EVALUATION OF SOLUBLE RECOMBINANT RETEPLASE PRODUCTION IN Escherichia coli USING T7 AND gadA PROMOTER
Coronary heart disease and ischemic stroke are the leading causes of death in the world including Indonesia. These diseases can be treated by thrombolytic agents such as reteplase. Recombinant reteplase is a therapeutic protein with plasminogen activator activity that approved by FDA and EMA. H...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/40485 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Coronary heart disease and ischemic stroke are the leading causes of death in the
world including Indonesia. These diseases can be treated by thrombolytic agents
such as reteplase. Recombinant reteplase is a therapeutic protein with plasminogen
activator activity that approved by FDA and EMA. However, reteplase has never
been produced and marketed in Indonesia. The problem of reteplase production is
9 disulfide bonds which make reteplase difficult to produce in soluble form using
E. coli system. The aim of this study was to evaluate the strategy of increasing the
solubility of recombinant reteplase through production by using weak promoter
(gadA) and strong promoter (T7). The production with gadA promoter was done
using pMCD_ret plasmid which was constructed in this study. Overproduction
performed using ¼LB-Succinate medium for 11.5 hours. Evaluation of
recombinant reteplase production was done using SDS-PAGE method. Production
of reteplase with T7 promoter was performed using plasmid pET24b_ret on LB
media at 37°C and 0.1 mM IPTG as inducer. Reteplase produced by T7 promoter
was in inclusion body, which then solubilized with 8 M urea and the refolding was
done by reducing the concentration of urea gradually. The solubilized reteplase was
analyzed by SDS-PAGE and Western Blot. Purification of recombinant reteplase
was done using ion exchange and gel filtration chromatography. The activity assay
was performed using casein zymography and caseinolysis-radial. The pMCD_ret
plasmid was successfully constructed, but has not been able to produce recombinant
reteplase with the conditions that used in this study. Production, solubilization, and
refolding of reteplase from the inclusion body were successfully done, but the
purification has not been succeeded yet. The renaturated reteplase has not shown
activity as plasminogen activator. The conclusion of this study is construction of
pMCD_ret for reteplase production with weak promoter has been done
successfully. Optimal condition for produce reteplase in soluble and active form
using gadA dan T7 promoter have not been found yet.
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