Team:UNIPV-Pavia/Parts/Characterized

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UNIPV TEAM 2011

Contents

Our new parts

BBa_J23101

  1. BBa_K516130 (wiki name: J101-E5 ) J101-RBS30-RFP-TT
  2. BBa_K516131 (wiki name: J101-31 ) J101-RBS31-mRFP-TT
  3. BBa_K516132 (wiki name: J101-E7 ) J101-RBS32-mRFP-TT

-provide Scell with CI 95% (error bar?) and RPU?? with errorbar? -Provide RBS ranking -Discuss that RPUs can be used to compare different promoters in the same exp conditions (i.e: the same RBS), but are not reliable when comparing different RBSs with the same promoter because of the un-modularity of RBS (cit: RBS calculator Salis Nature Biot 2009, 'identical ribosome binding site sequences in different genetic contexts can result in different protein expression levels', 'It is likely that this absence of modularity is caused by the formation of strong secondary structures between the RBS-containing RNA sequence and one protein coding sequence but not another'). Highlight that we are not trying to show that RBSs are modular, since it has been shown to be false. We try to overcome the problem of modularity by considering the complex Promoter-RBS as a whole regulatory element, whose effect can't be split between the two components. Explain that here we provide a library of ready-to-use reference standard in order to easily compute RPUs of promoters with different RBSs. Discuss that it is not totally correct to compare RPUs coming from characterization with different RBSs?

Characterization of existing pars from the Registry

Do we say that we are charcterizing also F2620 or T9002? Or both?
Inducible and constitutive promoters were assembled upstream of different coding sequences containing an RBS from the Community collection.

The assembled RBSs are:

BioBrick code Estimated efficiency
BBa_B0030 0,6
BBa_B0031 0,07
BBa_B0032 0,3
BBa_B0034 1
For an inducible device, the RBS variation has the purpose to stretch the induction curve, thus modulating its PoPs-OUT range.

The complex RBS-promoter acts as a whole regulatory element and determines the amount of translated protein. RBSs have been reported to have an un-modular behavior, since the translational efficiency is not independent on the coding sequences, but variates as an effect of different mRNA structure stability [Salis et al., Nat Biotec, 2009]. In addition, it is not possible to separate the effects of the sole promoter and of the sole RBS on the total amount of mRFP produced.

For this reason, every combination 'Promoter+RBS' was studied as a different regulatory element. Regulatory elements were characterized using mRFP reporter protein for different RBSs in terms of Synthesis rate per Cell (Scell) and R.P.U.s (Relative Promoter Units) as explained in measurements section.

pTet - BBa_R0040

  1. mRFP
  2. AiiA
    • BBa_K516220 (wiki name: E24 ) pTet-RBS30-AiiA-TT
    • BBa_K516221 (wiki name: E25 ) pTet-RBS31-AiiA-TT
    • BBa_K516222 (wiki name: E26 ) pTet-RBS32-AiiA-TT Rebuilt existing part from BBa_ J22071 (2008 only, Bad sequencing)
    • BBa_K516224 (wiki name: E27 ) pTet-RBS34-AiiA-TT Rebuilt existing part from BBa_K077047 (Part deleted)
  3. LuxI
    • BBa_K516210 (wiki name: E13 ) pTet-RBS30-LuxI
    • BBa_K516211 (wiki name: E14 ) pTet-RBS31-LuxI
    • BBa_K516212 (wiki name: E15 ) pTet-RBS32-LuxI
    • BBa_K516214 (wiki name: E16 ) pTet-RBS34-LuxI Rebuilt existing part from BBa_S03623 (DNA available, only 2008 kit, inconsistent)
The protocols for the characterization of pTet promoter are reported in the pTet measurement section.
This promoter is widely studied and characterized usually using the strong RBS BBa_B0034. Here we have characterized its transcriptional strength as a function of aTc induction (ng/ul) for different RBSs. Four different induction curves were obtained and are reported in figure: INSERIRE 4 CURVE pTET!! The data collected from the mRFP measurement systems were processed as described in data analysis section. The induction curves were obtained by fitting a Hill function as described in modelling section and the estimated parameters for pTet are reported in the table below.
RBS αpTet δpTet ηpTet kpTet
BBa_B0030 218 0.01 4.3 8.3
BBa_B0031 3.2 0.16 2.84 6.38
BBa_B0032 46.3 0.03 62 8
BBa_B0034 126.5 0.13 66 9.8

