Difference between revisions of "Part:BBa K3002109:Experience"

 
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===User Reviews===
 
===User Reviews===
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The Mut-PETase in combination with the secretion signal cCA and the SP20-tag showed secretion by C.reinhardtii. In constructs without the SP20-tag no secretion of the MUT-PETase was detectable. This applies for the MUT-PETase in combination with the MHETase. Constructs containing cCA and SP20-tag lead to a high yield of the secreted proteins.
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<img src="https://2019.igem.org/wiki/images/9/90/T--TU_Kaiserslautern--resultsFigure7.svg"/>
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<p class="caption"><span class="phat">Effect of the SP20 module on the secretion efficiency of MHETase.                       
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</span><span class="accent">(a)</span> Level 2 MoClo constructs harboring the aadA selection marker, and the coding sequences for MUT-PETase and MHETase equipped with the secretion signals introduced in Figure 6 and a C-terminal SP20 tag for enhancing glycosylation. See Figure 1 for the description of other parts. <span class="accent">(b)</span> UVM4 transformants containing the constructs shown in <span class="accent">(a)</span> were grown in TAP medium for seven days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. Transformants C12 and A27 introduced in Figures 4 and 5, respectively, served as positive controls. The black arrow points to MHETase, the white arrow to MUT-PETase.
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</p>The Mut-PETase in combination with the secretion signal GLE and the SP20-tag showed secretion by C.reinhardtii. In constructs without the SP20-tag no secretion of the MUT-PETase was detectable. This applies for the MUT-PETase in combination with the MHETase. In comparison to the other two secretion signals in combination with the sp20 tag, the construct with GLE shows a higher yield of secreted proteins.
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<img src="https://2019.igem.org/wiki/images/0/0a/T--TU_Kaiserslautern--resultsFigure8.svg"/>
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<p class="caption"><span class="phat">The SP20 module increases the efficiency of protein secretion.
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</span><span class="accent">(a)</span> Level 2 MoClo constructs harboring the aadA selection marker, and the coding sequences for MUT-PETase and MHETase equipped with the secretion signals introduced in Figure 6. The constructs contain the coding sequence for a conventional 3xHA tag (C, K, L), or the 3xHA tag preceded by a SP20 tag to enhance glycosylation (M, N, O). See Figure 1 for the description of other parts. <span class="accent">(b)</span> UVM4 transformants containing the constructs C, K, L and M, N, O  were grown in TAP medium for seven days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. Transformant A27 introduced in Figures 4, served as positive control. The black arrow points to MHETase, the white arrow to MUT-PETase and the grey arrow to RPL1 (chloroplast ribosomal 50S protein L1). The RPL1 antibody was used to detect contamination from intracellular proteins.
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<img src="https://2019.igem.org/wiki/images/2/24/T--TU_Kaiserslautern--resultsFigure10.svg"/>
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<p class="caption"><span class="phat">Verification of secretion of MHETase and MUT-PETase into the medium.
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</span>Transformants generated with constructs M, N, and O (Figure 8) were grown in TAP medium for seven days. Cells were centrifuged and the supernatant (s) lyophilized and resuspended in 2xSDS buffer. Cell pellets (p) were also resuspended in SDS-buffer. Both fractions were analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. The black arrow points to MHETase, the white arrow to MUT-PETase.
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  <br/></p><div class="figure">
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<img src="https://2019.igem.org/wiki/images/e/ea/T--TU_Kaiserslautern--resultsFigure11.svg"/>
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<p class="caption"><span class="phat">Quantification of secreted MHETase and MUT-PETase.               
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</span><span class="accent">(a)</span> Transformants generated with constructs C, J, M, N, and O (Figure 8) were grown in TAP medium for seven days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. Whole-cell extracts of strain B1-TIG-HA for which concentrations of the HA-tagged TIG protein are known are loaded next to the lyophilized supernatants. The black arrow points to MHETase, the white arrows to MUT-PETase. The supernatant of a culture with the UVM4 strain were loaded as negative control. <span class="accent">(b)</span> Maximum cell densities, doubling times, daily growth rates, yields of MHETase and PETase and daily productivity of both combined were calculated for the transformant lines indicated.
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<img src="https://2019.igem.org/wiki/images/9/90/T--TU_Kaiserslautern--resultsFigure13.svg"/>
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<p class="caption"><span class="phat">Analysis of secreted MUT-PETase and MHETase with secretion signals cCA, ARS and GLE in the CC-4533 strain background.
