Difference between revisions of "Part:BBa K1632002:Design"
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<partinfo>BBa_K1632002 short</partinfo> | <partinfo>BBa_K1632002 short</partinfo> | ||
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====Invertion assay with FimB==== | ====Invertion assay with FimB==== | ||
− | + | =====Construction===== | |
− | All the samples were | + | All the samples were DH5alpha strain with antibiotic resistance to ampicillin and kanamycin.<br> |
− | (1) PBAD/ | + | (1) PBAD/''araC''_''fimB''(wild-type) (pSB6A1) + ''fim'' switch[default ON](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) <br> |
− | (2) PBAD/ | + | (2) PBAD/''araC''_''fimB''(wild-type) (pSB6A1) + ''fim'' switch[default OFF](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) <br> |
− | (3) pSB6A1 + ''fim'' switch[default ON](Tokyo_Tech/J23119) | + | (3) pSB6A1 + ''fim'' switch[default ON](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) …positive control 1<br> |
− | (4) pSB6A1 + ''fim'' switch[default OFF](Tokyo_Tech/J23119) | + | (4) pSB6A1 + ''fim'' switch[default OFF](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) …negative control 1<br> |
− | (5) PBAD/ | + | (5) PBAD/''araC''_''fimB''(wild-type) (pSB6A1) + J23119_''gfp''(pSB3K3) …positive control 2 <br> |
− | (6) PBAD/ | + | (6) PBAD/''araC''_''fimB''(wild-type) (pSB6A1) + rbs_''gfp''(pSB3K3) …negative control 2 <br> |
− | + | =====Assay protocol===== | |
− | 1. Prepare overnight cultures for | + | 1. Prepare overnight cultures for each sample in 3 mL of LB medium containing ampicillin (50 microg / mL), kanamycin (30 microg / mL) and glucose (final concentration is 0.5 %) at 37 ℃ for 12h.<br> |
− | 2. Make a 1:100 dilution in 3 mL of fresh LB containing Amp, Kan and glucose (final concentration | + | 2. Make a 1:100 dilution in 3 mL of fresh LB containing Amp, Kan and glucose (final concentration is 0.5 %).<br> |
− | 3. | + | 3. Incubate the cells at 37 ℃, shaking at 180 rpm until the observed OD590 reaches 0.4 (Fresh Culture).<br> |
− | 4. After incubation, take 1 mL of the samples, and centrifuge at 5000x g, 1 min, 25 ℃ <br> | + | 4. After the incubation, take 1 mL of the samples, and centrifuge at 5000x g, 1 min, 25 ℃ <br> |
5. Remove the supernatant.<br> | 5. Remove the supernatant.<br> | ||
− | 6. | + | 6. Suspend the pellet in 1 mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃ <br> |
7. Remove the supernatant.<br> | 7. Remove the supernatant.<br> | ||
8. Suspend the pellet in 1 mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃ <br> | 8. Suspend the pellet in 1 mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃ <br> | ||
9. Remove the supernatant.<br> | 9. Remove the supernatant.<br> | ||
− | 10. | + | 10. Suspend the pellet in 1 mL of LB containing Amp and Kan.<br> |
11. Add 30 microL of suspension in the following medium.<br> | 11. Add 30 microL of suspension in the following medium.<br> | ||
− | <span style="margin-left: 20px;">① 3 mL of LB containing Amp, Kan, glucose (final concentration | + | <span style="margin-left: 20px;">① 3 mL of LB containing Amp, Kan, glucose (final concentration is 0.5 %) and 30 microL of sterile water<br> |
− | <span style="margin-left: 20px;">② 3 mL of LB containing Amp, Kan and 30 microL of 2 | + | <span style="margin-left: 20px;">② 3 mL of LB containing Amp, Kan and 30 microL of 2 mM arabinose (final concentration of arabinose is 20 microM)<br> |
<span style="margin-left: 20px;">③ 3 mL of LB containing Amp, Kan and 30 microL of 20 mM arabinose (final concentration of arabinose is 200 microM)<br> | <span style="margin-left: 20px;">③ 3 mL of LB containing Amp, Kan and 30 microL of 20 mM arabinose (final concentration of arabinose is 200 microM)<br> | ||
<span style="margin-left: 20px;">④ 3 mL of LB containing Amp, Kan and 30 microL of 500 mM arabinose (final concentration of arabinose is 5 mM)<br> | <span style="margin-left: 20px;">④ 3 mL of LB containing Amp, Kan and 30 microL of 500 mM arabinose (final concentration of arabinose is 5 mM)<br> | ||
− | |||
12. Incubate the samples at 37 ℃, shaking at 180 rpm for 6.5 hours. (Measure OD590 of all the samples every hour.)<br> | 12. Incubate the samples at 37 ℃, shaking at 180 rpm for 6.5 hours. (Measure OD590 of all the samples every hour.)<br> | ||
13. After the incubation, take the samples, and centrifuge at 9000x g, 1min, 4℃.<br> | 13. After the incubation, take the samples, and centrifuge at 9000x g, 1min, 4℃.<br> | ||
