To ensure our target genes were successfully cloned into the pSB1C3 backbone, we ran the electrophoresis of Taq PCR products to check the sizes of the insert genes.
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<div class="title_1"><p>Protein Purification</p></div> | <div class="title_1"><p>Protein Purification</p></div> | ||
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− | <p> Finally, we added 1,4-dithiothreitol(DTT) to purify bacteriocins from intein-CBD tag(28 kDa). The | + | <p> Finally, we added 1,4-dithiothreitol(DTT) to purify bacteriocins from intein-CBD tag(28 kDa). The result is shown as below. We used Enterocin B as representative. The result showed that we could successfully purify bacteriocin.</p> |
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<img src="https://static.igem.org/mediawiki/2018/6/6f/T--NCTU_Formosa--entb11.png" class="sds_entb"> | <img src="https://static.igem.org/mediawiki/2018/6/6f/T--NCTU_Formosa--entb11.png" class="sds_entb"> |
Revision as of 15:12, 7 December 2018
Cloning
All of the sequences contained T7 promoter, RBS, bacteriocin, intein and CBD, were shown in Figure 1.
After amplification with PCR, all the PCR products' lengths are around 1200 b.p. The exact lengths are listed in Table 1.
Bacteriocin |
Length |
Length of PCR product |
---|---|---|
Leucocyclicin Q |
186 b.p. |
1230 b.p. |
Enterocin B |
210 b.p. |
1254 b.p. |
Enterocin 96 |
219 b.p. |
1263 b.p. |
Lacticin Z |
153 b.p. |
1197 b.p. |
Bovicin HJ50 |
171 b.p. |
1215 b.p. |
Durancin TW-49M |
213 b.p. |
1257 b.p. |
The figure 2 is electrophoresis results of the PCR products with marker on the left side and target gene on the right side. The lengths are labeled beside each band.
Figure 2: Agarose gel electrophoretic patterns of Taq PCR products of six bacteriocin genes containing T7 promoter, RBS, gene segments of intein and CBD: (A) Leucocyclicin Q (BBa_K2599014, 1230 b.p.) (B) Enterocin B (BBa_K2599011, 1254 b.p.) (C) Bovicin HJ50 (BBa_K2599009, 1215 b.p.) (D) Lacticin Z (BBa_K2599013, 1197 b.p.) (E) Enterocin 96 (BBa_K2599012, 1263 b.p.) (F) Durancin TW-49M (BBa_K2599015, 1257 b.p.)
Protein Expression
After the expression from E. coli BL21 Rosetta-gami, we had to check whether the proteins were successfully expressed. We broke E. coli with sonication and ran SDS-PAGE to check the correct sizes of the target proteins. The mass of each protein is presented in Table 2.
Bacteriocin |
Mass (kDa) |
Mass of peptides with intein |
---|---|---|
Leucocyclicin Q |
6.4 |
34.4 |
Enterocin B |
7.5 |
35.5 |
Bovicin HJ50 |
6.25 |
34.25 |
Enterocin 96 |
7.9 |
35.9 |
Lacticin Z |
5.9 |
33.9 |
Durancin TW-49M |
7.3 |
35.3 |
The gel of SDS-PAGE results were shown below. The mass of intein-CBD tag is 28 kDa. Therefore, all the results showed the initial mass of each bacteriocin plus the mass of intein-CBD tag. From SDS-PAGE results, we could confirm the production of target peptides.
Figure 3: SDS-PAGE analysis of bacteriocin samples. M: Protein Ladder 5–245 kDa, C: Negative control (only intein+CBD, 28 kDa), EA: Leucocyclicin Q + intein + CBD (BBa_K2599014, 34.4 kDa) EB: Enterocin B + intein + CBD (BBa_K2599011, 35.5 kDa) EC: Bovicin HJ50 + intein + CBD (BBa_K2599009, 34.25 kDa) ED: Enterocin 96 + intein + CBD (BBa_K2599012, 35.9 kDa) EE: Lacticin Z + intein + CBD (BBa_K2599013, 33.9 kDa) EF: Durancin TW-49M + intein + CBD(BBa_K2599015, 35.3 kDa)
Protein Purification
Finally, we added 1,4-dithiothreitol(DTT) to purify bacteriocins from intein-CBD tag(28 kDa). The result is shown as below. We used Enterocin B as representative. The result showed that we could successfully purify bacteriocin.
M: Protein Ladder 5–245 kDa;
C: Negative control. Enterocin B without purification(35.5 kDa);
E: Experimental group. The purified Enterocin B(7.5 kDa).