Here we explain the concept of regulatory element and we explain that the RBS variation has the purpose to stretch the induction curve thus modulating the PoPS-OUT range of the device. In particular, we have seen that:
-RBS32 works as expected
-RBS30 and 34 are not quite bad (even if we had some problems with fitting
-RBS31 gives an RFP output that is not detectable by our instrument (is under the detectability threshold).
Here we have to insert 4 panels with the Hill functions fitted (Tom) with double Y-axes. Do we need to insert a table with the most significant measurements for every pTet-RBSx (i.e.: min RPU, max RPU, switch point, saturation threshold?)

pLux

  1. BBa_K516330 (wiki name: E17 ) pLambda-RBS30-LuxR-T-pLux-RBS30-mRFP-TT
  2. BBa_K516331 (wiki name: E18 ) pLambda-RBS30-LuxR-T-pLux-RBS31-mRFP-TT
  3. BBa_K516332 (wiki name: E19 ) pLambda-RBS30-LuxR-T-pLux-RBS32-mRFP-TT
  4. BBa_K516334 (wiki name: E20 ) pLambda-RBS30-LuxR-T-pLux-RBS34-mRFP-TT
RBS αpLux δpLux ηpLux kpLux
BBa_B0030 438 0.05 2 1.88
BBa_B0031 9.8 0.11 1.2 1.5
BBa_B0032 206 0 1.36 1.87
BBa_B0034 1105 0.02 1.33 2.34

RBSs

  1. BBa_B0030
    1. BBa_K516030 (wiki name: E5 ) RBS30-mRFP-TT Rebuilt existing part from BBa_S04180 (DNA planning)
    2. BBa_K516020 (wiki name: E9 ) RBS30-AiiA-TT
    3. BBa_K081008 (wiki name: E2 ) RBS30-LuxI
  2. BBa_B0031
    1. BBa_K516031 (wiki name: E6 ) RBS31-mRFP-TT
    2. BBa_K516021 (wiki name: E10 ) RBS31-AiiA-TT Rebuilt existing part from BBa_I13914 (DNA planning)
    3. BBa_K516011 (wiki name: E3 ) RBS31-LuxI
  3. BBa_B0032
    1. BBa_K516032 (wiki name: E7 ) RBS32-mRFP-TT Rebuilt existing part from BBa_ J133000 (DNA planning)
      • BBa_K516232 (wiki name: E23 ) pTet-RBS32-mRFP-TT Rebuilt existing part from BBa_I20252 (DNA planning)
      • BBa_K516332 (wiki name: E19 ) pLambda-RBS30-LuxR-T-pLux-RBS32-mRFP-TT
      • BBa_K516132 (wiki name: J101-E7 ) J101-RBS32-RFP-TT
    2. BBa_K516022 (wiki name: E11 ) RBS32-AiiA-TT Rebuilt existing part from BBa_I13912 (DNA planning)
      • BBa_K516222 (wiki name: E26 ) pTet-RBS32-AiiA-TT Rebuilt existing part from BBa_ J22071 (2008 only, Bad sequencing)
    3. BBa_K516012 (wiki name: E4 ) RBS32-LuxI
  4. BBa_B0034
    1. BBa_I13521 RBS34-mRFP-TT
    2. BBa_I0460 RBS34-AiiA-TT
      • BBa_K516224 (wiki name: E27 ) pTet-RBS34-AiiA-TT Rebuilt existing part from BBa_K077047 (Part deleted)
    3. BBa_C0261 RBS34-LuxI
      • BBa_K516214 (wiki name: E16 ) pTet-RBS34-LuxI Rebuilt existing part from BBa_S03623 (DNA available, only 2008 kit, inconsistent)

Almost everything must be inserted in this section!! How do I evaluate the efficiency of RBSs in case of inducible promoters? We need a summary table with the estimated efficiency in the condition:
-Promoter - Gene

