pGPS4

At a Glance

pGPS4, Image provided by NEB

Type	Donor
Origin of Replication	R6K
Copy #	High
Markers	Tetracycline, Chloramphenicol
Link to Sequence	NEB
Features	Tn7R Tn7L Transprimer-4^[1]
Accession Number
edit table

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Notes

Will not replicate in regular lab strains of E. coli because it depends on a replication initiation protein of plasmid origin, not usually present.

History

You can help EcoliWiki by writing about the history of this plasmid. pGPS4 is utilized in the GPS™-LS Linker Scanning System as the Transprimer-4 donor.

Sources

New England Biolabs

Sequence

 1  GGTACCCTGT GAATGCGCAA ACCAACCCTT GGCAGAACAT ATCCATCGCG 
 51  TCCGCCATCT CCAGCAGCCG CACGCGGCGC ATCTCGGGCA GCGTTGGGTC 
101  CTGGCCACGG GTGCGCATGA TCGTGCTCCT GTCGTTGAGG ACCCGGCTAG 
151  GCTGGCGGGG TTGCCTTACT GGTTAGCAGA ATGAATCACC GATACGCGAG 
201  CGAACGTGAA GCGACTGCTG CTGCAAAACG TCTGCGACCT GAGCAACAAC 
251  ATGAATGGTC TTCGGTTTCC GTGTTTCGTA AAGTCTGGAA ACGCGGAAGT 
301  CAGCGCCCTG CACCATTATG TTCCGGATCT ATGTCGGGTG CGGAGAAAGA 
351  GGTAATGAAA TGGCAGATCC CTGGCTTGTT GTCCACAACC GTTAAACCTT 
401  AAAAGCTTTA AAAGCCTTAT ATATTCTTTT TTTTCTTATA AAACTTAAAA 
451  CCTTAGAGGC TATTTAAGTT GCTGATTTAT ATTAATTTTA TTGTTCAAAC 
501  ATGAGAGCTT AGTACGTGAA ACATGAGAGC TTAGTACGTT AGCCATGAGA 
551  GCTTAGTACG TTAGCCATGA GGGTTTAGTT CGTTAAACAT GAGAGCTTAG 
601  TACGTTAAAC ATGAGAGCTT AGTACGTGAA ACATGAGAGC TTAGTACGTA 
651  CTATCAACAG GTTGAACTGC TGATCTTCGG ATCTATGTCG GGTGCGGAGA 
701  AAGAGGTAAT GAAATGGCAT CCGGATCTGC ATCGCAGGAT GCTGCTGGCT 
751  ACCCTGTGGA ACACCTACAT CTGTATTAAC GAAGCGCTGG AGATGGCGGA 
801  CGCGATGGAT ATGTTCTGCC AAGGGTTGGT TTGCGCATTC ACAGTTCTCC 
851  GCAAGAATTG ATTGGCTCCA ATTCTTGGAG TGGTGAATCC GTTAGCGAGG 
901  TGCCGCCGGC TTCCATTCAG GTCGAGGTGG CCCGGCTCCA TGCACCGCGA 
951  CGCAACGCGG GGAGGCAGAC AAGGTATAGG GCGGCGCCTA CAATCCATGC 
1001  CAACCCGTTC CATGTGCTCG CCGAGGCGGC ATAAATCGCC GTGACGATCA 
1051  GCGGTCCAAT GATCGAAGTT AGGCTGGTAA GAGCCGCGAG CGATCCTTGA 
1101  AGCTGTCCCT GATGGTCGTC ATCTACCTGC CTGGACAGCA TGGCCTGCAA 
1151  CGCGGGCATC CCGATGCCGC CGGAAGCGAG AAGAATCATA ATGGGGAAGG 
1201  CCATCCAGCC TCGCGTCGCG AACGCCAGCA AGACGTAGCC CAGCGCGTCG 
1251  GCCGCCATGC CGGCGATAAT GGCCTGCTTC TCGCCGAAAC GTTTGGTGGC 
1301  GGGACCAGTG ACGAAGGCTT GAGCGAGGGC GTGCAAGATT CCGAATACCG 
1351  CAAGCGACAG GCCGATCATC GTCGCGCTCC AGCGAAAGCG GTCCTCGCCG 
1401  AAAATGACCC AGAGCGCTGC CGGCACCTGT CCTACGAGTT GCATGATAAA 
1451  GAAGACAGTC ATAAGTGCGG CGACAGTAGT CATGCCCCGC GCCCACCGGA 
1501  AGGAGCTGAC TGGGTTGAAG GCTCTCAAGG GCATCGGTCG ACGCTCTCCC 
1551  TTATGCGACT CCTGCATTAG GAAGCAGCCC AGTAGTAGGT TGAGGCCGTT 
1601  GAGCACCGCC GCCGCAAGGA ATGGTGCATG CAAGGAGATG GCGCCCAACA 
1651  GTCCCCCGGC CACGGGGCCT GCCACCATAC CCACGCCGAA ACAAGCGCTC 
