Team:UNIPV-Pavia/Rebuilt

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Our new parts

Re-built existing parts (BBa_our part code/BBa_existing part code):

• BBa_K173004/BBa_I732019 - beta-galactosidase protein generator
• BBa_K173005/BBa_Q04400 - tetR QPI

Existing parts from the Registry

Existing parts: sequence debugging

BBa_K173004/BBa_I732019 - beta-galactosidase protein generator

Description

This is a beta-galactosidase protein generator with strong RBS.

We built up . It is a twin of , which was classified as "inconsistent" by iGEM HQ in 2008 and so we decided to improve this part submitting a new consistent DNA to the Registry.

This part takes PoPS as input to express lacZ gene (), encoding for beta-galactosidase enzyme. This enzyme can be used to cleave lactose molecule to glucose and galactose, but can also be used as a reporter protein for colorimetric assays (together with X-Gal or ONPG as a substrate).

X-gal is cleaved by β-galactosidase yielding galactose and 5-bromo-4-chloro-3-hydroxyindole. The latter is then oxidized into 5,5'-dibromo-4,4'-dichloro-indigo, an insoluble blue product.

Characterization

50 ul of , , (positive control) and were plated on LB + Amp + X-Gal + IPTG plates (except for for which non selective LB was used). Plated bacteria were incubated at 37°C for about 16 hours and then a picture of the plates was taken.

To prepare these plates, 20 ul of X-Gal 40 mg/ml in DMF and 20 ul of ready made IPTG were diluted in 60 ul of SOC medium and spread on a LB agar plate.

Conclusions

We improved the existing part building up and testing its activity. This new part has been submitted to the Registry, as well as its physical DNA, allowing future users to assemble this beta-gal protein generator in their own project.

This part has shown to work as expected when a PoPS input is given, being able to cleave X-Gal on LB agar plates. In our case, we have tested this part with upstream, which provides a promoter strength of ? RPU in LB medium. This assembled part can be considered as a measurement system for . It has been tested in pSB1AK3 vector.

Surprisingly, as reported in the 4th picture, in the plate with the promoterless protein generator blue colour can be seen. It may be due to i) spurious transcription of the protein generator in the high copy number plasmid pSB1AK3 or ii) to the recombination occurred between plasmidic lacZ and genomic lacZdeltaM15, in which the working lacZ was integrated in E. coli genome under the control of lac promoter. This phenomenon has still to be studied. Caltech iGEM 2008 team reported this phenomenon in a similar protein generator, in which beta-gal assay was performed.

Anyway, further comparative tests should be done in order to see if lactose cleavage can be performed faster than in wild type E. coli, after the choice of a suitable promoter which controls this protein generator.

BBa_K173005/BBa_Q04400 - tetR QPI

Description

tetR inverter works as a constitutive promoter. In fact tetR production isn't regulated by any promoter and Ptet can work as a constitutive promoter. The expected behaviour of this part is not to be affected by the presence of inductor, for the repressor should not be present. Actually, the activity of promoter is not indipendent from aTc presence, probably for a spurious transcription of tetR repressor in its high copy number plasmid.

The experiments concerning this part have been performed in M9 supplemented medium, where all the standard concentrations tested have been used. In LB medium the component has been tested only in absence of inductor. All the results obtained are reported in the table below.

Characterization

This part has been charachterized only in M9 supplemented medium. In LB only a measure in absence of inductor has been performed.

Growth curves for BBa_K173008 in M9

(dGFP/dt)/OD in M9

Induction curve of BBa_K173008 in M9

Logical inverter: RPU of BBa_K173008 in function of RPU of promoter used for tetR expression in LB

The last image reports the inverter behaviour of tetR QPI component in LB medium. Considering RPU of promoter regulatin tetR expression as input and RPU of tetR QPI device as output it is possible to charcterize the logical inverter reported in figure. NB: RPU of promoters and have been calculated as reported in apposite section, while the absence of promoter has been associated to RPU=0. When input (RPU of tetR promoter) is high, the output is low and the behavior is opposite for high RPU of tetR promoter.

Conclusions