Team:Tokyo Tech/Projects/RPS-game/assay

From 2011.igem.org

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         <h2 id="3.">4. lux-lac hybrid promoter activity</h2>
         <h2 id="3.">4. lux-lac hybrid promoter activity</h2>
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         <h3 id="4.0.">4.0. The AND-gate Mechanism
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         <h3 id="4.0.">4.0. The AND-gate Mechanism</h3>
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         We designed AND-gate promoters that use two operators: one that uses activators as regulators, and other that uses repressors as regulators. After an activator binds to an inducer the resulting complex binds to the corresponding operator and activates it. However, since the AND-gate promoter needs its both operators to be active, transcription will not start until the operator that uses repressors as regulators has been de-repressed by the appropriate signaling molecule. This mechanism assures that transcription will not start until both players have added the corresponding signaling molecules to the place where the Judge bacterium is, so it fits perfectly in our RPS game design. To see the game results easily, we added a reporter gene downstream of the AND-gate promoter, so either of gfp, rfp or cfp is expressed when humans win, lose or tie the game, respectively.)
         We designed AND-gate promoters that use two operators: one that uses activators as regulators, and other that uses repressors as regulators. After an activator binds to an inducer the resulting complex binds to the corresponding operator and activates it. However, since the AND-gate promoter needs its both operators to be active, transcription will not start until the operator that uses repressors as regulators has been de-repressed by the appropriate signaling molecule. This mechanism assures that transcription will not start until both players have added the corresponding signaling molecules to the place where the Judge bacterium is, so it fits perfectly in our RPS game design. To see the game results easily, we added a reporter gene downstream of the AND-gate promoter, so either of gfp, rfp or cfp is expressed when humans win, lose or tie the game, respectively.)

Revision as of 14:40, 4 October 2011

Tokyo Tech 2011

RPS detailed method and result

1. LasR repression

1.1. Sample

  • Ptrc-rbs-lasR-TT-PlasI-rbs-cI on pBR / Pλ-rbs-gfp on pAC
  • Ptrc-rbs-lasR-TT on pBR / promoterless-rbs-gfp-TT on pSB3K3 (negative control)

1.2. Method

  1. Overnight culture of sample strain grown at 37 °C in LB medium containing carbenicillin and chloramphenicol were diluted 1:20 in the medium, and overnight culture of promoterless negatgive control grown at 37 °C in LB medium containing carbenicillin and kanamycin were diluted 1:300 in the medium and then they were incubated at 37 °C as fresh cultures.
  2. After their OD600 reached 0.2, we added 3 µL of 500 µM 3O-C12-HSL (3OC12-HSL+) or 3 µL of DMSO (3OC12-HSL-) into the fresh cultures.
  3. After 3-hour incubation at 37 °C (OD approximately reached 1.50.), 0.25 mL of each culture was harvested by centrifugalization and suspended by adding 1 mL of PBS (phosphate-buffered saline).
  4. We dispensed 500 µL of each suspension into a disposable tube through a cell strainer, and its fluorescence intensity was measured with a flow cytometer of Becton, Dickinson and Company.

1.3. Result

LasR repression

1.4. Discussion

Judging from the result that fluorescence intensity of 3O-C12-HSL+ was lower than that of 3O-C12-HSL- in Pλ-rbs-gfp on pAC, we found that LasR was working. Because the regulator part used in this assay has been constructed from the regulator part of Ptrc-rbs-lasR-TT on pBR used in our lasI promoter assay (Previous & New), this result means that the regulator part of Ptrc-rbs-lasR-TT on pBR used in our lasI promoter assay (Previous & New) is working.

2. Previous lasI promoter activity

2.1. Sample

  • PlasI(BBa_J64010)-rbs-gfp-TT on pSB3K3 / Ptrc-rbs-lasR-TT on pBR
  • promoterless-gfp on pSB3K3 / Ptrc-rbs-lasR-TT-PlasI-rbs-cI-TT on pBR (negative control)

2.2. Method

  1. Overnight culture of sample strain grown at 37 °C in LB medium containing carbenicillin and kanamycin, and overnight culture of promoterless negative control grown at 37 °C in LB medium containing carbenicillin and kanamycin were diluted 1:300 in the medium, and then they were incubated at 37 °C as fresh cultures.
  2. After their OD600 reached 0.2, we added 3 µL of 500 µM 3O-C12-HSL (3OC12-HSL+) or 3 µL of DMSO (3OC12-HSL-) into the fresh cultures.
  3. After 3-hour incubation at 37 °C (OD approximately reached 1.50.), 0.25 mL of each culture was harvested by centrifugalization and suspended by adding 1 mL of PBS (phosphate-buffered saline).
  4. We dispensed 500 µL of each suspension into a disposable tube through a cell strainer, and its fluorescence intensity was measured with a flow cytometer of Becton, Dickinson and Company.