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</span>Transformants generated in the CC-4533 strain background with constructs M and N (Figure 8) were grown in TAP medium for four days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. The supernatant of a culture with the CC-4533 strain were loaded as negative control. The black arrow points to MHETase, the white arrow to MUT-PETase.
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<img src="https://2019.igem.org/wiki/images/8/86/T--TU_Kaiserslautern--resFig15.png"/>
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<p class="caption"><span class="phat">Growth and secretion of MUT-PETase and MHETase in CC-4533 transformant M8 under different conditions.             
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</span><span class="accent">(a)</span> Growth curves of the CC-4533 recipient strain and CC-4533 transformant M8 (Figure 12) at 25°C, 80 µE and 33°C, 170 µE. CC-4533 and transformant M8 were inoculated in 50 mL with 2*10<sup>5</sup> cells/mL. Growth was measured by counting cells for 8 days. Error bars represent the standard error of three biological replicates. <span class="accent">(b)</span> Time course of MHETase and MUT-PETase secretion into TAP medium. 2 mL of each sample was lyophilized, desalted and resuspended in 2xSDS loading buffer. 10 µl of each sample were separated via SDS-PAGE and analyzed by immunoblotting with an anti-HA antibody. An antibody against chloroplast ribosomal 50S protein L1 (RPL1) was used to detect contaminations from cellular proteins. The black arrow points to MHETase, the white arrow to MUT-PETase and the grey arrow to RPL1. <span class="accent">(c-f)</span> Bright-field images of strains CC-4533 and M8 grown grown for 3 days at 25°C and 89 µE or at 33°C and 170 µE.
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<img src="https://2019.igem.org/wiki/images/a/ad/T--TU_Kaiserslautern--resFig16.png"/>
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<p class="caption"><span class="phat">Growth and secretion of MUT-PETase and MHETase in CC-4533 transformant M8 in two photobioreactors.
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</span><span class="accent">(a, b)</span> Time course analysis of secreted MUT-PETase and MHETase in bioreactors A <span class="accent">(a)</span> and B <span class="accent">(b)</span>. The cell density in bioreactor A was held at a higher cell density than that in bioreactor B. Samples were taken once or twice a day starting at 48.2 h after inoculation. Lyophilized cell-free media was resuspended in 2xSDS loading buffer and analysed by immuno-blotting using an HA-antibody. <span class="accent">(c)</span> Cell growth in the Bioreactors A and B at 25°C.
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<img src="https://2019.igem.org/wiki/images/b/b3/T--TU_Kaiserslautern--resultsFigure19.svg"/>
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<p class="caption"><span class="phat">Purification of HA-tagged MUT-PETase and MHETase from <i>Chlamydomonas</i> and activity measurement against BHET by reversed-phase HPLC.
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</span><span class="accent">(a)</span> Affinity purification of MUT-PETase and MHETase from <i>Chlamydomonas</i> by anti-HA magnetic beads. Transformants M5, C12 and untransformed UVM4 were inoculated in TAP for seven days. Cultures were centrifuged and supernatants incubated with anti-HA magnetic beads for 1 h. Enzymes were purified via biomagnetic separation. Samples of the unconcentrated supernatant (S), of the washing step (W), of the eluted proteins (E) and after 96 h incubation with BHET (A.I.) were analyzed by immunoblotting using an anti-HA antibody. <span class="accent">(b)</span> Proteins eluted from <i>Chlamydomonas</i> transformant M5 (producing MUT-PETase and MHETase) and the UVM4 strain (not producing MUT-PETase and MHETase) were incubated with 1 mM BHET in sodium phosphate (NaPi) buffer at 30°C for 96 h. The standard containing 1 mM TPA, MHET and BHET dissolved in DMSO is shown on top.
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<img src="https://2019.igem.org/wiki/images/7/74/T--TU_Kaiserslautern--resultsFigure20.svg"/>
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<p class="caption"><span class="phat">Measurement of activity of MHETase and MUT-PETase from <i>Chlamydomonas</i> against PET by reversed-phase HPLC.
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</span>Transformant M8 and parent strain CC-4533 (CliP) were inoculated in HMP medium for seven days. M8 contains construct L2M encoding MUT-PETase and MHETase tagged with the SP20-module and secretion signal cCA (Figure 13). The cultures were centrifuged, and the supernatants concentrated 20-fold with ultracentrifuge filters and rebuffered in glycine buffer. <span class="accent">(a)</span> A standard of 1 mM TPA, MHET, and BHET dissolved in DMSO was measured by HPLC. <span class="accent">(b)</span> The 20-fold concentrated medium of transformant M8 was incubated with PET film at 25°C for 96 h and measured with HPLC. <span class="accent">(c)</span> The 20-fold concentrated medium of parent strain CC-4533 (CliP) was incubated with PET film at 25°C for 96 h and measured with HPLC. <span class="accent">(d)</span> The glycine buffer was measured with HPLC. The same measurements are displayed, but the scaling of the axis was set to 2000 mAU on the left and to 50 mAU on the right.
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Latest revision as of 03:50, 22 October 2019


