Team:Uppsala University/Backbones
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There have been <a href="http://partsregistry.org/Part:pSB4A5:Experience">longstanding</a> <a href="http://partsregistry.org/Part:pSB4C5:Experience">doubts</a> about the behaviour of the existing pSB4x5 series of low copy plasmids. We can now <a href="#charac">demonstrate</a>, with fluoresence measurements by flow cytometry, that the old low copy plasmids has a considerable higher copy number than specified. </p> | There have been <a href="http://partsregistry.org/Part:pSB4A5:Experience">longstanding</a> <a href="http://partsregistry.org/Part:pSB4C5:Experience">doubts</a> about the behaviour of the existing pSB4x5 series of low copy plasmids. We can now <a href="#charac">demonstrate</a>, with fluoresence measurements by flow cytometry, that the old low copy plasmids has a considerable higher copy number than specified. </p> | ||
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<i>Figure 6: Testing of pSC101ts ori in E coli MG1655. LA plates, A, B are antibiotic-free, C, D with 12 µl/ml chloramphenicol. From left to right on each plate: <b>A</b>. pSB8C15-red and pSB4C15-red grown overnight at 30° C. <b>B</b>. pSB8C15-red and pSB4C15-red grown overnight at 42° C. <b>C</b>. 3 clones each of pSB8C15-red and pSB4C15-red from A. <b>D</b>. 3 clones each of pSB8C15-red, pSB4C15-red grown overnight from B. C and D were grown overnight at 30° C. Due to the low plasmid copy number, red color was not visible until after 48 hours of incubation.</i> | <i>Figure 6: Testing of pSC101ts ori in E coli MG1655. LA plates, A, B are antibiotic-free, C, D with 12 µl/ml chloramphenicol. From left to right on each plate: <b>A</b>. pSB8C15-red and pSB4C15-red grown overnight at 30° C. <b>B</b>. pSB8C15-red and pSB4C15-red grown overnight at 42° C. <b>C</b>. 3 clones each of pSB8C15-red and pSB4C15-red from A. <b>D</b>. 3 clones each of pSB8C15-red, pSB4C15-red grown overnight from B. C and D were grown overnight at 30° C. Due to the low plasmid copy number, red color was not visible until after 48 hours of incubation.</i> | ||
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Revision as of 03:53, 27 September 2012
There have been longstanding doubts about the behaviour of the existing pSB4x5 series of low copy plasmids. We can now demonstrate, with fluoresence measurements by flow cytometry, that the old low copy plasmids has a considerable higher copy number than specified. Due to a need for a low copy BioBrick plasmid in our project, we have thus devoloped a new series of BioBrick standard vectors. The new pSB4x15 backbones have a low copy pSC101 replication origin (~5 copies per cell) and ampicillin, chloramphenicol, kanamycin or spectinomycin antibiotic resistance markers. They are especially designed for Lambda Red recombineering in E coli. The backbone sequence is based on pSB3T5, but the E coli His operon terminator BBa_B0053 has been replaced with the late terminator of the Salmonella phage P22, similar to BBa_K59200. Team Uppsala University recommends the pSB4c15 series as a replacement to pSB4c5 for all low copy applications. The pSB4x15 series i brief
General design notes The resistance cassette is flanked by SalI and SacI restriction sites for easy switching of resistance in the backbone. In the case of the Frt plasmids, there is a Flp recombinase target site inside of each of the flanking restriction sites, for removal of the resistance cassette after chromosomal integration. The Frt plasmids can, however, also be used as normal cloning vectors. The pSC101 origin of replication is flaked by NheI and MluI restriction sites for easy switching of origin of replication, preferably replacing the thermosensitive pSB8x15. An illegal SpeI restiction site has been removed from the origin.
Characterization
The copy number of pSB4C15, as compared to pSB3C5 and pSB4C5, has been estimated by flow cytometer fluorescence (see figure 2) and plasmid prep concentration measurments. According to our measurments, our pSB4C15 is present at a stable copy number that is a fraction of that of the other tested plasmids. pSB3C5 and pSB4C5 have a similar copy number, with pSB4C5 slightly highter. This is also consistent with the experience of other teams [1, 2]. Read details and methods. The classic pSB4C5, and most likely the whole pSB4x5 series, are not low copy backbones as specified in the registry. They should not be used as low copy backbones. A possible future use of the pSB4x5 series is as a middle copy backbone that is compatible with the existing pSB3x5 (with p15A ori), something that is certainly useful from a syntetic biology standpoint.
Nomenclature
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All pSB4x15 backbones have with a pUC origin and the standard RFP casette in the BioBrick site. This facilitates high plasmid yields and fast red color expression. |
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For expression of toxic genes, or simply genes where you want to be able to tune the expression level, we constructed a series of lacIq bacbones. Including the lacIq casette on the plasmid ensures that the copy number of the lacIq gene always follows that of your inserted genes, providing guranteed strong repression without inducing unneccessary metabolic load. Repression and induction has been shown to be functional by fluorescent measurements of the lacI, lacIq, T5lac and LlacO promoters expressing red fluorescent protein in pSB5C15Iq. Read details and methods. |
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The pSB8 backbones contain the pSC101ts ori which, due to a change from alanine to valine in a regulatory protein[2], does not replicate at 42°C[3]. Strains carrying pSB8x15 plasmids can be grown stably at 30°C, but the plasmid will be lost at 42°C. For removing the plasmid, the strain can be streaked on a antibiotic-free LB agar plate and grown at 42° C overnight. Plasmid loss can be confirmed by streaking the new colonies on a plate with the relevant antibiotic. This feature has been confirmed by Team Uppsala University 2012 for the pSB8C15, in E coli K12 substrains MG1655 (see figure 6) and DH5α (not shown).
All lacIq backbones are available with a pUC origin and a constitutive RFP casette in the BioBrick site. This allows rapid growth at 37° C, high plasmid yields and faster red color expression. In our expreience, temporary exposure to higher temperatures does not affect plasmid maintenance noticeably, and transformation recovery can be done at 37° C. Origin switching Reliable recombineering |
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[1]P. Jensen, K Hammer Appl: "The Sequence of Spacers between the Consensus Sequences Modulates the Strength of Prokaryotic Promoters" Environ Microbiol. 64.1 (1998) 82€“87. |