1701  ATGAGCCCGA AGTGGCGAGC CCGATCTTCC CCATCGGTGA TGTCGGCGAT 
1751  ATAGGCGCCA GCAACCGCAC CTGTGGCGCC GGTGATGCCG GCCACGATGC 
1801  GTCCGGCGTA GAGGATCCAC AGGACGGGTG TGGTCGCCAT GATCGCGTAG 
1851  TCGATAGTGG CTCCAAGTAG CGAAGCGAGC AGGACTGGGC GGCGGCCAAA 
1901  GCGGTCGGAC AGTGCTCCGA GAACGGGTGC GCATAGAAAT TGCATCAACG 
1951  CATATAGCGC TAGCAGCACG CCATAGTGAC TGGCGATGCT GTCGGAATGG 
2001  ACGATATCCC GCAAGAGGCC CGGCAGTACC GGCATAACCA AGCCTATGCC 
2051  TACAGCATCC AGGGTGACGG TGCCGAGGAT GACGATGAGC GCATTGTTAG 
2101  ATTTCATACA CGGTGCCTGA CTGCGTTAGC AATTTAACTG TGATAAACTA 
2151  CCGCATTAAA GCTTATCGAT GATAAGCGCT GGCATTGACC CTGAGTGATT 
2201  TTTCTCTGGT CCCGCCGCAT CCATACCGCC AGTTGTTTAC CCTCACAACG 
2251  TTCCAGTAAC CGGGCATGTT CATCATCAGT AACCCGTATC GTGAGCATCC 
2301  TCTCTCGTTT CATCGGTATC ATTACCCCCA TGAACAGAAA TCCCCCTTAC 
2351  ACGGAGGCAT CAGTGACCAA ACAGGAAAAA ACCGCCCTTA ACATGGCCCG 
2401  CTTTATCAGA AGCCAGACAT TAACGCTTCT GGAGAAACTC AACGAGCTGG 
2451  ACGCGGATGA ACAGGCAGAG CTCTTACTGT CATGCCATCC GTATGTTTAA 
2501  ACACAATAAA GTCTTAAACT GAACAAAATA GATCTAAACT ATGACAATAA 
2551  AGTCTTAAAC TAGACAGAAT AGTTGTAAAC TGAAATCAGT CCAGTTATGC 
2601  TGTGAAAAAG CATACTGGAC TTTTGTTATG GCTAAAGCAA ACTCTTCATT 
2651  TTCTGAAGTG CAAATTGCCC GTCGTATTAA AGAGGGGCGT GGGGTCGACG 
2701  CGGCCGCTAA CTATAACGGT CCTAAGGTAG CGAGTTTGGC GCGCCAAACG 
2751  ATATCGGATC CAGGCGTTTA AGGGCACCAA TAACTGCCTT AAAAAAATTA 
2801  CGCCCCGCCC TGCCACTCAT CGCAGTACTG TTGTAATTCA TTAAGCATTC 
2851  TGCCGACATG GAAGCCATCA CAAACGGCAT GATGAACCTG AATCGCCAGC 
2901  GGCATCAGCA CCTTGTCGCC TTGCGTATAA TATTTGCCCA TGGTGAAAAC 
2951  GGGGGCGAAG AAGTTGTCCA TATTGGCCAC GTTTAAATCA AAACTGGTGA 
3001  AACTCACCCA GGGATTGGCT GAGACGAAAA ACATATTCTC AATAAACCCT 
3051  TTAGGGAAAT AGGCCAGGTT TTCACCGTAA CACGCCACAT CTTGCGAATA 
3101  TATGTGTAGA AACTGCCGGA AATCGTCGTG GTATTCACTC CAGAGCGATG 
3151  AAAACGTTTC AGTTTGCTCA TGGAAAACGG TGTAACAAGG GTGAACACTA 
3201  TCCCATATCA CCAGCTCACC GTCTTTCATT GCCATACGGA ATTCCGGATG 
3251  AGCATTCATC AGGCGGGCAA GAATGTGAAT AAAGGCCGGA TAAAACTTGT 
3301  GCTTATTTTT CTTTACGGTC TTTAAAAAGG CCGTAATATC CAGCTGAACG 
3351  GTCTGGTTAT AGGTACATTG AGCAACTGAC TGAAATGCCT CAAAATGTTC 
3401  TTTACGATGC CATTGGGATA TATCAACGGT GGTATATCCA GTGATTTTTT 
3451  TCTCCATTTT AGCTTCCTTA GCTCCTGAAA ATCTCGATAA CTCAAAAAAT 
3501  ACGCCCGGTA GTGATCTTAT TTCATTATGG TGAAAGTTGG AACCTCTTAC 
3551  GTGCCGATCA ACGTCTCATT TTCGCCAAAA GTTGGCCCAG GGCTTCCCGG 
3601  TATCAACAGG GACACCAGGA TTTATTTATT CTGCGAAGTG ATCTTCCGTC 
3651  ACAGGTATGG ATCCGATATC ATTTAAATCT AGGGATAACA GGGTAATACT 
3701  AGTGTCGACC AACCAGATAA GTGAAATCTA GTTCCAAACT ATTTTGTCAT 
3751  TTTTAATTTT CGTATTAGCT TACGACGCTA CACCCAGTTC CCATCTATTT 
3801  TGTCACTCTT CCCTAAATAA TCCTTAAAAA CTCCATTTCC ACCCCTCCCA 
3851  GTTCCCAACT TTATTGTGTT TAAACACCGT AAGATGCTTT TCAGTGACT

