Composite

Part:BBa_K2250003

Designed by: Shuailin Li   Group: iGEM17_Tsinghua-A   (2017-10-19)


Pconst-RBS-RafD-HlyA

It is the ligation product of BBa_J23100, BBa_B0034 and BBa_K2250002.

I. Background

RafD, which is primitively from the raffinose operon of E. coli, can express a β-fructofuranosidase. It can hydrolyze raffinose into fructose and meliose, and sucrose into glucose and fructose. HlyA is a secretory protein in bacteria, which can be secreted through the recognition of its signal sequence at the C terminal by a transporter constructed by HlyB, HlyD and TolC. This part is designed to produce a secretory invertase, which can hydrolyze sucrose in media to feed the bacteria without invertase.

II. Experimental design

As demonstrated in the genetic circuit, RafD is ligated to the signal peptide of HlyA. The plasmid can also express HlyB and HlyD, which is controlled by PBAD to tune the secretion process of RafD. Besides, TolC originally exists in the genome of E.coli. Thus, the RafD enzyme is able to be transported to the media and hydrolyze the sucrose outside the cells. To test the function of this part, we constructed two kinds of E.coli, one with this part BBa_K2250003 and a transport system (Peasant), and another with a constitutive expression of RFP (Civilian). We changed the ratio between Peasant and Civilian and the concertration of arabinose, which can active PBAD to control the invertase’s secretion. RFP was measured to represent the abundance of Civilian, i.e. the ability how this part (Peasant) can feed bacteria without any invertase genes.

III. Methods

1. Transformed BBa_K2250003 + Transported system (Peasant) and constitutive expressed mRFP (Civilian) separately into E. coli MG1655 ΔsidA ΔlacI. Let them grow in M9-sucrose culture media, a special M9 culture media in which glucose is replaced by sucrose.

2. Cultivate a pipe of Peasants and a pipe of Civilians for 12h.

3. Adjust their OD600 to be the same value.

4. Take 2ml each, and centrifuged them at 12000rpm for 1min. The supernatant was removed and each sediment was resuspended with 2ml M9-sucrose culture media.

5. Add 5ml M9-sucrose media and 100μl bacterial liquid, in which Peasants and Civilians are mixed, so the total number of them is fixed, nevertheless of their ratio. The concentration of Arabinose was set by adding concentrated Arabinose solution. The experimental groups and control groups are listed as follows. The number “1” and “3” in the boxes are the numbers of repeats.

800px-Invertase-table.png

6. All of the groups were cultured for 20h. The growth was measured by flow cytometry. The number of cells is averaged.

IV. Results

The number of cells were counted and illustrated in the figures. Figure 1 shows the number of living cells in each group (Peasant + Civilian). Figure 2 shows the number of cells expressing mRFP in each group (Civilian). Figure 3 shows the ratio of the number of cells expressing mRFP to the number of living cells (Civilian / (Peasant + Civilian)).

800px-Invertase-f1.png

Fig. 1 The number of living cells

800px-Invertase-f2.png

Fig. 2 The number of cells expressing mRFP

800px-Invertase-f3.png

Fig. 3 The number of cells expressing mRFP/the number of living cells

V.Analysis

Figure 2 tells us that when Peasants and Civilians coexist in the media, Civilians grow more than the group in which Civilians live alone. Also, the number of Civilians becomes larger than the negative control group if the primitive fraction of peasant is larger. This proves that BBa_K2250003 worked as what we expected. Contrarily, the number of Civilians does not become larger if the primitive quantity of Peasants is too big while the original number of Civilians is too small. And this is considered acceptable. Besides, as is revealed, Civilians grows fastest when the primitive ratio of Peasants and Civilians is 1. The results in Figure 1 and Figure 3 are also in line with expectation. Figure 1 demonstrates that when the concentration of Arabinose is 40μM, Civilians cannot live without Peasants, which means the cells in the media mainly live on sucrose instead of arabinose. However, Civilians can grow alone if the concentration of arabinose is up to 100 μM, which may provide extra carbon sources. This comparison tells that 40μM is an appropriate concentration which is able to ask cells to live on sucrose but not arabinose.


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal NheI site found at 7
    Illegal NheI site found at 30
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal XhoI site found at 1417
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal NgoMIV site found at 158
    Illegal NgoMIV site found at 1029
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal SapI.rc site found at 860


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