Team:Kyoto/Project/Goal B

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Goal B: Characterization of λ Lysis cassette

Introduction

λ Lysis cassette is a gene that causes cell lysis. In previous iGEM, some teams evaluated the lytic activity of λ Lysis cassette qualitatively. However, when we considered λ Lysis cassette not only as a device of cell lysis but as a device of cell death, we must study about λ Lysis cassette more quantitatively. For example, we must study about when cells die, how many cells die, and the relationship between them and the activity of their promoter.

To characterize the lytic activity of Λ Lysis cassette quantitatively, we regulate the gene expression of λ Lysis cassette by a lactose promoter, R0011, which we characterized quantitatively by RPU in GoalA. To repress the basal expression of λ Lysis　cassette without IPTG as possible, we used pSB4K5, a low copy vector, as a plasmid backbone and used KRX as a host cell. Needless to say, we characterized R0011 in the same experimental condition. For more detailed explanation of the characterization of R0011, go Goal A.

Result

Experiment 1: Measurement of lytic activity of λ Lysis cassette

To characterize the lytic activity of λ Lysis cassette quantitatively, we had to made a measurement standared of cell lysis quantitatively. We considered that we could characterize it by mesuring A550 of the cultures after induction of IPTG.However, we did't know the nature of it, so we couln't decide when we measured A550 after induction which had a quantitative. As we did some experiences, we earned some facts by try and error.

Cultures induced the expression of λ Lysis cassette becomes a kind of equilibrium state of cell lysis.
R0011 is very easy to have mutation at 37 degrees if it regulates an expression of toxic gene because of natural selection.
The possibility of mutation become low at 30 degrees, although　it still remains a little.

Therefore, we made the following protocol that is suitable to our motivation.

Pick out three colonies transformed with K and cultivated in suppemented M9 media with various concentration of IPTG. After incubation of 16h,18h,20h, measure A550 of each culture.

We did the experiment as this protocol, we got the following data.

Incubating	16h	18h	20h	16h	18h	20h	16h	18h	20h
Colony Number	1	1	1	2	2	2	3	3	3
0mM	2.13	2.17	2.35	2.05	2.04	2.14	2.22	2.21	2.33
0.01mM	2.02	2.01	2.15	1.96	2.23	2.23	2.21	2.07	2.29
0.02mM	2.21	2.12	2.16	1.86	1.86	1.95	1.76	1.93	1.71
0.03mM	1.44	1.41	1.39	1.70	1.62	1.59	0.82	1.02	0.83
0.05mM	0.33	0.25	0.17	0.25	0.25	0.24	0.26	0.33	0.24
0.07mM	0.15	0.17	0.23	0.21	0.20	0.23	0.18	0.18	0.19
0.1mM	0.13	0.20	0.36	0.20	0.18	0.23	0.17	0.15	0.23
0.3mM	0.10	0.21	0.31	0.08	0.11	0.14	0.11	0.07	0.20
0.5mM	0.07	0.08	0.10	0.08	0.08	0.09	0.11	0.08	0.25
0.8mM	0.25	0.10	0.08	0.29	0.22	0.11	0.18	0.22	0.10
1.0mM	0.04	0.15	0.21	0.18	0.27	0.27	0.18	0.06	0.24

Table 1 A550 of the cultures incubated 16h, 18h, 20h, in various concentration of IPTG.

As table1 shows, the culture surely gets to an equilibrium state of cell lysis depending on the cocentration of IPTG, and we considered that the number of A550 have a quantitative of lytic activity. We adapted to the data of 18h.

Fig.1 A550 of 18h cultures with various concentration of IPTG. When the concentration of IPTG is from 0.01mM to 0.02mM, A550 decreases mildy. When the concentration of IPTG is from 0.02mM to 0.05mM, A550 decreases dramatically. When the concentration of IPTG is over 0.05mM, A550 is under 0.3 and doesn't change largely.

To analyze the relationship between the lytic activity of λ Lysis cassette and RPU, we used the result of characterization of R0011.

Fig.2 Fig.2 is the figures that the horizontal axis of Fig 1 is converted to RPU using the result of characterization of R0011. RPU is the absolute activity of promoter, so Fig2 shows the relationship between the lytic activity of λ Lysis cassette and the induction of λ Lysis cassette.

As a result, when the activity of induction is under RPU, doesn't work and cell lysis doesn't occur. When the activity of Cell lysis is from RPU to RPU, k works and Cell lysis get to an equibrium state. This equibrium state becomes low as the activity of induction becomes high. When the activity of induction is over RPU, the equibrium state stop to become low and doesn't change largly though the activity of induction become high.

Experiment 2: Measurement of lytic activity with time

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Discussion

Equilibrium state of cell lysis

From the result of our experiment, we think that cell lysis　caused by λ　Lysis cassette has an equilibrim state depending on the actibity of induction. This idea can adapt to under 0.2 RPU. However, Over 0.2RPU, the lytic activity doesn't change largely. To explain this phenomena, we make three ideas.

1　カルチャーの中である細胞死のサイクルが起きている 2　The limit which endolyshin can degrade peptideglycan exists 3 詳しくはモデルで

Possibility of a system controlling cell populatiuon

Cell lysis caused by λ　Lysis cassette becomes an equilibrium state depending on the induction. This fact suggests another potential of λ　Lysis cassette, a system controlling cell population. We make a gene circuit that expresses λ Lysis cassette consutitutively or inducibly, and E.coli transformed with the circuit get to an equilibrium state of cell lysis and the cell population is a specific number. By changing the strength of expression, we can controll this state as we want.

Checkpoint of whether cell lysis occurs

We characterized λ Lysis cassette quantitatively with RPU. From our data, we determined acondition of activity of promoters, if you want to make inducible sysytems of cell lysis by using them. The condition is that: the minimam activity is under RPU and the maximamactivity is over 0.2 RPU. Promoters that fit this condition could use the regulation of λ Lysis cassette.

Initiation of cell lysis