Team:Tokyo Tech/Experiment/Overview of fim inversion system
Overview of fim inversion system
contents
1. Introduction
2. How does fim switch works
2.1. Wild type fim switch
2.1.1. The design of wild type fim switch
2.1.2. Result of FimB/FimE Assay to fimS(TT)
2.1.3. AHL dependent FimE Assay to fimS(TT)
2.2. Tokyo_Tech fim switch
2.2.1. The design of Tokyo_Tech fim switch
2.2.2. Result of FimB/FimE Assay to fimS(WT)
3. Comparison other team’s fim switch
3.1. FimB(2013_Toronto)
3.2. Fim switch(2006_Caltech)-FimE(2006_Caltech)
3.3. Fim switch(2013_Michigan)-FimE(2006_Caltech)-HbiF(2012_Michigan)
4. Reference
1. Introduction
FimB inverts the fim switch in [ON] state to [OFF] state and in [OFF] state to [ON] state with approximately equal probability. FimB enable prisoner coli to select its option (cooperation or defection) randomly (Fig.3-3-1-1.). We showed bidirectional inversion of fim switch by FimB. This is the first case in iGEM to show random inversion of a promoter. |
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Fig.3-3-1-1.In the presence of FimB, promoter in fim switch can be inverted at random. | ||
On the other hand, FimE inverts the fim switch predominantly in the [ON] state to [OFF] state (McClain, 1991). For implementation of tit-for-tat strategy, the most successful strategy for Prisoner’s Dilemma, we used the FimE (Fig. 3-3-1-2.). |
Fig.3-3-1-2.Prisoner A with tit-for-tat strategy |
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Our biggest achievement is that we have established a tripartite relationship between the three fim related parts, fim switch and FimB/FimE (Fig. 3-3-1-3). |
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Fig.3-3-1-3.Overview of the fim related parts in iGEM |
2. How does fim switch works
In the wild-type of E.coli K-12, two fim proteins invert the fim switch, which is a specific 314 bp DNA sequence containing a promoter, to modulate its own expressions (Abraham, 1985). The fim switch has two states, ON and OFF. The promoter in the fim switch directs transcription to the right when the fim switch is in [ON] state. In [OFF] state of the fim switch, on the other hand, the promoter directs transcription to the left. |
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Fig.3-3-2-1.The relationship between the fim related genes. |
The fim switch is inverted by two recombinases, FimB(wild-type) (BBa_K1632010) and FimE(wild-type) (BBa_K1632011). These proteins have distinct activities. FimB inverts the fim switch in [ON] state to [OFF] state direction and in [OFF] state to [ON] state direction with approximately equal probability. On the other hand, FimE inverts the fim switch predominantly in [ON] state to [OFF] state direction (McClain, 1991).
We designed two fim switches: the fim switch(wild-type) and the fim switch(Tokyo_Tech) which promoter can be exchanged with an arbitrary promoter.
In the first fim switch, the fim switch(wild-type), the sequence is derived from that of a wild-type. The fim switch(wild-type) we constructed are named fim switch[default ON](wild-type) (BBa_(BBa_K1632004) and fim switch[default OFF](wild-type) (BBa_K1632005). In the second fim switch, the fim switch(Tokyo_Tech), the promoter of the fim switch(wild-type) is replaced with J23119 promoter(BBa_J23119) and two restriction enzyme cut sites are added in each side of the promoter. Due to this addition of the restriction enzyme cut sites, we were able to replace the J23119 promoter in the fim swtich(Tokyo_Tech). For example, we replaced J23119 promoter with Lac promoter (BBa_K1632006). The fim switch(Tokyo_Tech) we constructed are named fim switch[default ON](Tokyo_Tech/J23119) (BBa_K1632000), fim switch[default OFF](Tokyo_Tech/J23119) (BBa_K1632000), and fim switch[default ON](Tokyo_Tech/B0010) (BBa_K1632006).
2.1. Wild type fim switch
Fig.3-3-2-1-1. ここに図の名前を打て |
Fim switch (WT) is derived from wild type sequence. Fim switch (wild type) have sigma 70 promoter which is constitutively promoter. We submitted two parts in each state, default ON (BBa_K1632004) and OFF (BBa_K1632005) The inversion of fim switch (Wild-Type) by FimB/FimE was confirmed. From the assay, the FimB protein inverts fim switch in the ON-to-OFF and the OFF-to-ON direction with approximately equal efficiencies. Similarly the FimE protein inverts fim switch predominantly in the ON-to-OFF direction. Creating tripartite relationship using FimE-FimB-Fimswitch, is an unprecedented achievement in iGEM.
2.1.1. The design of wild type fim switch
Fig.3-3-2-1-1. ここに図の名前を打て |
Sigma 70 promoter is located in fim switch (WT).
Switching is also influenced by at least three global regulator, leucine-responsive regulatory protein (Lrp), H-NS and integration host factor (IHF).
Switching frequencies are regulated by both temperature media and that these effects appear to be independent.
