Team:Kyoto/Project/Goal C

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==Goal C: Characterization of the anti-killer gene==
==Goal C: Characterization of the anti-killer gene==
===Introduction===
===Introduction===
-
We selected SΔTMD1 as anti-killer gene of Lysis box.  
+
As far as we know, there are two anti-killer genes against the killer gene (lysis cassette), S107 and S<sub>&Delta;TMD1</sub>.
-
Lysis cassette encodes S gene, R gene and so on and the transmembrane domein 1(TMD1) of this S gene is essential for the function of lysis cassette as killer-gene.
+
S107 is expressed by S gene encoded by lysis cassette and S<sub>&Delta;TMD1</sub> is an S allele with the transmembrane domain 1(TMD1) deleted.
-
So S&Delta;TMD1, which is a S mutant with TMD1 deleted, dominant-negatively inhibits Lysis cassette.(check [[Team:Kyoto/LearnMore#Lysis Cassette|Learn more]])
+
Because TMD1 of S gene is essential for the function of lysis cassette as killer gene, S<sub>&Delta;TMD1</sub> inhibits lysis cassette stronger than S107.([[Team:Kyoto/LearnMore#Lysis Cassette|Learn more]])
-
That is why we selected S&Delta;TMD1 as anti-killer gene.
+
So, we selected S<sub>&Delta;TMD1</sub> as anti-killer gene.
-
Then, we checked if S&Delta;TMD1 prevent Lysis cassette from causing the cell death.  
+
Then, we checked if S<sub>&Delta;TMD1</sub> prevents lysis cassette from causing the cell death.  
-
To research this function of S&Delta;TMD1, we used the E.coli transformed with both these genes( <partinfo>BBa_K358021</partinfo>).
+
To investigate the function of S<sub>&Delta;TMD1</sub>, we used the E.coli transformed with both killer and anti-killer genes ( <partinfo>BBa_K358021</partinfo>).
-
Because E.coli is immediately dead if killer-gene is constitutively expressed, we made lysis cassette regulated by lac promoter. The E.coli were grown in the medium without IPTG, and after there were enough E.coli, they were cultured in the one with IPTG to express Lysis cassette. After that, we checked, by measuring the absorbance (A550), if E.coli were alive due to anti-killer gene, S&Delta;TMD1 expressed constitutively.
+
Because E.coli will be killed immediately if the killer-gene is constitutively expressed, we constructed the lysis cassette regulated by lac promoter. At first, the E.coli bacteria were grown in the medium without IPTG. After the population of E.coli become enough, they were cultured in the one with IPTG to express lysis cassette. After that, we checked the growth rate of E.coli by measuring the absorbance (OD 550) of the growth medium. Thus, we investigated the possibility whether E.coli that contains both the killer and anti-killer genes could alive due to the constitutive expression of S<sub>&Delta;TMD1</sub>.  
===Method===
===Method===
====Bacterial strains====
====Bacterial strains====
-
We used four types of E. coli, E. coli KRX transformed with <partinfo>BBa_K358021</partinfo>, KRX transformed with <partinfo>BBa_K358022</partinfo> KRX transformed with <partinfo>BBa_K358024</partinfo> and KPX transfomed with <partinfo>BBa_K351089</partinfo>.
+
We used four types of E. coli as follows: (1) E. coli KRX transformed with <partinfo>BBa_K358021</partinfo>, (2)KRX transformed with <partinfo>BBa_K358022</partinfo>, (3)KRX transformed with <partinfo>BBa_K358024</partinfo> and (4)KRX transformed with <partinfo>BBa_K358019</partinfo>.
 +
After this, we call each E.coli to abbreviate in order of name, LB2-1, lacL&Delta;, LB2-2 and lacL.
====Construct====
====Construct====
-
[[Image:KyotoFigC001.png|450px]][[Image:KyotoFigC003.png|400px]]
+
[[Image:KyotoFigC001.png|450px]][[Image:KyotoFigC003.png|400px]][[Image:KyotoFigC002.png|450px]][[Image:KyotoFigC004.png|400px]]
 +
 
