DESIGN AND IMPLEMENTATION OF IDENTIFICATION SUBSYSTEM FOR DISEASE DNA DETECTION SYSTEM BASED ON QUANTITATIVE POLYMERASE CHAIN REACTION TECHNOLOGY
Shrimp is one of the popular aquatic organisms raised and included under the category of fishery ponds, which is one of the national priority activities that is being pursued to increase its production to 10.32 million tons in 2024. Shrimp, which is one of the invertebrate organisms and has a pri...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/79560 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Shrimp is one of the popular aquatic organisms raised and included under the
category of fishery ponds, which is one of the national priority activities that is
being pursued to increase its production to 10.32 million tons in 2024. Shrimp,
which is one of the invertebrate organisms and has a primitive immune system, is
very susceptible to diseases and the spread of diseases due to viruses is very fast
and causes huge losses for shrimp farmers. The common checking process currently
carried out is through conventional polymerase chain reaction (PCR) tests in
laboratories, so the detection of diseases in shrimp before the discovery of clinical
symptoms takes a long time, whereas detection must be done as early as possible
so that shrimp infected with diseases can be immediately separated and destroyed
to prevent wider disease spread, thus minimizing losses.
In this final project, a system is developed in the form of a device that can detect
white-spot syndrome virus (WSSV) disease by utilizing quantitative polymerase
chain reaction (qPCR) technology. The system that is created is expected to have
portable characteristics so that it can be taken anywhere, including to shrimp
ponds. The system is expected to have an easy-to-use interface and can operate in
areas where the reliability of the power source is still low.
This final project book specifically discusses the design, implementation, and
testing process of one of the subsystems of the overall system that is created, namely
the identification subsystem. This subsystem’s main function is to carry out the
identification process on samples in the form of deoxyribonucleic acid (DNA)
substrates processed using the qPCR method, which consists of denaturation,
annealing, and extension processes. The output of this subsystem is in the form of
qPCR result information, which consists of DNA identification results and
identification curve results. The parts worked on in this subsystem include the
lighting scheme carried out on the sample, the acquisition process of light emission
waves from the substrate, and the identification algorithm. |
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