ISOLATION AND CHARACTERIZATION OF ORGANIC SOLVENT STABILISED LIPASE FROM HERMETIA ILLUCENS PUPAE
Hermetia illucens is one type of fly that can degrade organic waste. The life cycle of H. illucens <br /> <br /> which is mostly dried without consuming air is expected to be an indication of an enzyme in the body <br /> <br /> of H. illucens that is stable in organic solvent...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/26899 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Hermetia illucens is one type of fly that can degrade organic waste. The life cycle of H. illucens <br />
<br />
which is mostly dried without consuming air is expected to be an indication of an enzyme in the body <br />
<br />
of H. illucens that is stable in organic solvents, one of which is lipase. Lipase is an enzyme that can <br />
<br />
generally catalyze the long hydrolysis/synthesis of triglycerides. Lipase which has resistance in <br />
<br />
organic solvents is very much needed in the industrialized world which is starting to use lipase as an <br />
<br />
organic synthesis catalyst. In this study, lipase isolation from H. illucens was carried out in the pupa <br />
<br />
phase which is expected to have resistance in organic solvents. The pupa phase or dormant phase is <br />
<br />
chosen as lipase because it has a higher lipase process than the other phases. Preparation of lipase <br />
<br />
isolation is done by first eroding the H. illucens pupa phase which is then dissolved in a solution of <br />
<br />
NaCl, KCl, MgCl2, and Sucrose. This solution was homogenized in 300 μL tris-HCl buffer (pH 8) <br />
<br />
and added 1% Triton X-100. The solution was incubated for 10 minutes then centrifuged at 8000 rpm <br />
<br />
for 25 minutes at 40oC. The supernatant found from the results of this process is a solution containing <br />
<br />
lipase. Furthermore, optimization of pH, temperature, incubation time, substrate type, and type of <br />
<br />
buffer. Lipase fractionation was carried out using three levels of ammonium sulfate salt, namely <br />
<br />
fractions 0-20%, 20-40%, and 40-60%. Lipase activity was carried out by measuring the absorbance <br />
<br />
of the p-nitrofenol (pNP) compound at a wavelength of 405 nm using a UV-Vis spectrophotometer. <br />
<br />
Lipase characterization was carried out on pH, temperature, incubation time, organic solvents, metal <br />
<br />
ions, and inhibitors. Also determined the kinetic parameters of the enzyme reaction. The results <br />
<br />
showed that lipase had the highest activity at 37 oC and pH 8 with an incubation time of 20 minutes. <br />
<br />
Lipases can also be used with the use of pNPP substrates and tris-HCl buffers. Isolation and <br />
<br />
fractionation of lipase gave the best results in fractions of 20-40% with values for each fraction in a <br />
<br />
row 0.95 U / mg, 1.90 U / mg, and 0.52 U / mg. The addition of K+ and Mg2+ ions was observed to <br />
<br />
significantly increase lipase activity. Lipase activity was also observed using the incubation of organic <br />
<br />
solvents methanol, 2-propanol, ethanol, and acetone. Observed lipase has a Michaelis-Menten kinetics <br />
<br />
model with Vmax value = 0,0027 mM / minute and KM = 3,4460 mM. This research has successfully <br />
<br />
isolated lipase from H. illucens pupa phase that is stable in organic solvents and characterization of <br />
<br />
this enzyme was also successfully carried out. |
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