Team:Uppsala University/Backbones

From 2012.igem.org

(Difference between revisions)

Revision as of 05:36, 24 September 2012

Team Uppsala University – iGEM 2012

There have been longstanding doubts about the behaviour of the existing pSB4x5 series of low copy plasmids. Due to a need for a low copy BioBrick plasmid in our project, we have devoloped a series of BioBrick standard vectors. The new pSB4x15 series have a low copy pSC101 replication origin (~5 copies per cell) and ampicillin, chloramphenicol, kanamycin and spectinomycin antibiotic resistance markers. They are especially usable 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.

The pSB4x15 series i brief

Verified low copy number
More accurate annotation
No homologies to E coli genome that interferes with Lambda red recombineering
Easy introduction of new resistance casettes
Easy introduction of new orthonongal replication origins
Smaller backbone size
Flp recombinase target sites aroud the resistance casette available
LacIq versions for tight represion available
Thermosensitive version available

General design notes
The resistance cassette is terminated by a Lux bidirectional terminator. Adjacent to this terminator there is a designed primer binding site to where the forward primer for lambda red can be designed to bind to no matter what the insert in the cloning site is or what the resistance is. For more information on Lambda Red recombineering, read in the description for part BBa_K59200.

The resistance cassette is flanked by SalI and SacI restriction sites for easy switching of resistance in the backbone.

The pSC101 origin of replication is flaked by NheI and MluI restriction sites for easy switching of origin of replication. An illegal SpeI restiction site has been removed from the ori.

Nomenclature
pUCori - a high copy origin of replication. Amplified from the pSB1A3 backbone.
red - the standard PlacI-RFP casette J04450.
redq - a RFP casette driven by the CP6 constitutive promoter [1], but otherwise identical to J04450.

Standard low-copy backbones

Registry ID	Name	Ori	Resistance	Insert	Size	Status
	pSB4A15	pSC101	Amp	pUCori-red	3621 bp	Finished
	pSB4C15	pSC101	Cm	pUCori-red	3448 bp	Finished
	pSB4K15	pSC101	Kan	pUCori-red	3645 bp	Finished
	pSB4S15	pSC101	Spec	pUCori-red	3775 bp	Finished
	pSB4A15(Frt)	pSC101	Amp	pUCori-red	3690 bp	Finished
	pSB4C15(Frt)	pSC101	Cm	pUCori-red	3516 bp	Finished
	pSB4K15(Frt)	pSC101	Kan	pUCori-red	3714 bp	Finished
	pSB4S15(Frt)	pSC101	Spec	pUCori-red	3843 bp	Finished

LacIq backbones

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 repression always follows that of your inserted genes, providing guranteed strong repression without inducing unneccessary metabolic load.

Registry ID	Name	Ori	Resistance	Insert	Size	Status
	pSB4A15Iq	pSC101	Amp	pUCori-redq		Finished
	pSB4C15Iq	pSC101	Cm	pUCori-redq		Finished
	pSB4K15Iq	pSC101	Kan	pUCori-redq		Finished
	pSB4S15Iq	pSC101	Spec	pUCori-redq		Finished
	pSB4A15Iq(Frt)	pSC101	Amp	pUCori-redq		Planning
	pSB4C15Iq(Frt)	pSC101	Cm	pUCori-redq		Finished
	pSB4K15Iq(Frt)	pSC101	Kan	pUCori-redq		Finished
	pSB4S15Iq(Frt)	pSC101	Spec	pUCori-redq		Planning

Thermosensitive backbones

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 streaken 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) and DH5α (not shown).

All 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. Temporary exposure to higher temperatures does not affect plasmid maintenance noticeably, and transformation recovery can be done at 37° C.

Very easy ori replacement is possible in the pSB8x15 backbones. The the plasmid can have the pSC101ts ori cut out with NheI and MluI and another ori ligated in. To remove any religated pSC101ts, the transformants can simply be grown at 42° C. This opens possibilities for much-awaited new orhogonal origins in the BioBrick system.

A problem when doing chromosomal intergration is that some clones may take up a plasmid instead of recombineering it into the chromosome. When doing recombineering with pSB8x15(Frt) backbones, any such clones can be removed by growing them at 42° C. A pSB4x15 backbone with a Flp recombinase gene would of course also make an excellent Flp plasmid.