{{clear}}
{{clear}}
*<partinfo>BBa_K358021</partinfo>:Anti-killergene is induced constitutively and killergene is regulated by lactose promoter.
*<partinfo>BBa_K358021</partinfo>:Anti-killergene is induced constitutively and killergene is regulated by lactose promoter.
-
It was used in experiment 1
+
It was used in experiment 2.
-
*<partinfo>BBa_K358022</partinfo>:lacP + SΔTMD1RRz, TMD1 is deleted from lysis cassette[SRRz].
+
*<partinfo>BBa_K358022</partinfo>:lacP + S<SUB>&DELTA;TMD1</SUB>RRz, TMD1 is deleted from lysis cassette[SRRz].
-
It was used in experiment 2
+
It was used in experiment 1.
-
*<partinfo>BBa_K358024</partinfo>:This part is the same to BBa_K358021, except for its constitutive promoter[BBa_J23101]. So, this part also induces constitutively SΔTMD1 gene, the anti-killer gene, and lambda lysis cassette[SRRz], the killer gene, is regulated by lacP.
+
*<partinfo>BBa_K358024</partinfo>: This part is similar to BBa_K358021, except for its constitutive promoter [BBa_J23101]. This part also induces constitutively S<sub>&DELTA;TMD1</sub> gene, the anti-killer gene, and &lambda; lysis cassette[SRRz], the killer gene is regulated by lacP.
-
It was used in the additional experiment, which is not finished.
+
It was used in the additional experiment which is not finished.
 +
*<partinfo>BBa_K358019</partinfo>: Lysis cassette regulated by lacP, Lysis cassette[SRRz] is regulated by lactose promoter.
 +
Activating lactose promoter and expressing SRRz gene, it causes the cell lysis. Thus, lactose promoter must be repressed when this part is transformed.
 +
It was used in experiment 1 and 2.
-
===Result===
+
====Measurement====
-
====Experiment 1: Function check of S&Delta;TMD1====
+
=====Experiment 1=====
-
[[image:GoalC fig1.png|450px|Fig.1|right|thumb|Fig.1.the result of function check of S&Delta;TMD1]]
+
We picked up three colonies from each plate, and cultivated them in the supplemented M9 medium for a night, overnight. The overnight cultures were diluted to 0.1~0.11mM in pre-warmed fresh the supplemented M9 medium. 18h later, we measured OD 550 of the culture containing 0mM or 1mM IPTG.
-
[[image:GoalC fig2.png|450px|right|thumb|Fig.2.Comparison]]
+
-
We measured the cell number of E.coli transformed with <partinfo>BBa_K358021</partinfo> at several time after induction by adding several concentration IPTG.
+
=====Experiment 2=====
-
The result is below(Fig.1).
+
We picked up three colonies from each plate, and cultivated them in the supplemented M9 medium ~24-30 h (overnight). The overnight cultures were diluted to 0.1~0.11 in pre-warmed fresh the supplemented M9 medium. We measured OD 550 of the culture containing various IPTG at about 100 minute interval.
 +
 
