Part:BBa_K598002
Bistable Switch Mutant 68
Description
This part is one of the mutation libraries of bistable switch modifying the ribosome binding site (RBS) of cI434 gene.
The bistable switch, which was inherited from the iGEM 2007 Peking Team, mainly consists of a positive feedback loop and a double-negative feedback loop. The expression of two mutually repressing repressors genes cI434 and cI are controlled by the promoters PR and PRM respectively. Promoter RM can be activated by CI and repressed by CI434. GFP and mRFP are placed downstream cI434 and cI as reporters of two states, respectively. In the state when CI is dominant, it can activate its own gene’s transcription and repress that of cI434, thus developing and stabilizing a stable high CI/low CI434 state, in which a red fluorescent protein (mRFP) gene co-transcripted with CI is expressed. Alternatively, when CI434 is dominant, a stable high CI434/low CI state will be established and GFP co-transcripted with CI434 is expressed to represent the this state. Each cell that bears the bistable switch is expected to express GFP or mRFP exclusively. The two states are believed to be stabilized over a long period while under certain circumstances one state may be turned over to the other.
When the bistable switch on pSB1C3 plasmid is transformed into DH5α strain, green colonies and red colonies could be observed. Interestingly, several mixed colonies could also be observed, which implied the random steady-state characteristic of the bistable switch (Figure 1). A ratiometric of the green colonies to the red colonies (G/R ratio) was calculated on the LB agar plate. We proposed that the G/R ratio is relevant to the translation strength of CI & CI434 genes, which means modulating the translation strength of one or more could result in different ratios of G/R under current architecture of bistable switch.
Computational Model
We first demonstrated through mathematical modeling that the genetic device we’ve constructed is indeed able to display properties characteristic of a bistable switch within a particular parameter range. Since we are focusing on the translation level, the only variable will be the translation strength of the gene-of-interest (In our case, CI434, with reasons stated below). The original construct did not display a bistable property because the promoter and the strength of the cI434 gene is too strong compared to that of cI, rendering the system mono-stable in the high CI434/low CI state. To endow the system with bistability, the strength of cI434 production can be down-regulated by reducing translation strength. To quantitatively describe the system, we employed a set of ordinary differential equations (ODEs) to represent the transcription and translation control of the system (See Appendix [1]) . Taking into consideration the stochastic nature of the system [2], we used a stochastic algorithm to produce the probability distribution of the system in every possible state (Figure 2).If the system is a monostable one (e.g., high CI434/low CI), its states will be tightly distributed around a single peak value. As the translation strength of cI434 gradually decreases, the peak falls and another peak indicating the high CI/low CI434 state starts to grow, until the first peak disappears and high CI/low CI434 becomes the predominant state, bringing the system back to a monostable one.
Library Construction
The bistable switch library modifying the expression of cI434 gene is constructed via site-directed mutagenesis method.(Figure 4)
Primers are designed pairing the template (BBa_K228003) but replacing the RBS of cI434 gene with NNNNNNN. After PCR amplification, the PCR product was treated with DpnI and column-purified. The linear DNA was phosphoryated by T4 polynucleotide kinase and column-purified. The DNA was then self-ligated and transformed into DH5α cells. Thus, the library is established.
Experimental Data
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 10
Illegal AgeI site found at 122 - 1000INCOMPATIBLE WITH RFC[1000]Illegal SapI.rc site found at 2699
//direction/bidirectional
//plasmidbackbone/copynumber/high
chassis | E.coli DH5α |
device_type | Logic circuit |
emission | 509nm for eGFP and 610 for mRFP |
excitation | 470nm for eGFP and 580nm for mRFP |
n/a | Bistable Switch Mutant 68 |
resistance | Chloramphenicol |