DEVELOPMENT OF COLORIMETRIC-BASED REPORTER SYSTEM FOR SCREENING OF CANDIDATE INHIBITOR OF RNA POLYMERASE INFLUENZA VIRUS
Influenza virus is an enveloped virus with segmented negative-sense RNA genome. Infection of influenza virus can cause seasonal flu epidemic and pandemic. Development of novel anti-influenza candidate require quantification method based on virus replication and reporter system. Reporter system fo...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/44437 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Influenza virus is an enveloped virus with segmented negative-sense RNA
genome. Infection of influenza virus can cause seasonal flu epidemic and
pandemic. Development of novel anti-influenza candidate require quantification
method based on virus replication and reporter system. Reporter system for
quantification of influenza virus uses Green Fluorescent Protein (GFP) and
luciferase. This system requires a special instrument to measure fluorescent and
luminescent. The aim of this research is to develop of colorimetric-based reporter
system using Secreted Alkaline Phosphate (SEAP) which can be used in screening
of anti-influenza candidate. SEAP reporter system was designed as synthetic gene
which contain gene encoding for SEAP with negative orientation, RNA
Polymerase I Promoter, RNA Polymerase I Terminator, 5’and 3’UTR from
segment 6 of influenza virus. SEAP reporter system was ordered in pcDNA3.1(+)
plasmid and named as pSEAP-Flu. To detect SEAP expression from reporter
system, Vero cell were transfected with pSEAP-Flu, plasmid carrying the gene
encoding for influenza nucleoprotein (NP) and RNA polymerase subunit (PA,
PB1, PB2). SEAP activity was measured by addition of p-nitrophenyl phosphate
(pNPP) substrate to growth medium, and measurement of color intensity at 405
nm. pSV-?-Galactosidase (pSV-?-Gal) plasmid was also transfected into Vero
cells as transfection control. ?-Galactosidase activity was performed by addition
of Chlorophenol Red-?-D-galactopyranoside (CPRG) to Vero cell lysate and then
measured at 570 nm. Variation in transfection time, the incubation time of SEAP
activity and amount of pSEAP-Flu was performed to optimize SEAP reporter
system. The selected reporter system condition is 24 hours transfection time, 24
hours incubation time of SEAP activity and 200 ng pSEAP-Flu. The addition of
ribavirin concentration 0-300 µM showed decrease of SEAP expression, detected
from its activity.
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