Though a common mechanism, the FimB protein and the FimE protein inverts the fim switch. Two fim protein invert the sequence between IRL and IRR. The invertible sequence is flanked by 9bp inverted repeat, and each repeat is in turn flanked by non-identical recombinase-binding elements (RBEs). RBEs is bound by fimB or fimE. Changing REBs makes FimE or FimB work strangely [論文].
2.1.2. Result of FimB/FimE Assay to fimS(TT)
For the inverson of fim switch by fimB or fimE, on the downstream of fim switch, we added gfp, so that fim switch[ON]-gfp (BBa_K1632007) and fim switch [OFF]-gfp(BBa_K1632008) differ in the point of florescence. Next, on the upstream of fimB or fimE, we added pBAD/araC. pBAD/araC-fimB(BBa_K1632012) and pBAD/araC-fimE(BBa_K1632011) induced fimB or fimE in the presence of arabinose. We transformed fim switch-gfp and pBAD/araC-fim in the Ecoli DH5alfa strain. We measured the fluorescence intensity of the cells induced by arabinose.
From the assay, the inversion of fim switch (WT) by two recombinase, fimB and fimE, was confirmed correctly in both default ON state and default OFF state depending on the concentration of arabinose.
2.1.2.1 FimS-FimB
In the experiments, we setted four arabinose concentration.2.1.2.2 FimS-FimE
アッセイから具体的な文章/データはもらう2.1.3. AHL dependent FimE Assay to fimS(TT)
アッセイから具体的な文章/データはもらう
2.2. Tokyo_Tech fim switch
The inversion of fim switch (TT) by FimB/FimE was not confirmed correctly. From the assay, the FimB protein inverts fim switch in the ON-to-OFF and the OFF-to-ON direction correctly. However the FimE protein didn’t inverts fim switch predominantly in the ON-to-OFF direction. In the assay, the FimE protein inverts fim switch in the ON-to-OFF and the OFF-to-ON direction. In other words, the FimE protein works as the FimB protein.
2.2.1. The design of wild type fim switch
We designed another fim switch with standardized interchangeable promoter, fim switch (TT). Only one difference between wild type and TokyoTech is to change sigma 70 promoter to J23119 promoter and insert two restriction enzyme sites in each front (SalIand BamHI) and back (BglII and MluI). By insertion of restriction enzymes, fim switch (TokyoTech) have standardized interchangeble change promoter. Except for insertion of restriction enzyme sites, basically, the design of TokyoTech fim switch is similar with Wild Type fim switch.
The inversion of fim switch () by FimB/FimE was not confirmed correctly. From the assay, the FimB protein inverts fim switch in the ON-to-OFF and the OFF-to-ON direction correctly. However the FimE protein didn’t inverts fim switch predominantly in the ON-to-OFF direction. In the assay, the FimE protein inverts fim switch in the ON-to-OFF and the OFF-to-ON direction. In other words, the FimE protein works as the FimB protein.
2.2.2. Result of FimB/FimE Assay to fimS(TT)
3. Comparison other team’s fim switch
Our big achievement have created tripartite relationship, Fim switch-FimB/FimE.
In this chapter, the novelty of fim switch-FimB/FimE is shown by comparison of past iGEM teams’ fim parts. In the past Jamboree, some teams submitted fim genes. However the information of fim genes are so complicated that it is necessary to clarify the situation.
Fig.A. ここに図の名前を打て |
Fig. A shows the summary of past iGEM team’s fim parts. These submitted parts which show some data, is divided to three groups as shown in theigure bellow.
1. FimB(2013_Toronto)
⇒3.1.
2. FimS(2006_Caltech)-FimE(2006_Caltech)
⇒3.2.
3. FimS(2013_Michigan)-FimE(2006_Caltech)-HbiF(2012_Michigan)
⇒3.3.
From the result of each group, each one is evaluated as shown as below.
1. FimB(2013_Toronto)
⇒No date about inversion
2. FimS(2006_Caltech)-FimE(2006_Caltech)
⇒No date about inversion
3. FimS(2013_Michigan)-FimE(2006_Caltech)-HbiF(2012_Michigan)
⇒Not enough date about inversion
From these evaluations, we achieved to create tripartite relationship, Fim switch-FimB/FimE.
Fig.南蛮文化. ここに図の名前を打て |
3.1. FimB(2013_Toronto)
Fig.A. ここに図の名前を打て |
In the past jamboree, 2013_Toronto only submitted FimB(BBa_K137007) and showed some data. However, their data clearly did not relate to the inversion of fim switch. Their assay is to search difference of some parameters like OD600 in FimB (+) and FimB (-). So the result of 2013_Toronto did not show any data of the inversion of the fim switch.