2.3. Result

Previous lasI promoter activity

3. New lasI promoter activity

3.1. Sample

  • Ptrc-rbs-lasR-TT on pBR / PlasI(BBa_I649000)-rbs-gfp-TT on pSB3K3
  • Ptrc-rbs-lasR-TT on pBR / promoterless-rbs-gfp-TT on pSB3K3 (negative control)

3.2. Method

  1. Overnight cultures of sample strain grown at 37 °C in LB medium containing carbenicillin and kanamycin were diluted 1:100 in the medium, and overnight cultures of promoterless negative control strain grown at 37 °C in LB medium containing carbenicillin and kanamycin were diluted 1:200 in the medium , and then they were incubated at 37 °C as fresh cultures.
  2. After their OD600 reached 0.2, we added 3 µL of 500 µM 3O-C12-HSL (3OC12-HSL+) or 3 µL of DMSO (3OC12-HSL-) into the fresh cultures.
  3. After 3-hour incubation at 37 °C (OD reached approximately 1.80.), 0.25 mL of each culture was harvested by centrifugalization and suspended by adding 1 mL of PBS (phosphate-buffered saline).
  4. We dispensed 500 µL of each suspension into a disposable tube through a cell strainer, and its fluorescence intensity was measured with a flow cytometer of Becton, Dickinson and Company.

3.3. Result

LasR repression

4. lux-lac hybrid promoter activity

4.0. The AND-gate Mechanism

We designed AND-gate promoters that use two operators: one that uses activators as regulators, and other that uses repressors as regulators. After an activator binds to an inducer the resulting complex binds to the corresponding operator and activates it. However, since the AND-gate promoter needs its both operators to be active, transcription will not start until the operator that uses repressors as regulators has been de-repressed by the appropriate signaling molecule. This mechanism assures that transcription will not start until both players have added the corresponding signaling molecules to the place where the Judge bacterium is, so it fits perfectly in our RPS game design. To see the game results easily, we added a reporter gene downstream of the AND-gate promoter, so either of gfp, rfp or cfp is expressed when humans win, lose or tie the game, respectively.)

4.1. Sample

  • I751101 on pSB3K3 / pTrc99A
  • promoterless-rbs-gfp-TT on pSB3K3 / pTrc99A (negative control)

4.2. Method

  1. Overnight culture of BBa_I751101 grown at 37 °C in LB medium containing carbenicillin and kanamycin, and overnight culture of promoterless negative control grown at 37 °C in LB medium containing carbenicillin and kanamycin were diluted 1:100 in the medium, and then they were incubated at 37 °C as fresh cultures..
  2. After their OD600 reached 0.2, we added inducers into the fresh culture: 1 mM IPTG and/or 10 nM 3OC6-HSL. .
  3. After 3-hour incubation at 37 °C (OD approximately reached 1.70.), 0.25 mL of each culture was harvested by centrifugalization and suspended by adding 1 mL of PBS (phosphate-buffered saline).
  4. We dispensed 500 µL of each suspension into a disposable tube through a cell strainer, and its fluorescence intensity was measured with a flow cytometer of Becton, Dickinson and Company.

4.3. Result

lux-lac hybrid promoter activity

5. Previous lsrA promoter activity and our new lsrA promoter activity

5.1. Sample

  • Ptet-gfp on pSB1A2(JD22597)(positive control)
  • Promoterless-gfp on pSB6A1(JD22597)(negative control)
  • PlsrA-gfp on pSB1A2 (BBa_K649104)(JD22597)
  • PlsrA-gfp on pSB1A2 (BBa_K11702-gfp)(JD22597)

5.2. Method

  1. Overnight cultures of reporter strains grown at 37 °C in LB medium containing appropriate antibiotics were diluted 1:100 into 3 ml of LB medium and were incubated at 37 °C as fresh cultures.
  2. After their OD590 reached 0.15, the fresh cultures were diluted 1:100.
  3. After 4-hour incubation at 37 °C, 1 ml of each culture was moved to 1.6ml tube and its fluorescence intensity was measured with a flow cytometer.

5.3. Result

OD PlsrA activity

5.4. AI-2 working system

="AI2" First AI-2 is synthesized by LuxS and accumulates outside the cell. Then AI-2 is imported into the cell by the LsrACDB transporter. Inside the cell, AI-2 is phosphorylated by the LsrK kinase. Phospho-AI2 relieves LsrR inhibition from the lsr operon, therefore activating PlsrA.