 +
===Result===
 +
====Experiment 1:Check the role of TMD1 of S gene====
 +
[[image:GoalC fig3-2-2.png|450px|right|thumb|Fig.1.the comparison between lacL and lacL&Delta;. The black lines on bars' edges are error bar.]]
 +
Then, in order to check if TMD1 of S gene is essential for this killer gene, we measured the cell number of lacL&Delta;, which does not have TMD1 of S gene and that is, encodes S<sub>&Delta;TMD1</sub> and that of lysis cassette.  
 +
This result is below (Fig.1).
 +
From this result, after IPTG was added, the number of lacL&Delta; was not decreasing, while the number of lacL&Delta; was decresing.
 +
It proved that S<sub>&Delta;TMD1</sub> cannot function as killer gene and TMD1 is essential for this killer gene, lysis cassette.
 +
In addition, in the medium without IPTG, the number of lacL&Delta; is larger than that of lacL&Delta;. This supports a report <sup>[[#RefL001|[1]]]</sup>, which says that more short proteins are expressed than the ones that are long.
 +
====Experiment 2: Function check of S<sub>&Delta;TMD1</sub>====
 +
We measured the cell number of lacL&Delta; at several time after induction by adding several concentration IPTG.
 +
The result is below (Fig.2).
This result showed that in the medium with more than 0.03mM IPTG, the number of E. coli is decreasing at a certain point.
This result showed that in the medium with more than 0.03mM IPTG, the number of E. coli is decreasing at a certain point.
-
It demonstrated that In at least more than 0.03mM IPTG, S&Delta;TMD1 can't inhibit lysis cassette completly.
+
It demonstrated that In at least more than 0.03mM IPTG, S<sub>&Delta;TMD1</sub> can't inhibit lysis cassette completely.
-
Then, we measured the cell number of E.coli transformed with <partinfo>BBa_K358019</partinfo> in the same way, and compared the result of E.coli transformed with <partinfo>BBa_K358021</partinfo> with that of E.coli transformed with (<partinfo>BBa_K358019</partinfo>) to check how S&Delta;TMD1 inhibited lysis cassette(Fig.2).
+
Then, we measured the cell number of lacL in the same way, and compared the result of lacL&Delta; with that of lacL to check how S<sub>&Delta;TMD1</sub> inhibited lysis cassette(Fig.2).
-
In Fig.2, LacS is E.coli transformed with <partinfo>BBa_K358019</partinfo>, CTLS is the one transformed with <partinfo>BBa_K358021</partinfo>.
+
From this result, we knew in more than 0.5mM IPTG both lacL and LB2-1 were decreasing in the number at a certain point, or LB2-1 was a little delayed decreasing in the number.  
-
From this result, we knew in more than 0.5mM IPTG both Lacs and CTLA were decreasing in the number at a certain point, or CTLA was a little delayed decreaing in the number.  
+
This demonstrated that S<sub>&Delta;TMD1</sub> can't correctly inhibit lysis cassette.  
-
This demonstrated that S&Delta;TMD1 can't correctly inhibit lysis cassette.  
+
So, we doubted whether S<sub>&Delta;TMD1</sub> really functioned as anti-killer gene.
-
So, we doubted whether S&Delta;TMD1 really functioned as anti-killer gene.
+
Although S<sub>&Delta;TMD1</sub> has no TMD1 of S gene, S<sub>&Delta;TMD1</sub> couldn't show the function as anti-killer gene.
-
Although S&Delta;TMD1 has no TMD1 of S gene, S&Delta;TMD1 couldn't show the function as anti-killer gene.  
+
 
-
====Experiment 2:====
+
 
-
[[image:GoalC fig3.png|450px|right|thumb|Fig.3.Lysis cassette &Delta;TMD1]]
+
[[image:GoalC fig1.png|440px|Fig.1|left|thumb|Fig.2.the result of function check of S<sub>&Delta;TMD1</sub>.
-
Then, in order to check if TMD1 of S gene is essential for this killer gene, we measured the cell number of E.coli transformed with Lysis cassette &Delta;TMD1, which does not have TMD1 of S gene and that is, encodes also S&Delta;TMD1<partinfo>BBa_K358021</partinfo>,  
+
 
-
This result is below(Fig.3).
+
We measure OD 550 with various IPTG concentration, 0, 0.02, 0.03, 0.05, 0.3, 0.5, 0.7, 1.0 (mM). ]]
-
From the result, we knew if Lysis cassette &Delta;TMD1 is induced, the cell death was not caused.
+
[[image:GoalC fig2-3-2.png|440px|right|thumb|Fig.3.Comparison between lacL and LB2-1.
-
It proved that S&Delta ;TMD1 cannot function as killer gene and TMD1 is essential for this killer gene, lysis cassette.
+
 
