Team:Nanjing high school/Engineering

非模块化方式使用layui Entprenuership

 

 

 

Part: BBa_K3524004

 

Part: BBa_K3524005

 

Part: BBa_K3524006

 

 

We demonstrate the pars engineering success follows the engineering design cycle.

 

Research → Image → Design

After extensive literature research, we found phosphate solubilizing microbes have the potential to promote phosphorus absorption by crops and reduce the use of phosphate fertilizers. Tatumella citrea, which belongs to this kind of microbe provides phosphorus for crops[1][2].

To build up a regulable genetic circuit, we chose the bio-sensor (nahR gene and Psal promoter) for the detection of salicylic acid we adopted is originally on the chromosome of Pseudomonas Stutzeri[2]. With the appearance of salicylic acid, the protein translated from nahR binds with PsaI promoter and initiates the expression of the enhancer green fluorescent protein (EGFP).

 

 

Build

Results of plasmids construction:

 

 

*n represents for pTrc99k-nahR plasmids.

*G represents for pMW119-Psa1-EGFP plasmids.

 

We then used the successfully constructed plasmids to examine the effectiveness of the bio-sensor system.

 

Some possible factors that led to a failure

 

1.Mistakes in homologous recombination

Unable to recombine the right fragments into the vector.

 

2.Mistakes in PCR

During the amplification, the fragments may not be correctly amplified by PCR, so some of the recovered fragments are wrong fragments, which will cause problems when used for vector construction

 

Test:

 

The pTrc99k-NahR and pMW119-Psa1-EGFP plasmids were co-transformed into Tatumella Citrea and screened by Kanamycin resistance and Ampicillin resistance LB solid plates. The co-transformed strains were inoculated into fresh LB medium, cultured at 37°C until OD600 was approximately equal to 0.6. Different concentrations of salicylic acid (dissolved in absolute ethanol) were added. After 24 hours, observations with a fluorescence microscope were used to show the regulatory effect of salicylic acid on the PsaI promoter and it was indicated by fluorescence intensity.

 

Data collected

 

 

Figure 1. Microscopic view of fluorescence shown by Tatumella Citrea

 

Learn Improve Research

 

1.With different salicylic acid concentrations:

We measured the fluorescence intensity to obtain a quantitative result. The data is plotted as the following: the measured fluorescence intensity is divided by the number of cells (OD600) to obtain a homogenized fluorescence intensity. The fluorescence intensity of all samples added with salicylic acid is subtracted from the fluorescence intensity of the background without salicylic acid. It can be seen that from 1 μM to 100 μM salicylic acid, the fluorescence intensity rises sharply. Under the condition of 1000 μM salicylic acid, the fluorescence intensity decreased, which is presumably due to the influence of salicylic acid solvent (ethanol) on cell growth, or other unknown regulatory effects of salicylic acid and NahR.

 

 

Figure 2. Relative fluorescence unit under different Salicylic acid concentration

 

2.With different hours:

With the same concentration of salicylic acid, we also measured the change of fluorescence intensity over time. It can be seen from figure 3. that within 3 to 22 hours after the addition of salicylic acid, the fluorescence intensity increases successively. But it mostly stops increasing at 24 hours.

 

 

Figure 3. Relative fluorescence unit with different time after addition of salicylic acid

 

The mechanism we created did work out well, and the expressions of EGFP protein was detected. This proves that the potential of the bio-sensor system we made is effective,. The two factors we examined are the most convenient, and available tests we could conduct. For the concentration of salicylic acid, we found out that at 100 μM, it shows the highest fluorescence intensity. This means that the system works the best in that range of salicylic acid concentration. For the time after the addition of salicylic acid, the highest fluorescence unit is shown at 22 hours, the trend is mainly increasing. But after 22 hours, it is decreasing. It is best to leave the mechanism for 15-22 hours after the addition of salicylic acid so it can show the most effective results.

 

Refernce:

[1] Whitelaw, M.a. “Growth Promotion of Plants Inoculated with Phosphate-Solubilizing Fungi.” Advances in Agronomy, 1999, pp. 99–151., doi:10.1016/s0065-2113(08)60948-7.

[2] Bar-Yosef, B., et al. “Pseudomonas Cepacia-Mediated Rock Phosphate Solubilization in Kaolinite and Montmorillonite Suspensions.” Soil Science Society of America Journal, vol. 63, no. 6, 1999, pp. 1703–1708., doi:10.2136/sssaj1999.6361703x.

 

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