5.5. Discussion

To confirm that lsrA promoter(BBa_K117002) does not work properly, we introduced a gfp gene(BBa_J54103) downstream of the promoter and transformed this construct into JD22597 lacking lsrR. As a consequence, fluorescence intensity of lsrA promoter-gfp((BBa_K117002)-gfp) was almost the same as promoterless-gfp(negative control), showing that lsrA promoter (BBa_K117002) does not work properly. On the other hand, fluorescence intensity of our lsrA promoter-gfp(BBa_649104) was much higher than that of promoterless-gfp(negative control), showing that our new lsrA promoter (BBa_649100) works. The difference between lsrA promoter(BBa_K117002) and lsrA promoter (BBa_649100) is whether promoter contains CRP binding site(Fig) or not. Our lsrA promoter(BBa_649100) contains this site. According to Wang (2004) et al(ref.3), cAMP-CRP directly binds to the upstream of promoter and stimulates expression of the lsr operon.

CRP

Fig.CRP recognition sites are shown in capital letter.BBa_K649100 contains this sites

5.6. References

  1. Karina B.Xavier and Bonnie L.Bassler 2004. Regulation of Uptake and Processing of the Quorum-Sensing Autoinducer AI2 in Escherichia coli. JOURNAL OF BACTERIOLOGY, Jan. 2005, p. 238-248
  2. Ting Xue, Liping Zhao, Haipeng Sun, Xianxuan Zhou, Baolon Sun 2009. LsrR-binding site recognition and regulatory characteristics in Escherichia coli AI-2 quorum sensing. Cell Research (2009), p.1258-1268
  3. Liang Wang, Yoshifumi Hashimoto, Chen-Yu Tsao, James J.Valdes, and William E.Bentley 2004. Cyclic AMP(cAMP) and cAMP Receptor Protein Influence both Synthesis and Uptake of Extracellular Autoinducer 2 in Escherichia coli. JOURNAL OF BACTERIOLOGY, Mar. 2005, p. 2066-2076

6. LsrR repression

6.1. Sample

  • Ptet-gfp on pSB6A1(JM2.300)(positive control)
  • Promoterless-gfp on pSB6A1(JM2.300)(negative control)
  • PlsrA-gfp on pSB3K3(MG1655)(BBa_649104)
  • PlsrA-gfp-PlsrR-lsrR on pSB3K3(BBa_649105)(MG1655)

6.2. Method

  1. Overnight cultures of reporter strains grown at 37 °C in LB medium containing appropriate antibiotics were diluted 1:100 into 3 ml of LB medium and were incubated at 37 °C as fresh cultures.
  2. After their OD590 reached 0.15, the fresh cultures were diluted 1:100.
  3. After 4-hour incubation at 37 °C, 1 ml of each culture was moved to 1.6ml tube and its fluorescence intensity was measured with a flow cytometer.

6.3. Construction

PlsrA(BBa_K649100) and PlsrR-lsrR-lsrK(BBa_K649101) were amplified by PCR using the MG1655 as a template. PlsrA was ligated with igem part(BBa_E0040). Then PlsrR-lsrR-lsrK(BBa_K649101) was ligated into PlsrA-gfp(BBa_649104) ="construction"

6.4. Result

OD LsrR100

Fig.1 the intensity levels of GFP fluorescence(after 4hr of dilution, dilution rate 1:100)

LsrR10

Fig.2 the intensity levels of GFP fluorescence(after 4hr of dilution, dilution rate 1:10)

6.5. References

  1. Karina B.Xavier and Bonnie L.Bassler 2004. Regulation of Uptake and Processing of the Quorum-Sensing Autoinducer AI2 in Escherichia coli. JOURNAL OF BACTERIOLOGY, Jan. 2005, p. 238-248
  2. Ting Xue, Liping Zhao, Haipeng Sun, Xianxuan Zhou, Baolon Sun 2009. LsrR-binding site recognition and regulatory characteristics in Escherichia coli AI-2 quorum sensing. Cell Research (2009), p.1258-1268
  3. Liang Wang, Yoshifumi Hashimoto, Chen-Yu Tsao, James J.Valdes, and William E.Bentley 2004. Cyclic AMP(cAMP) and cAMP Receptor Protein Influence both Synthesis and Uptake of Extracellular Autoinducer 2 in Escherichia coli. JOURNAL OF BACTERIOLOGY, Mar. 2005, p. 2066-2076