Line 48: | Line 47: | ||
16. Dispense all of each suspension into a disposable tube through a cell strainer.<br> | 16. Dispense all of each suspension into a disposable tube through a cell strainer.<br> | ||
17. Use flow cytometer to measure the fluorescence of GFP. (We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company.)<br> | 17. Use flow cytometer to measure the fluorescence of GFP. (We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company.)<br> | ||
+ | |||
+ | =====Results===== | ||
+ | |||
+ | [[Image:Tokyo_Tech_fim_switch_TT_FimB_assay_Results.png |thumb|center|700px|<b>Fig. 1. </b>The histograms of the samples measured by flow cytometer]]<br> | ||
+ | <br><br><br><br><br> | ||
+ | ====Invertion assay with FimE==== | ||
+ | |||
+ | =====Construction===== | ||
+ | |||
+ | All the samples were DH5alpha strain with antibiotic resistance to ampicillin and kanamycin.<br> | ||
+ | |||
+ | (1) PBAD/''araC''_''fimE''(wild-type) (pSB6A1) + ''fim'' switch[default ON](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) <br> | ||
+ | (2) PBAD/''araC''_''fimE''(wild-type) (pSB6A1) + ''fim'' switch[default OFF](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) <br> | ||
+ | (3) pSB6A1 + ''fim'' switch[default ON](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) …positive control 1<br> | ||
+ | (4) pSB6A1 + ''fim'' switch[default OFF](Tokyo_Tech/J23119)_''gfp'' (pSB3K3) …negative control 1<br> | ||
+ | (5) PBAD/''araC''_''fimE''(wild-type) (pSB6A1) + J23119_''gfp'' (pSB3K3) …positive control 2 <br> | ||
+ | (6) PBAD/''araC''_''fimE''(wild-type) (pSB6A1) + rbs_''gfp'' (pSB3K3) …negative control 2 <br> | ||
+ | |||
+ | =====Assay protocol===== | ||
+ | |||
+ | 1. Prepare overnight cultures for each sample in 3 mL of LB medium containing ampicillin (50 microg / mL), kanamycin (30 microg / mL) and glucose (final concentration is 0.5 %) at 37 ℃ for 12h.<br> | ||
+ | 2. Make a 1:100 dilution in 3 mL of fresh LB containing Amp, Kan and glucose (final concentration is 0.5 %).<br> | ||
+ | 3.Incubate the cells at 37 ℃, shaking at 180 rpm until the observed OD590 reaches 0.4 (Fresh Culture).<br> | ||
+ | 4. After the incubation, take 1 mL of the samples, and centrifuge at 5000x g, 1 min, 25 ℃ <br> | ||
+ | 5. Remove the supernatant.<br> | ||
+ | 6. Suspend the pellet in 1mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃ <br> | ||
+ | 7. Remove the supernatant.<br> | ||
+ | 8. Suspend the pellet in 1mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃ <br> | ||
+ | 9. Remove the supernatant.<br> | ||
+ | 10. Suspend the pellet in 1mL of LB containing Amp and Kan.<br> | ||
+ | 11. Add 30 microL of suspension in the following medium.<br> | ||
+ | <span style="margin-left: 20px;">① 3 mL of LB containing Amp, Kan, glucose (final concentration is 0.5 %) and 30 microL of sterile water<br> | ||
+ | <span style="margin-left: 20px;">② 3 mL of LB containing Amp, Kan and 30 microL of 500 mM arabinose (final concentration of arabinose is 5 mM)<br> | ||
+ | 12. Incubate the samples at 37 ℃ for 6 hours, shaking at 180 rpm. (Measure the OD590 of all the samples every hour.)<br> | ||
+ | 13. After the incubation, take the samples, and centrifuge at 9000x g, 1min, 4℃.<br> | ||
+ | 14. Remove the supernatant.<br> | ||
+ | 15. Add 1 mL of filtered PBS (phosphate-buffered saline) and suspend. (The ideal of OD is 0.3)<br> | ||
+ | 16. Dispense all of each suspension into a disposable tube through a cell strainer.<br> | ||
+ | 17. Use flow cytometer to measure the fluorescence of GFP. (We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company.)<br> | ||
+ | |||
+ | =====Results===== | ||
+ | |||
+ | [[Image:Tokyo_Tech_fim_switch_TT_FimE_assay_Results.png |thumb|center|700px|<b>Fig. 2. </b>The histograms of the samples measured by flow cytometer]]<br> | ||
+ | |||
+ | ===More information=== | ||
+ | |||
+ | For more information, see [[http://2015.igem.org/Team:Tokyo_Tech/Project Our work in Tokyo_Tech 2015 wiki]], [[http://2015.igem.org/Team:Tokyo_Tech/Experiment/ssrA_tag_degradation_assay About ssrA-tag]], [[http://2015.igem.org/Team:Tokyo_Tech/Experiment/Overview_of_fim_inversion_system About ''fim'' inversion system]] | ||
===Source=== | ===Source=== | ||
Line 54: | Line 100: | ||
===References=== | ===References=== | ||