 +
We compared IPTG concentration 0, 0.02, 0.03, 0.5, 1.0. ]]
===Discussion===
===Discussion===
-
====S&Delta;TMD1 cannot inhibit Lysis cassette completly====
+
====TMD1 of S gene is essential for lysis cassette====
-
These results showed that S&Delta;TMD1 cannot inhibit completely Lysis cassette.
+
The result of experiment 1 supports [[#RefL001|Ref.1]].
-
This results can't supported a report on lysis (Ref.1) which says that S&Delta;TMD1 without TMD1 dominant-negatively inhibit lysis cassette.  
+
That is, we were able to make sure that TMD1 of S gene is essential for lysis cassette as killer gene.
-
Why did we get the result against that report?
+
-
Probably, there were two reasons, we thought.
+
-
First, because S&Delta;TMD1 in the plasmid did not worked correctly.
+
-
Second, because less S&Delta;TMD1 proteins or more lysis cassette proteins was expressed than we expected.
+
-
====1====
+
-
Then, we sequenced BBa_K358021 we used.
+
====S<sub>&Delta;TMD1</sub> cannot inhibit lysis cassette completely====
-
It’s result showed that this construct is inserted into the plasmid  correctly, which demonstrated  that S&Delta;TMD1 worked correctly.
+
These results showed that S<sub>&Delta;TMD1</sub> cannot inhibit completely lysis cassette.
-
So, first reason was not right.
+
This results can't supported a report on lysis <sup>[[#RefL001|[1]]]</sup>, which says that S<sub>&Delta;TMD1</sub> without TMD1 dominant-negatively inhibit lysis cassette.  
-
====2====
+
Why did we get the result against that report?
-
Second, because less S&Delta;TMD1 proteins or more lysis cassette proteins was expressed than we expected.
+
Probably, there were three reasons below, we thought.
-
As a report (Ref.2) says, it is necessary for the inhibition of lysis cassette that there are at least 4.73 times more S107, anti-killer gene than lysis cassette proteins.
+
*S<sub>&Delta;TMD1</sub> in the plasmid did not worked correctly.
-
S gene encodes not only S105 but also S107.
+
*S<sub>&Delta;TMD1</sub> is weaker anti-killer gene than we expected.
-
S107 is anti-killer gene, but because it has essential TMD1 of S for function of this killer gene, it’s function as anti-killer gene is weak compared with S&Delta;TMD1, which does not have TMD1 of S <sup>[1]</sup>.
+
*less S<sub>&Delta;TMD1</sub> proteins or more lysis cassette proteins was expressed than we expected.
-
So S&Delta;TMD1 should have inhibited lysis cassette if  at least 4.73 times more S&Delta;TMD1 than lysis cassette were expressed.
+
-
Actually, we selected  <partinfo>R0011</partinfo> and <partinfo>J23105</partinfo> as each promoter  of lysis cassette and S&Delta;TMD1 so that the activity of the promoter of S&Delta;TMD1 is at least five times higher than that of lysis cassette.  
+
-
However, S&Delta TMD1; couldn’t inhibit lysis cassette.
+
-
Then, in order to solve this problem we changed the promoter of S&Delta;TMD1 to stronger one, and now, are checking the function of S&Delta;TMD1. Surely, this result will help us discuss why S&Delta;TMD1 couldn’t function as we expected.
+
-
You should expect it!!
+
 +
=====Reason1:S<sub>&Delta;TMD1</sub> in the plasmid did not work correctly.=====
 +
To investigate this reason, we sequenced BBa_K358021 we used.
 +
The result showed that this construct is inserted into the plasmid correctly, which demonstrated that S<sub>&Delta;TMD1</sub> worked correctly.
 +
So, we assume that the first reason is negative.
 +
=====Reason2: S<sub>&Delta;TMD1</sub> is weaker anti-killer gene than we expected.=====
 +
As anti-killer gene against lysis cassette, there are two genes, S107 and S<sub>&Delta;TMD1</sub> ([[Team:Kyoto/LearnMore#Lysis Cassette|Learn more]]).
 +
S107 is the anti-killer gene. Because it has essential TMD1 of S for function of this killer gene, the anti-killer function of this gene is weak compared with S<sub>&Delta;TMD1</sub>, which does not have TMD1([[Team:Kyoto/LearnMore#Lysis Cassette|Learn more]]).
 +
Thus, we expected that S<sub>&Delta;TMD1</sub> is a strong anti-killer gene. However, from the result of experiment 2, we could not observe the function of S<sub>&Delta;TMD1</sub> as a strong anti-killer gene under the tested condition.
 +
=====Reason3: Expression balance between the anti-killer and killer genes was not optimized properly=====
 +
In order to investigate the possibility of this reason, we analyzed the expression level of the killer gene, lysis cassette and S<sub>&Delta;TMD1</sub>. 
 +
As a report <sup>[[#RefL002|[2]]]</sup> says, it is necessary for the inhibition of lysis cassette that there are at least ~4.7 times more S107, anti-killer gene than lysis cassette proteins.
 +
So, inhibition of this killer gene needs at least ~4.7 times more expression of the anti-killer gene than that of the killer gene. Thus, we calculated the ratio of the expression levels of the killer and anti-killer gene. The calculation was done under the assumptions that S gene, which includes lysis cassette, produces S105 and S107 at a 2.5:1 ratio([[Team:Kyoto/LearnMore#Lysis Cassette|Learn more]]), and that the strength of function of S<sub>&Delta;TMD1</sub> as anti-killer gene is the same as that of S107. By this calculation, we knew that in LB-1, the anti-killer gene couldn't inhibit killer gene in the medium with more than 0.1246 mM IPTG. So, we assume that S<sub>&Delta;TMD1</sub> was not expressed adequately to inhibit lysis cassette completely.
 +
We assume that our experimental results could be due to the 3rd reason (Reason 3) mentioned above, although we cannot rule out the possibility of the second reason. However, it has been reported <sup>[[#RefL001|[1]]]</sup> that S<sub>&Delta;TMD1</sub> inhibits lysis cassette effectively. So, it is reasonable to assume that S<sub>&Delta;TMD1</sub> exhibits enough activity to inhibit lysis cassette. That is why we think that the Reason 3 is the most likely answer. To confirm this possibility, we changed the promoter of S<sub>&Delta;TMD1</sub> to stronger one. The experiment to check the function of S<sub>&Delta;TMD1</sub> using the strong promoter is currently underway. Surely, this result will help us to understand why S<sub>&Delta;TMD1</sub> could not function as we expected and to develop distinct cell-death controllable devices for the further studies.
 +
===Conclusion===
 +
1)We made and registered S<sub>&Delta;TMD1</sub> by deleting TMD1 of S gene and  lysis cassette&Delta;TMD1(S<sub>&Delta;TMD1</sub>RRz) in BioBrick as new parts.
 +
2)By the comparison of the function as killer gene between lysis cassette and lysis cassette&Delta;TMD1, We made sure that TMD1 is essential for fuction of lysis cassette as killer gene.
 +
3)By co-expressing lysis cassette regulated by a lactose promoter, we characterized the function of S<sub>&Delta;TMD1</sub> as anti-killer gene.
 +
===Reference===
----
----
 +
# <html><a name="RefL001"></a></html>Rebecca White, Tram Anh T. Tran, Chelsey A. Dankenbring, John Deaton, and Ry Young.2010.The N-Terminal Transmembrane Domain of _ S Is Required for Holin but Not Antiholin Function_. J. Bacteriol. 192: 725–733
 +
# <html><a name="RefL002"></a></html>CHUNG-YU CHANG, KIEBANG NAM, AND RY YOUNG1. 1995.2 S Gene Expression and the Timing of Lysis by Bacteriophage &lambda;. J. Bacteriol. 177: 3283–3294