LuxI - BBa_C0061

  1. BBa_K081008 (wiki name: E2 ) RBS30-LuxI
    BBa_K516210 (wiki name: E13 ) pTet-RBS30-LuxI
  2. BBa_K516011 (wiki name: E3 ) RBS31-LuxI
    BBa_K516211 (wiki name: E14 ) pTet-RBS31-LuxI
  3. BBa_K516012 (wiki name: E4 ) RBS32-LuxI
    BBa_K516212 (wiki name: E15 ) pTet-RBS32-LuxI
  4. BBa_C0261 RBS34-LuxI
    BBa_K516214 (wiki name: E16 ) pTet-RBS34-LuxI Rebuilt existing part from BBa_S03623 (DNA available, only 2008 kit, inconsistent)

LuxI has been characterized through the Biosensor T9002 (see modeling section). The HSL synthesis rate has been evaluated according to the model (Eq. 2 - dLuxI/dt, Eq. 3 dHSL/dt, Eq. 5 dN/dt). Explain that in all these evaluations we have estimated Nmax, mu, gamma_HSL from previous experiments - see measurement and modelling sections. When do we talk about HSL stability as a function of pH?
Provide parameters of HSL. How do we present these data? It would be nice also to say what's the amount of HSL produced by a liquid 5 ml culture at a given OD600 in M9 medium after tot hours starting from 1:1000 dilution of a saturated ON culture..
We nee a synthetic parameter to express LuxI activity as a function of PoPS in. I suggest to report the HSL vs pH analysis here AND in the AiiA section of registry and, for what concerns our wiki, to add an appendix to the 'measurement section' to wich link when explaining..
Decide figures!

AiiA - BBa_C0060

  1. BBa_K516020 (wiki name: E9 ) RBS30-AiiA-TT
    BBa_K516220 (wiki name: E24 ) pTet-RBS30-AiiA-TT
  2. BBa_K516021 (wiki name: E10 ) RBS31-AiiA-TT Rebuilt existing part from BBa_I13914 (DNA planning)
    BBa_K516221 (wiki name: E25 ) pTet-RBS31-AiiA-TT
  3. BBa_K516022 (wiki name: E11 ) RBS32-AiiA-TT Rebuilt existing part from BBa_I13912 (DNA planning)
    BBa_K516222 (wiki name: E26 ) pTet-RBS32-AiiA-TT Rebuilt existing part from BBa_ J22071 (2008 only, Bad sequencing)
  4. BBa_I0460 RBS34-AiiA-TT
    BBa_K516224 (wiki name: E27 ) pTet-RBS34-AiiA-TT Rebuilt existing part from BBa_K077047 (Part deleted)

Tha same as LuxI. Here we report the AiiA equations. Even more fundamental the estimation of gamma_HSL, that is pH dependent, because of the necessity to depurate the observed degradation by the effect not depending on AiiA
Decide figures!

Improvement of existing pars from the Registry

Add the re-built existing parts with DNA planning!

Rebuilt existing parts

  1. BBa_K516021 (wiki name: E10 ) RBS31-AiiA-TT Rebuilt existing part from BBa_I13914 (DNA planning)
  2. BBa_K516022 (wiki name: E11 ) RBS32-AiiA-TT Rebuilt existing part from BBa_I13912 (DNA planning)
  3. BBa_K516030 (wiki name: E5 ) RBS30-mRFP-TT Rebuilt existing part from BBa_S04180 (DNA planning)
  4. BBa_K516032 (wiki name: E7 ) RBS32-mRFP-TT Rebuilt existing part from BBa_ J133000 (DNA planning)
  5. BBa_K516214 (wiki name: E16 ) pTet-RBS34-LuxI Rebuilt existing part from BBa_S03623 (DNA available, only 2008 kit, inconsistent)
  6. BBa_K516222 (wiki name: E26 ) pTet-RBS32-AiiA-TT Rebuilt existing part from BBa_ J22071 (2008 only, Bad sequencing)
  7. BBa_K516224 (wiki name: E27 ) pTet-RBS34-AiiA-TT Rebuilt existing part from BBa_K077047 (Part deleted)
  8. BBa_K516232 (wiki name: E23 ) pTet-RBS32-mRFP-TT Rebuilt existing part from BBa_I20252 (DNA planning)

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