− | Ian C. Blomfield <i>et al</i>. (1997) Integration host factor stimulates both FimB- andFimE-mediated site-specific DNA inversion that controlsphase variation of type 1 fimbriae expression in Escherichia coli. Molecular Microbiology 23(4), 705–717 | + | [1]Hung M. et al. (2014) Modulating the frequency and bias of stochastic switching to control phenotypic variation. Nat Commun 5:4574. doi:10.1038/ncomms5574 |
+ | [2]Ian C. Blomfield <i>et al</i>. (1997) Integration host factor stimulates both FimB- andFimE-mediated site-specific DNA inversion that controlsphase variation of type 1 fimbriae expression in Escherichia coli. Molecular Microbiology 23(4), 705–717 | ||
− | John M. Abraham <i>et al</i>. (1985) An invertible element of DNA controls phase variation of type 1 fimbriae of Escherichia coli. Proc Natl Acad Sci U S A 82(17):5724-7 | + | [3]John M. Abraham <i>et al</i>. (1985) An invertible element of DNA controls phase variation of type 1 fimbriae of Escherichia coli. Proc Natl Acad Sci U S A 82(17):5724-7 |
− | Matthew P. McCusker <i>et al</i>. (2008) DNA sequence heterogeneity in Fim tyrosine-integrase recombinase-binding elements and functional motif asymmetries determine the directionality of the fim genetic switch in Escherichia coli K-12. Molecular Microbiology 67(1): 171–187 | + | [4]Matthew P. McCusker <i>et al</i>. (2008) DNA sequence heterogeneity in Fim tyrosine-integrase recombinase-binding elements and functional motif asymmetries determine the directionality of the fim genetic switch in Escherichia coli K-12. Molecular Microbiology 67(1): 171–187 |
Latest revision as of 03:55, 19 September 2015
Contents
fim switch[default ON](Tokyo_Tech/J23119)_rbs_gfp
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 345
Illegal NheI site found at 368 - 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 374
Illegal BamHI site found at 333 - 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI.rc site found at 1102
Design Notes
sequence confirmed
Materials and Methods
Invertion assay with FimB
Construction
All the samples were DH5alpha strain with antibiotic resistance to ampicillin and kanamycin.
(1) PBAD/araC_fimB(wild-type) (pSB6A1) + fim switch[default ON](Tokyo_Tech/J23119)_gfp (pSB3K3)
(2) PBAD/araC_fimB(wild-type) (pSB6A1) + fim switch[default OFF](Tokyo_Tech/J23119)_gfp (pSB3K3)
(3) pSB6A1 + fim switch[default ON](Tokyo_Tech/J23119)_gfp (pSB3K3) …positive control 1
(4) pSB6A1 + fim switch[default OFF](Tokyo_Tech/J23119)_gfp (pSB3K3) …negative control 1
(5) PBAD/araC_fimB(wild-type) (pSB6A1) + J23119_gfp(pSB3K3) …positive control 2
(6) PBAD/araC_fimB(wild-type) (pSB6A1) + rbs_gfp(pSB3K3) …negative control 2
Assay protocol
1. Prepare overnight cultures for each sample in 3 mL of LB medium containing ampicillin (50 microg / mL), kanamycin (30 microg / mL) and glucose (final concentration is 0.5 %) at 37 ℃ for 12h.
2. Make a 1:100 dilution in 3 mL of fresh LB containing Amp, Kan and glucose (final concentration is 0.5 %).
3. Incubate the cells at 37 ℃, shaking at 180 rpm until the observed OD590 reaches 0.4 (Fresh Culture).
4. After the incubation, take 1 mL of the samples, and centrifuge at 5000x g, 1 min, 25 ℃
5. Remove the supernatant.
6. Suspend the pellet in 1 mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃
7. Remove the supernatant.
8. Suspend the pellet in 1 mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃
9. Remove the supernatant.
10. Suspend the pellet in 1 mL of LB containing Amp and Kan.
11. Add 30 microL of suspension in the following medium.
① 3 mL of LB containing Amp, Kan, glucose (final concentration is 0.5 %) and 30 microL of sterile water
② 3 mL of LB containing Amp, Kan and 30 microL of 2 mM arabinose (final concentration of arabinose is 20 microM)
③ 3 mL of LB containing Amp, Kan and 30 microL of 20 mM arabinose (final concentration of arabinose is 200 microM)
④ 3 mL of LB containing Amp, Kan and 30 microL of 500 mM arabinose (final concentration of arabinose is 5 mM)
12. Incubate the samples at 37 ℃, shaking at 180 rpm for 6.5 hours. (Measure OD590 of all the samples every hour.)
13. After the incubation, take the samples, and centrifuge at 9000x g, 1min, 4℃.
14. Remove the supernatant.
15. Add 1 mL of filtered PBS (phosphate-buffered saline) and suspend. (The ideal of OD is 0.3)
16. Dispense all of each suspension into a disposable tube through a cell strainer.
17. Use flow cytometer to measure the fluorescence of GFP. (We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company.)