Latest revision as of 03:55, 28 October 2010

Contents

Goal C: Characterization of the anti-killer gene

Introduction

As far as we know, there are two anti-killer genes against the killer gene (lysis cassette), S107 and SΔTMD1. S107 is expressed by S gene encoded by lysis cassette and SΔTMD1 is an S allele with the transmembrane domain 1(TMD1) deleted. Because TMD1 of S gene is essential for the function of lysis cassette as killer gene, SΔTMD1 inhibits lysis cassette stronger than S107.(Learn more) So, we selected SΔTMD1 as anti-killer gene.

Then, we checked if SΔTMD1 prevents lysis cassette from causing the cell death. To investigate the function of SΔTMD1, we used the E.coli transformed with both killer and anti-killer genes ( <partinfo>BBa_K358021</partinfo>). Because E.coli will be killed immediately if the killer-gene is constitutively expressed, we constructed the lysis cassette regulated by lac promoter. At first, the E.coli bacteria were grown in the medium without IPTG. After the population of E.coli become enough, they were cultured in the one with IPTG to express lysis cassette. After that, we checked the growth rate of E.coli by measuring the absorbance (OD 550) of the growth medium. Thus, we investigated the possibility whether E.coli that contains both the killer and anti-killer genes could alive due to the constitutive expression of SΔTMD1.

