventional PCR and DNA agarose electrophoresis was used for visualization.
Electrophoresis result showed that single band PCR product was formed in the size that
corresponded with in silico prediction, i.e., 203, 147 and 157 bp. The DNA sequence in the target
area is determined by the sequencing process using the BigDyeTM Terminator v 3.1 Cycle
Sequencing Kit. The result of the sequence already corresponds to the targeted area and the
designed probe can be recognized the sequence in silico.
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