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Translational_Unit

Part:BBa_K1362011

Designed by: Constantin Ahlmann-Eltze, Charlotte Bunne, Magdalena Büscher, Jan Gleixner, Max Horn, Anna Huhn, Nils Klughammer, Jakob Kreft, Elisabeth Schäfer, Carolin Schmelas, Silvan Schmitz, Max Waldha   Group: iGEM14_Heidelberg   (2014-10-08)
Revision as of 07:49, 25 October 2016 by AMENDOZA (Talk | contribs) (Functional Parameters)

RBS + λ-Lysozyme

This part, "linear" lysozyme, served as a control in a large thermostability screening of circular lysozme variants. Lysozyme is an enzyme that digests the peptidoglycan of bacterial cell walls.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


Functional Parameters

iGEM TecCEM lisozyme characterization (https://static.igem.org/mediawiki/2016/0/02/T--TecCEM--16%29_caracterizacion_.pdf) essay was performed. A culture of E. coli DH5a cells transformed with BBa_J04450 biobrick was inoculated, so a red color would be a clear indicator of growth. Once the culture reached a certain OD several aliquots were taken. Each aliquot was mixed and incubated with a different quantity of proteic extract from the lysozyme protein. After some hours of incubation, said mixtures were tested for their optical density, so the lysis activity could be observed. So the less the optical density the measure resulted, the more lytic activity the lysozyme had on the cells.

T--TecCEM--TABLE1RESULTS.jpg

Table 1. OD results of characterization essay.

T--TecCEM--Tabla2pract16.JPG

Table 2 OD results of characterization essay.


The results are listed in Table 1, but since the OD results were too high the protocol was repeated in order to obtain trustworthy results listed in Table 2. The characterization essay confirmed a strong catalytic activity from the lysozyme. Each dilution had a more lytic activity as more proteic extract was added. Also, each dilution was plated so we could see how many cells survived to the lysozyme. We expected more cell growth on the plates with less proteic extract, which was confirmed after analysis. These dilutions were plated in LB plates as we can see in figure 4, 5, 6 and 7, the number of colonies diminishes a noticeably as we increase the quantity of the protein extract.


a)T--TecCEM--Fig4control.JPG b)T--TecCEM--Fig5_d200.JPG c)T--TecCEM--Fig6_d400.JPG d)T--TecCEM--Fig7_d600.JPG Figure 5. Dilutions of protein extract with culture of E.coli. a) Control, only LB. b) 200 ul dilution. c) 400 ul dilution. d) 600 ul dilution.


Also, in order to measure the actual lytic activity of the lysozyme several antibiograms essays were done (Figure 6). In this figure is show the growth inhibition of J04450 transformed cells near the protein extract, we can see as well a little increase in the inhibition halo as the protein extract increases.



a)T--TecCEM--antextract250.jpG b)T--TecCEM--antextract500.jpG c)T--TecCEM--antextract750.jpg Figure 6. Antibiograms of the protein extract.



In conclusion, our experience after the dilutions and antibiogram analysis of the plates of the R0011 + K1362011 characterization, the values of MIC and MBC could be calculated, the MIC values were concluded as the concentration in which there is no visual growth and the MBC is the where there was almost no growth at all, this values were delivered as MIC of 250uL and MBC of 600uL of proteic extract.


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