Method

Bacterial strains

We used four types of E. coli as follows: (1) E. coli KRX transformed with <partinfo>BBa_K358021</partinfo>, (2)KRX transformed with <partinfo>BBa_K358022</partinfo>, (3)KRX transformed with <partinfo>BBa_K358024</partinfo> and (4)KRX transformed with <partinfo>BBa_K358019</partinfo>. After this, we call each E.coli to abbreviate in order of name, LB2-1, lacLΔ, LB2-2 and lacL.

Construct

KyotoFigC001.pngKyotoFigC003.pngKyotoFigC002.pngKyotoFigC004.png

  • <partinfo>BBa_K358021</partinfo>:Anti-killergene is induced constitutively and killergene is regulated by lactose promoter.

It was used in experiment 2.

  • <partinfo>BBa_K358022</partinfo>:lacP + S&DELTA;TMD1RRz, TMD1 is deleted from lysis cassette[SRRz].

It was used in experiment 1.

  • <partinfo>BBa_K358024</partinfo>: This part is similar to BBa_K358021, except for its constitutive promoter [BBa_J23101]. This part also induces constitutively S&DELTA;TMD1 gene, the anti-killer gene, and λ lysis cassette[SRRz], the killer gene is regulated by lacP.

It was used in the additional experiment which is not finished.

  • <partinfo>BBa_K358019</partinfo>: Lysis cassette regulated by lacP, Lysis cassette[SRRz] is regulated by lactose promoter.

Activating lactose promoter and expressing SRRz gene, it causes the cell lysis. Thus, lactose promoter must be repressed when this part is transformed. It was used in experiment 1 and 2.

Measurement

Experiment 1

We picked up three colonies from each plate, and cultivated them in the supplemented M9 medium for a night, overnight. The overnight cultures were diluted to 0.1~0.11mM in pre-warmed fresh the supplemented M9 medium. 18h later, we measured OD 550 of the culture containing 0mM or 1mM IPTG.

Experiment 2

We picked up three colonies from each plate, and cultivated them in the supplemented M9 medium ~24-30 h (overnight). The overnight cultures were diluted to 0.1~0.11 in pre-warmed fresh the supplemented M9 medium. We measured OD 550 of the culture containing various IPTG at about 100 minute interval.

Result

Experiment 1:Check the role of TMD1 of S gene

Fig.1.the comparison between lacL and lacLΔ. The black lines on bars' edges are error bar.

Then, in order to check if TMD1 of S gene is essential for this killer gene, we measured the cell number of lacLΔ, which does not have TMD1 of S gene and that is, encodes SΔTMD1 and that of lysis cassette. This result is below (Fig.1). From this result, after IPTG was added, the number of lacLΔ was not decreasing, while the number of lacLΔ was decresing. It proved that SΔTMD1 cannot function as killer gene and TMD1 is essential for this killer gene, lysis cassette. In addition, in the medium without IPTG, the number of lacLΔ is larger than that of lacLΔ. This supports a report [1], which says that more short proteins are expressed than the ones that are long.

Experiment 2: Function check of SΔTMD1

We measured the cell number of lacLΔ at several time after induction by adding several concentration IPTG. The result is below (Fig.2). This result showed that in the medium with more than 0.03mM IPTG, the number of E. coli is decreasing at a certain point. It demonstrated that In at least more than 0.03mM IPTG, SΔTMD1 can't inhibit lysis cassette completely. Then, we measured the cell number of lacL in the same way, and compared the result of lacLΔ with that of lacL to check how SΔTMD1 inhibited lysis cassette(Fig.2). From this result, we knew in more than 0.5mM IPTG both lacL and LB2-1 were decreasing in the number at a certain point, or LB2-1 was a little delayed decreasing in the number. This demonstrated that SΔTMD1 can't correctly inhibit lysis cassette. So, we doubted whether SΔTMD1 really functioned as anti-killer gene. Although SΔTMD1 has no TMD1 of S gene, SΔTMD1 couldn't show the function as anti-killer gene.


Fig.2.the result of function check of SΔTMD1. We measure OD 550 with various IPTG concentration, 0, 0.02, 0.03, 0.05, 0.3, 0.5, 0.7, 1.0 (mM).
Fig.3.Comparison between lacL and LB2-1. We compared IPTG concentration 0, 0.02, 0.03, 0.5, 1.0.