3.2. Fim switch(2006_Caltech)-FimE(2006_Caltech)
Fig.A. ここに図の名前を打て |
FimE
Gene Name | Year | College | Parts Number | Sequence Confirmation |
---|---|---|---|---|
FimE | 2008 | Caltech | BBa_K137007 | None |
fim switch
Gene Name |
Year | College | Parts Number | Sequence Confirmation |
---|---|---|---|---|
FimE IRR | 2008 | Caltech | BBa_K137008 | None |
FimE IRL | 2008 | Caltech | BBa_K137010 | None |
GFP fimE switch with 150 bp tetR promoter | 2008 | Caltech | BBa_K137057 | None |
GFP fimE switch with 250 bp tetR promoter | 2008 | Caltech | BBa_K137058 | None |
GFP fimE switch with 350 bp tetR promoter | 2008 | Caltech | BBa_K137059 | None |
GFP fimE switch with 450 bp tetR promoter | 2008 | Caltech | BBa_K137060 | None |
GFP fimE switch with 550 bp tetR promoter | 2008 | Caltech | BBa_K137061 | None |
GFP fimE switch with 650 bp tetR promoter | 2008 | Caltech | BBa_K137062 | None |
In the past jamboree, 2006_Caltech only submitted FimE(BBa_K137007) and showed some data. Assay protocol is here).
Fig.A. 2006_Caltech |
They wanted to determine the range of length which FimE will act on and to determine how the length affects fimE activities. Thus they tested how the length of the recombination site affects FimE’s ability to detect the two flanking binding sites. So GFP fluorescence / OD600 was observed in each sample in which the length of the inversion site differs.
However their data cannot be trusted completely with respect to inversion of fim switch. There are several reasons. First of all, they did not set positive controls and negative controls. Secondly, they didn’t write down information of plasmids used in the experiments (backbone, gene).
The nucleotide sequence of 2006_Caltech fimE and wild type fim E did not match. So, we designed FimE (BBa_K1632011) whose nucleotide sequence completely matchs that of the wild type fimE. Comparing these two parts, two differences were confirmed. First, fimE of 2008_Caltech lacks the nucleotide sequence of N-terminal 15 residues. Second, fimE of 2008_Caltech differs from the nucleotide sequence of 2015_TokyoTech by C-terminal 2 residues as shown below.
2008_Caltech:5’-...-TAA-TAA-Suffix-3’
2015_TokyoTech : 5’-...-GTT-TGA-Suffix-3'
3.3. Fim switch(2013_Michigan)-FimE(2006_Caltech)-HbiF(2012_Michigan)
Fig.3-3-2-1. タイムアウト |
FimE
Gene Name | Year | College | Parts Number | Sequence Confirmation |
---|---|---|---|---|
FimE | 2008 | Caltech | BBa_K137007 | None |
HbiF
Gene Name | Year | College | Parts Number | Sequence Confirmation |
---|---|---|---|---|
HbiF | 2012 | Michigan | BBa_K88000 | None |
fim switch
Gene Name | Year | College | Parts Number | Sequence Confirmation |
---|---|---|---|---|
fim switch inverted repeat left IRL natural | 2012 | Michigan | BBa_K1077000 | Inconsistent |
fim switch inverted repeat left IRR natural | 2012 | Michigan | BBa_K1077001 | Inconsistent |
J23100 fim switch b0034 GFP | 2012 | Michigan | BBa_K1077003 | Inconsistent |
J23100 fim switch b0034 GFP | 2012 | Michigan | BBa_K1077005 | Inconsistent |
J23100 fim switch b0034 amilCP ON orientation | 2012 | Michigan | BBa_K1077007 | Inconsistent |
This system was made by 2013_Michigan.The characteristics of their fim switch is to switch the forced ON-to-OFF or OFF-to-ON by applying aTc or AHL.
Fig.3-3-1-1. The detail of their fim switch is shown below. |
Fig.3-3-1-1. もう知らん |
The repression of tet repressor for tet promoter is weakened by the addition of aTc. Therefore, fimE (BBa_K137007), (which is on the) downstream of the tet promoter is expressed. As a result, fim switch is inverted from ON-to-OFF.
On the other hand, lux promoter is activated by adding AHL. Therefore, hbiF(BBa_K880000) , (which is on the) downstream of lux promoter is expressed. The hbiF protein inverts fim switch in the OFF-to-ON direction. In other words, the hbiF protein has function completely opposite to the fimE protein.
Two big problems are confirmed from the point of unbiased view.
First, their fim switch and fimE did not work completely well because the result of default ON was only shown on their wiki and parts registry. In other words, the data of default OFF was not shown. Without the data of default OFF, the fimE protein work ON-to-OFF direction.
Second, it is very difficult to judge working parts correctly because setting positive control and negative control was not enough in all experiments.
It was impossible to verify the reproducibility because the nucleotide sequence was completely different between the distribution from HQ and the information shown on parts registry.
4. Reference
1. McClain MS et al. (1991) Roles of fimB and fimE in site-specific DNA inversion associated with phase variation of type 1 fimbriae in Escherichia coli. J Bacteriol 173(17):5308-14.
2. 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 USA 82(17):5724-7
3. Ian C. Blomfield et al. (1997) Integration host factor stimulates both FimB- andFimE-mediated site-specific DNA inversion that controls phase variation of type 1 fimbriae expression in Escherichia coli. Molecular Microbiology 23(4), 705–717
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
5. D L Gally et al. (1993) Environmental regulation of the fim switch controlling type 1 fimbrial phase variation in Escherichia coli K-12: effects of temperature and media. J Bacteriol. Oct; 175(19): 6186–6193.