Registry ID	Name	Ori	Resistance	Insert	Size	Status
	pSB4A15	pSC101ts	Amp	pUCori-redq		Finished
	pSB4C15	pSC101ts	Cm	pUCori-redq		Finished
	pSB4K15	pSC101ts	Kan	pUCori-redq		Finished
	pSB4S15	pSC101ts	Spec	pUCori-redq		Finished
	pSB4A15(Frt)	pSC101ts	Amp	pUCori-redq		Planning
	pSB4C15(Frt)	pSC101ts	Cm	pUCori-redq		Planning
	pSB4K15(Frt)	pSC101ts	Kan	pUCori-redq		Finished
	pSB4S15(Frt)	pSC101ts	Spec	pUCori-redq		Planning

References

[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.
[2] K.A. Armstrong, R. Acosta, E. Ledner, Y. Machida, M. Pancotto, M. McCormick, H. Ohtsubo, E. Ohtsubo: "A 37×10(3) molecular weight plasmid-encoded protein is required for replication and copy number control in the plasmid pSC101 and its temperature-sensitive derivative pHS1" J. Mol. Biol., 175 (1984), 331–348
[3] T Hashimoto-Gotoh, M Sekiguchi: "Mutations of temperature sensitivity in R plasmid pSC101" J. Bacteriol. 131.2 (1977) 405-412

@@ Line 47: / Line 47: @@
 pUCori - a high copy origin of replication. Amplified from the pSB1A3 backbone. <br>
 red - the standard PlacI-RFP casette <a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_J04450">J04450</a>.<br>
-redq - a version of the RFP casette driven by the CP6 constitutive promoter <a href="#1">[1]</a>.
+redq - a RFP casette driven by the CP6 constitutive promoter <a href="#1">[1</a>], but otherwise identical to J04450.
 </p>
 </td>
@@ Line 166: / Line 166: @@
 <td valign="top">
 <p>
-The pSB8 backbones contain the pSC101ts ori which, due alanine to valine change<a href="#2">[2]</a>, does not replicate at 42°C<a href="#3">[3]</a>. 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 streaken 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 pSB4C5, in <i>E coli K12</i> substrains <i>MG1655 (see figure)</i> and DH5α <i>(not shown)</i>. </p>
+The pSB8 backbones contain the pSC101ts ori which, due to a change from alanine to valine in a regulatory protein<a href="#2">[2]</a>, does not replicate at 42°C<a href="#3">[3]</a>. 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 streaken 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 <i>E coli K12</i> substrains <i>MG1655 (see figure)</i> and DH5α <i>(not shown)</i>. </p>
 <p>
-All backbones are available with a pUC ori  and a constitutive RFP casette in the BioBrick site. This allows rapid growth at 37° C, high plasmid yields and faster red color expression. Temporary exposure to higher temperatures does not affect plasmid maintenance noticeably, and transformation recovery can be done at 37°. </p>
+All 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. Temporary exposure to higher temperatures does not affect plasmid maintenance noticeably, and transformation recovery can be done at 37° C. </p>
 <p>
 Very easy ori replacement is possible in the pSB8x15 backbones. The the plasmid can have the pSC101ts ori cut out with NheI and MluI and another ori ligated in. To remove any religated pSC101ts, the transformants can simply be grown at 42° C. This opens possibilities for much-awaited new orhogonal origins in the BioBrick system. </p>
@@ Line 218: / Line 218: @@
 <td valign="top">
 <p>
-<a name="1"></a><a href="http://www.ncbi.nlm.nih.gov/pmc/articles/PMC124675/">[2]</a>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.<br>
+<a name="1"></a><a href="http://www.ncbi.nlm.nih.gov/pmc/articles/PMC124675/">[1]</a>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.<br>
 <a name="2"></a><a href="http://dx.doi.org/10.1016/0022-2836(84)90352-8">[2]</a> K.A. Armstrong, R. Acosta, E. Ledner, Y. Machida, M. Pancotto, M. McCormick, H. Ohtsubo, E. Ohtsubo:
 "A 37×10(3) molecular weight plasmid-encoded protein is required for replication and copy number control in the plasmid pSC101 and its temperature-sensitive derivative pHS1" J. Mol. Biol., 175 (1984), 331–348 <br>