This experience page is provided so that any user may enter their experience using this part.
Please enter how you used this part and how it worked out.

Applications of BBa_K3002109

User Reviews

The Mut-PETase in combination with the secretion signal cCA and the SP20-tag showed secretion by C.reinhardtii. In constructs without the SP20-tag no secretion of the MUT-PETase was detectable. This applies for the MUT-PETase in combination with the MHETase. Constructs containing cCA and SP20-tag lead to a high yield of the secreted proteins.

Effect of the SP20 module on the secretion efficiency of MHETase. (a) Level 2 MoClo constructs harboring the aadA selection marker, and the coding sequences for MUT-PETase and MHETase equipped with the secretion signals introduced in Figure 6 and a C-terminal SP20 tag for enhancing glycosylation. See Figure 1 for the description of other parts. (b) UVM4 transformants containing the constructs shown in (a) were grown in TAP medium for seven days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. Transformants C12 and A27 introduced in Figures 4 and 5, respectively, served as positive controls. The black arrow points to MHETase, the white arrow to MUT-PETase.

The Mut-PETase in combination with the secretion signal GLE and the SP20-tag showed secretion by C.reinhardtii. In constructs without the SP20-tag no secretion of the MUT-PETase was detectable. This applies for the MUT-PETase in combination with the MHETase. In comparison to the other two secretion signals in combination with the sp20 tag, the construct with GLE shows a higher yield of secreted proteins.

,

The SP20 module increases the efficiency of protein secretion. (a) Level 2 MoClo constructs harboring the aadA selection marker, and the coding sequences for MUT-PETase and MHETase equipped with the secretion signals introduced in Figure 6. The constructs contain the coding sequence for a conventional 3xHA tag (C, K, L), or the 3xHA tag preceded by a SP20 tag to enhance glycosylation (M, N, O). See Figure 1 for the description of other parts. (b) UVM4 transformants containing the constructs C, K, L and M, N, O were grown in TAP medium for seven days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. Transformant A27 introduced in Figures 4, served as positive control. The black arrow points to MHETase, the white arrow to MUT-PETase and the grey arrow to RPL1 (chloroplast ribosomal 50S protein L1). The RPL1 antibody was used to detect contamination from intracellular proteins.


Verification of secretion of MHETase and MUT-PETase into the medium. Transformants generated with constructs M, N, and O (Figure 8) were grown in TAP medium for seven days. Cells were centrifuged and the supernatant (s) lyophilized and resuspended in 2xSDS buffer. Cell pellets (p) were also resuspended in SDS-buffer. Both fractions were analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. The black arrow points to MHETase, the white arrow to MUT-PETase.


Quantification of secreted MHETase and MUT-PETase. (a) Transformants generated with constructs C, J, M, N, and O (Figure 8) were grown in TAP medium for seven days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. Whole-cell extracts of strain B1-TIG-HA for which concentrations of the HA-tagged TIG protein are known are loaded next to the lyophilized supernatants. The black arrow points to MHETase, the white arrows to MUT-PETase. The supernatant of a culture with the UVM4 strain were loaded as negative control. (b) Maximum cell densities, doubling times, daily growth rates, yields of MHETase and PETase and daily productivity of both combined were calculated for the transformant lines indicated.