Discussion

TMD1 of S gene is essential for lysis cassette

The result of experiment 1 supports Ref.1. That is, we were able to make sure that TMD1 of S gene is essential for lysis cassette as killer gene.

SΔTMD1 cannot inhibit lysis cassette completely

These results showed that SΔTMD1 cannot inhibit completely lysis cassette. This results can't supported a report on lysis [1], which says that SΔTMD1 without TMD1 dominant-negatively inhibit lysis cassette. Why did we get the result against that report? Probably, there were three reasons below, we thought.

  • SΔTMD1 in the plasmid did not worked correctly.
  • SΔTMD1 is weaker anti-killer gene than we expected.
  • less SΔTMD1 proteins or more lysis cassette proteins was expressed than we expected.
Reason1:SΔTMD1 in the plasmid did not work correctly.

To investigate this reason, we sequenced BBa_K358021 we used. The result showed that this construct is inserted into the plasmid correctly, which demonstrated that SΔTMD1 worked correctly. So, we assume that the first reason is negative.

Reason2: SΔTMD1 is weaker anti-killer gene than we expected.

As anti-killer gene against lysis cassette, there are two genes, S107 and SΔTMD1 (Learn more). S107 is the anti-killer gene. Because it has essential TMD1 of S for function of this killer gene, the anti-killer function of this gene is weak compared with SΔTMD1, which does not have TMD1(Learn more). Thus, we expected that SΔTMD1 is a strong anti-killer gene. However, from the result of experiment 2, we could not observe the function of SΔTMD1 as a strong anti-killer gene under the tested condition.

Reason3: Expression balance between the anti-killer and killer genes was not optimized properly

In order to investigate the possibility of this reason, we analyzed the expression level of the killer gene, lysis cassette and SΔTMD1. As a report [2] says, it is necessary for the inhibition of lysis cassette that there are at least ~4.7 times more S107, anti-killer gene than lysis cassette proteins. So, inhibition of this killer gene needs at least ~4.7 times more expression of the anti-killer gene than that of the killer gene. Thus, we calculated the ratio of the expression levels of the killer and anti-killer gene. The calculation was done under the assumptions that S gene, which includes lysis cassette, produces S105 and S107 at a 2.5:1 ratio(Learn more), and that the strength of function of SΔTMD1 as anti-killer gene is the same as that of S107. By this calculation, we knew that in LB-1, the anti-killer gene couldn't inhibit killer gene in the medium with more than 0.1246 mM IPTG. So, we assume that SΔTMD1 was not expressed adequately to inhibit lysis cassette completely. We assume that our experimental results could be due to the 3rd reason (Reason 3) mentioned above, although we cannot rule out the possibility of the second reason. However, it has been reported [1] that SΔTMD1 inhibits lysis cassette effectively. So, it is reasonable to assume that SΔTMD1 exhibits enough activity to inhibit lysis cassette. That is why we think that the Reason 3 is the most likely answer. To confirm this possibility, we changed the promoter of SΔTMD1 to stronger one. The experiment to check the function of SΔTMD1 using the strong promoter is currently underway. Surely, this result will help us to understand why SΔTMD1 could not function as we expected and to develop distinct cell-death controllable devices for the further studies.

Conclusion

1)We made and registered SΔTMD1 by deleting TMD1 of S gene and lysis cassetteΔTMD1(SΔTMD1RRz) in BioBrick as new parts. 2)By the comparison of the function as killer gene between lysis cassette and lysis cassetteΔTMD1, We made sure that TMD1 is essential for fuction of lysis cassette as killer gene. 3)By co-expressing lysis cassette regulated by a lactose promoter, we characterized the function of SΔTMD1 as anti-killer gene.

Reference


  1. Rebecca White, Tram Anh T. Tran, Chelsey A. Dankenbring, John Deaton, and Ry Young.2010.The N-Terminal Transmembrane Domain of _ S Is Required for Holin but Not Antiholin Function_. J. Bacteriol. 192: 725–733
  2. CHUNG-YU CHANG, KIEBANG NAM, AND RY YOUNG1. 1995.2 S Gene Expression and the Timing of Lysis by Bacteriophage λ. J. Bacteriol. 177: 3283–3294