References

^[2] ^[3] ^[4] ^[5] ^[6]

↑ Craig, NL (1996) Transposon Tn7. Curr. Top. Microbiol. Immunol. 204 27-48 PubMed
↑ Craig, NL (1996) Transposon Tn7. Curr. Top. Microbiol. Immunol. 204 27-48 PubMed
↑ Stellwagen, AE & Craig, NL (1997) Gain-of-function mutations in TnsC, an ATP-dependent transposition protein that activates the bacterial transposon Tn7. Genetics 145 573-85 PubMed
↑ Biery, MC et al. (2000) A simple in vitro Tn7-based transposition system with low target site selectivity for genome and gene analysis. Nucleic Acids Res. 28 1067-77 PubMed
↑ Metcalf, WW et al. (1994) Use of the rep technique for allele replacement to construct new Escherichia coli hosts for maintenance of R6K gamma origin plasmids at different copy numbers. Gene 138 1-7 PubMed
↑ Kolter, R et al. (1978) Trans-complementation-dependent replication of a low molecular weight origin fragment from plasmid R6K. Cell 15 1199-208 PubMed

[PMID:8556868-1] Craig, NL (1996) Transposon Tn7. Curr. Top. Microbiol. Immunol. 204 27-48 PubMed

[PMID:_8556868-2] Craig, NL (1996) Transposon Tn7. Curr. Top. Microbiol. Immunol. 204 27-48 PubMed

[PMID:_9055068-3] Stellwagen, AE & Craig, NL (1997) Gain-of-function mutations in TnsC, an ATP-dependent transposition protein that activates the bacterial transposon Tn7. Genetics 145 573-85 PubMed

[PMID:_10666445-4] Biery, MC et al. (2000) A simple in vitro Tn7-based transposition system with low target site selectivity for genome and gene analysis. Nucleic Acids Res. 28 1067-77 PubMed

[PMID:_8125283-5] Metcalf, WW et al. (1994) Use of the rep technique for allele replacement to construct new Escherichia coli hosts for maintenance of R6K gamma origin plasmids at different copy numbers. Gene 138 1-7 PubMed

[PMID:_728998-6] Kolter, R et al. (1978) Trans-complementation-dependent replication of a low molecular weight origin fragment from plasmid R6K. Cell 15 1199-208 PubMed

[1]

[2]

[3]

[4]

[5]

[6]

pGPS4

At a Glance

Notes

History

Sources

Sequence

References

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