DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING
E. coli is a microorganism that has been extensively studied and utilized for the production of recombinant proteins due to its fast growth and ease of engineering. One limitation of E. coli in producing recombinant proteins is its inability to secrete them. Recombinant proteins that are secreted...
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id-itb.:784292023-09-20T08:47:01ZDEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING Ni'am Musthofa, Zada Indonesia Final Project production of recombinant protein in E. coli, protein secretion, leaky strain, lpp, ?- red recombineering INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/78429 E. coli is a microorganism that has been extensively studied and utilized for the production of recombinant proteins due to its fast growth and ease of engineering. One limitation of E. coli in producing recombinant proteins is its inability to secrete them. Recombinant proteins that are secreted outside the cell offer several advantages, such as better protein purity, simplification of downstream processes, and cost savings. To enhance the secretion rate of proteins from the periplasm to the extracellular space, the leaky strain of E. coli can be generated by genome engineering approach via disrupting the gene responsible for the integrity of the outer cell membrane. In this study, we performed lpp gene knocking-out by lambda-red recombineering. This method utilized the lambda-red recombinase enzyme to facilitate the insertion of foreign DNA fragments (knock-out cassette fragments) into the target genome through homologous regions (homologous arms). The process began with the transformation of pSIM18 into an E. coli culture to allow the expression of the lambda-red recombinase. Subsequently, a plasmid carrying the template for the knock-out cassette with a kanamycin antibiotic resistance marker, pKIKO-Kan, was constructed. Knock-out (KO) cassette fragments are produced from this plasmid using extended primers that carry segments of the homologous arm (HA) from the lpp gene for integration into the genome. Electroporation was then performed on the lpp KO cassette fragments, which have been prepared into E. coli at a concentration of 6 ?g/mL (300 ng DNA/50 uL electrocompetent cells) using 1.8 kV, 200 ?, and 25?F. Colonies that successfully grow on agar plates with kanamycin (+ Kan) indicate that the lpp KO cassette has been integrated and has knocked out the lpp gene in the target genome. Further confirmation was carried out on these colonies through colony PCR and sequencing. Colonies on agar plates with kanamycin that were confirmed through colony PCR and sequencing were identified as engineered E. coli strains (?lpp). text |
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E. coli is a microorganism that has been extensively studied and utilized for the production of
recombinant proteins due to its fast growth and ease of engineering. One limitation of E. coli
in producing recombinant proteins is its inability to secrete them. Recombinant proteins that
are secreted outside the cell offer several advantages, such as better protein purity,
simplification of downstream processes, and cost savings. To enhance the secretion rate of
proteins from the periplasm to the extracellular space, the leaky strain of E. coli can be
generated by genome engineering approach via disrupting the gene responsible for the integrity
of the outer cell membrane. In this study, we performed lpp gene knocking-out by lambda-red
recombineering. This method utilized the lambda-red recombinase enzyme to facilitate the
insertion of foreign DNA fragments (knock-out cassette fragments) into the target genome
through homologous regions (homologous arms). The process began with the transformation
of pSIM18 into an E. coli culture to allow the expression of the lambda-red recombinase.
Subsequently, a plasmid carrying the template for the knock-out cassette with a kanamycin
antibiotic resistance marker, pKIKO-Kan, was constructed. Knock-out (KO) cassette
fragments are produced from this plasmid using extended primers that carry segments of the
homologous arm (HA) from the lpp gene for integration into the genome. Electroporation was
then performed on the lpp KO cassette fragments, which have been prepared into E. coli at a
concentration of 6 ?g/mL (300 ng DNA/50 uL electrocompetent cells) using 1.8 kV, 200 ?,
and 25?F. Colonies that successfully grow on agar plates with kanamycin (+ Kan) indicate that
the lpp KO cassette has been integrated and has knocked out the lpp gene in the target genome.
Further confirmation was carried out on these colonies through colony PCR and sequencing.
Colonies on agar plates with kanamycin that were confirmed through colony PCR and
sequencing were identified as engineered E. coli strains (?lpp).
|
| format |
Final Project |
| author |
Ni'am Musthofa, Zada |
| spellingShingle |
Ni'am Musthofa, Zada DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING |
| author_facet |
Ni'am Musthofa, Zada |
| author_sort |
Ni'am Musthofa, Zada |
| title |
DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING |
| title_short |
DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING |
| title_full |
DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING |
| title_fullStr |
DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING |
| title_full_unstemmed |
DEVELOPMENT OF LEAKY STRAIN ESCHERICHIA COLI THROUGH LPP GENE KNOCK-OUT USING LAMBDA-RED RECOMBINEERING |
| title_sort |
development of leaky strain escherichia coli through lpp gene knock-out using lambda-red recombineering |
| url |
https://digilib.itb.ac.id/gdl/view/78429 |
| _version_ |
1822008579512598528 |