Results
Invertion assay with FimE
Construction
All the samples were DH5alpha strain with antibiotic resistance to ampicillin and kanamycin.
(1) PBAD/araC_fimE(wild-type) (pSB6A1) + fim switch[default ON](Tokyo_Tech/J23119)_gfp (pSB3K3)
(2) PBAD/araC_fimE(wild-type) (pSB6A1) + fim switch[default OFF](Tokyo_Tech/J23119)_gfp (pSB3K3)
(3) pSB6A1 + fim switch[default ON](Tokyo_Tech/J23119)_gfp (pSB3K3) …positive control 1
(4) pSB6A1 + fim switch[default OFF](Tokyo_Tech/J23119)_gfp (pSB3K3) …negative control 1
(5) PBAD/araC_fimE(wild-type) (pSB6A1) + J23119_gfp (pSB3K3) …positive control 2
(6) PBAD/araC_fimE(wild-type) (pSB6A1) + rbs_gfp (pSB3K3) …negative control 2
Assay protocol
1. Prepare overnight cultures for each sample in 3 mL of LB medium containing ampicillin (50 microg / mL), kanamycin (30 microg / mL) and glucose (final concentration is 0.5 %) at 37 ℃ for 12h.
2. Make a 1:100 dilution in 3 mL of fresh LB containing Amp, Kan and glucose (final concentration is 0.5 %).
3.Incubate the cells at 37 ℃, shaking at 180 rpm until the observed OD590 reaches 0.4 (Fresh Culture).
4. After the incubation, take 1 mL of the samples, and centrifuge at 5000x g, 1 min, 25 ℃
5. Remove the supernatant.
6. Suspend the pellet in 1mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃
7. Remove the supernatant.
8. Suspend the pellet in 1mL of LB containing Amp and Kan, and centrifuge at 5000x g, 1 min, 25 ℃
9. Remove the supernatant.
10. Suspend the pellet in 1mL of LB containing Amp and Kan.
11. Add 30 microL of suspension in the following medium.
① 3 mL of LB containing Amp, Kan, glucose (final concentration is 0.5 %) and 30 microL of sterile water
② 3 mL of LB containing Amp, Kan and 30 microL of 500 mM arabinose (final concentration of arabinose is 5 mM)
12. Incubate the samples at 37 ℃ for 6 hours, shaking at 180 rpm. (Measure the OD590 of all the samples every hour.)
13. After the incubation, take the samples, and centrifuge at 9000x g, 1min, 4℃.
14. Remove the supernatant.
15. Add 1 mL of filtered PBS (phosphate-buffered saline) and suspend. (The ideal of OD is 0.3)
16. Dispense all of each suspension into a disposable tube through a cell strainer.
17. Use flow cytometer to measure the fluorescence of GFP. (We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company.)
Results
More information
For more information, see http://2015.igem.org/Team:Tokyo_Tech/Project Our work in Tokyo_Tech 2015 wiki, http://2015.igem.org/Team:Tokyo_Tech/Experiment/ssrA_tag_degradation_assay About ssrA-tag, http://2015.igem.org/Team:Tokyo_Tech/Experiment/Overview_of_fim_inversion_system About ''fim'' inversion system
Source
Composite of BBa_K1632000, BBa_I13500
References
[1]Hung M. et al. (2014) Modulating the frequency and bias of stochastic switching to control phenotypic variation. Nat Commun 5:4574. doi:10.1038/ncomms5574 [2]Ian C. Blomfield et al. (1997) Integration host factor stimulates both FimB- andFimE-mediated site-specific DNA inversion that controlsphase variation of type 1 fimbriae expression in Escherichia coli. Molecular Microbiology 23(4), 705–717
[3]John M. Abraham et al. (1985) An invertible element of DNA controls phase variation of type 1 fimbriae of Escherichia coli. Proc Natl Acad Sci U S A 82(17):5724-7
[4]Matthew P. McCusker et al. (2008) DNA sequence heterogeneity in Fim tyrosine-integrase recombinase-binding elements and functional motif asymmetries determine the directionality of the fim genetic switch in Escherichia coli K-12. Molecular Microbiology 67(1): 171–187