Analysis of secreted MUT-PETase and MHETase with secretion signals cCA, ARS and GLE in the CC-4533 strain background. Transformants generated in the CC-4533 strain background with constructs M and N (Figure 8) were grown in TAP medium for four days. Cells were centrifuged and the supernatant lyophilized, resuspended in 2xSDS buffer and analyzed by SDS-PAGE and immunoblotting with an anti-HA antibody. The supernatant of a culture with the CC-4533 strain were loaded as negative control. The black arrow points to MHETase, the white arrow to MUT-PETase.

Growth and secretion of MUT-PETase and MHETase in CC-4533 transformant M8 under different conditions. (a) Growth curves of the CC-4533 recipient strain and CC-4533 transformant M8 (Figure 12) at 25°C, 80 µE and 33°C, 170 µE. CC-4533 and transformant M8 were inoculated in 50 mL with 2*105 cells/mL. Growth was measured by counting cells for 8 days. Error bars represent the standard error of three biological replicates. (b) Time course of MHETase and MUT-PETase secretion into TAP medium. 2 mL of each sample was lyophilized, desalted and resuspended in 2xSDS loading buffer. 10 µl of each sample were separated via SDS-PAGE and analyzed by immunoblotting with an anti-HA antibody. An antibody against chloroplast ribosomal 50S protein L1 (RPL1) was used to detect contaminations from cellular proteins. The black arrow points to MHETase, the white arrow to MUT-PETase and the grey arrow to RPL1. (c-f) Bright-field images of strains CC-4533 and M8 grown grown for 3 days at 25°C and 89 µE or at 33°C and 170 µE.


Growth and secretion of MUT-PETase and MHETase in CC-4533 transformant M8 in two photobioreactors. (a, b) Time course analysis of secreted MUT-PETase and MHETase in bioreactors A (a) and B (b). The cell density in bioreactor A was held at a higher cell density than that in bioreactor B. Samples were taken once or twice a day starting at 48.2 h after inoculation. Lyophilized cell-free media was resuspended in 2xSDS loading buffer and analysed by immuno-blotting using an HA-antibody. (c) Cell growth in the Bioreactors A and B at 25°C.


Purification of HA-tagged MUT-PETase and MHETase from Chlamydomonas and activity measurement against BHET by reversed-phase HPLC. (a) Affinity purification of MUT-PETase and MHETase from Chlamydomonas by anti-HA magnetic beads. Transformants M5, C12 and untransformed UVM4 were inoculated in TAP for seven days. Cultures were centrifuged and supernatants incubated with anti-HA magnetic beads for 1 h. Enzymes were purified via biomagnetic separation. Samples of the unconcentrated supernatant (S), of the washing step (W), of the eluted proteins (E) and after 96 h incubation with BHET (A.I.) were analyzed by immunoblotting using an anti-HA antibody. (b) Proteins eluted from Chlamydomonas transformant M5 (producing MUT-PETase and MHETase) and the UVM4 strain (not producing MUT-PETase and MHETase) were incubated with 1 mM BHET in sodium phosphate (NaPi) buffer at 30°C for 96 h. The standard containing 1 mM TPA, MHET and BHET dissolved in DMSO is shown on top.


Measurement of activity of MHETase and MUT-PETase from Chlamydomonas against PET by reversed-phase HPLC. Transformant M8 and parent strain CC-4533 (CliP) were inoculated in HMP medium for seven days. M8 contains construct L2M encoding MUT-PETase and MHETase tagged with the SP20-module and secretion signal cCA (Figure 13). The cultures were centrifuged, and the supernatants concentrated 20-fold with ultracentrifuge filters and rebuffered in glycine buffer. (a) A standard of 1 mM TPA, MHET, and BHET dissolved in DMSO was measured by HPLC. (b) The 20-fold concentrated medium of transformant M8 was incubated with PET film at 25°C for 96 h and measured with HPLC. (c) The 20-fold concentrated medium of parent strain CC-4533 (CliP) was incubated with PET film at 25°C for 96 h and measured with HPLC. (d) The glycine buffer was measured with HPLC. The same measurements are displayed, but the scaling of the axis was set to 2000 mAU on the left and to 50 mAU on the right.

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