pGLuc-Basic Vector

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At a Glance

PGLuc, Image provided by NEB

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Type

Cloning

Origin of Replication

pMB1

Copy #
Markers

Ampicillin, Kanamycin, Neomycin

Link to Sequence

NEB

Features

Gaussia luciferase (GLuc)
SV40 promoter region

Accession Number


edit table

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Notes

pGLuc-Basic Vector can be used for cloning promoter sequences in order to assess their transcriptional regulatory functions.

History

A standard DNA purification procedure is used to derive pGLuc-Basic Vector from E. coli strain ER2272.

Sources

New England Biolabs

References

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[1] [2]

Sequence

      1  GACGGATCGG GAGATCTTGG AATTCTGCAG ATATCCTCGA GCCCAAGCTT 
     51  GGTACCGAGC TCGGATCCAG CCACCATGGG AGTCAAAGTT CTGTTTGCCC 
    101  TGATCTGCAT CGCTGTGGCC GAGGCCAAGC CCACCGAGAA CAACGAAGAC 
    151  TTCAACATCG TGGCCGTGGC CAGCAACTTC GCGACCACGG ATCTCGATGC 
    201  TGACCGCGGG AAGTTGCCCG GCAAGAAGCT GCCGCTGGAG GTGCTCAAAG 
    251  AGATGGAAGC CAATGCCCGG AAAGCTGGCT GCACCAGGGG CTGTCTGATC 
    301  TGCCTGTCCC ACATCAAGTG CACGCCCAAG ATGAAGAAGT TCATCCCAGG 
    351  ACGCTGCCAC ACCTACGAAG GCGACAAAGA GTCCGCACAG GGCGGCATAG 
    401  GCGAGGCGAT CGTCGACATT CCTGAGATTC CTGGGTTCAA GGACTTGGAG 
    451  CCCATGGAGC AGTTCATCGC ACAGGTCGAT CTGTGTGTGG ACTGCACAAC 
    501  TGGCTGCCTC AAAGGGCTTG CCAACGTGCA GTGTTCTGAC CTGCTCAAGA 
    551  AGTGGCTGCC GCAACGCTGT GCGACCTTTG CCAGCAAGAT CCAGGGCCAG 
    601  GTGGACAAGA TCAAGGGGGC CGGTGGTGAC TAAGCGGCCG CTCGAGCATG 
    651  CATCTAGAAA TAATTCTTAC TGTCATGCCA AGTAAGATGC TTTTCTGTGC 
    701  TGCAATAGCA GGCATGCTGG GGATGCGGTG GGCTCTATGG CTTCTGAGGC 
    751  GGAAAGAACC AGCTGGGGCT CTAGGGGGTA TCCCCACGCG CCCTGTAGCG 
    801  GCGCATTAAG CGCGGCGGGT GTGGTGGTTA CGCGCAGCGT GACCGCTACA 
    851  CTTGCCAGCG CCCTAGCGCC CGCTCCTTTC GCTTTCTTCC CTTCCTTTCT 
    901  CGCCACGTTC GCCGGCTTTC CCCGTCAAGC TCTAAATCGG GGCATCCCTT 
    951  TAGGGTTCCG ATTTAGTGCT TTACGGCACC TCGACCCCAA AAAACTTGAT 
   1001  TAGGGTGATG GTTCACGTAG TGGGCCATCG CCCTGATAGA CGGTTTTTCG 
   1051  CCCTTTGACG TTGGAGTCCA CGTTCTTTAA TAGTGGACTC TTGTTCCAAA 
   1101  CTGGAACAAC ACTCAACCCT ATCTCGGTCT ATTCTTTTGA TTTATAAGGG 
   1151  ATTTTGGGGA TTTCGGCCTA TTGGTTAAAA AATGAGCTGA TTTAACAAAA 
   1201  ATTTAACGCG AATTAATTCT GTGGAATGTG TGTCAGTTAG GGTGTGGAAA 
   1251  GTCCCCAGGC TCCCCAGGCA GGCAGAAGTA TGCAAAGCAT GCATCTCAAT 
   1301  TAGTCAGCAA CCAGGTGTGG AAAGTCCCCA GGCTCCCCAG CAGGCAGAAG 
   1351  TATGCAAAGC ATGCATCTCA ATTAGTCAGC AACCATAGTC CCGCCCCTAA 
   1401  CTCCGCCCAT CCCGCCCCTA ACTCCGCCCA GTTCCGCCCA TTCTCCGCCC 
   1451  CATGGCTGAC TAATTTTTTT TATTTATGCA GAGGCCGAGG CCGCCTCTGC 
   1501  CTCTGAGCTA TTCCAGAAGT AGTGAGGAGG CTTTTTTGGA GGCCTAGGCT 
   1551  TTTGCAAAAA GCTCCCGGGA GCTTGTATAT CCATTTTCGG ATCTGATCAA 
   1601  GAGACAGGAT GAGGATCGTT TCGCATGATT GAACAAGATG GATTGCACGC 
   1651  AGGTTCTCCG GCCGCTTGGG TGGAGAGGCT ATTCGGCTAT GACTGGGCAC 
   1701  AACAGACAAT CGGCTGCTCT GATGCCGCCG TGTTCCGGCT GTCAGCGCAG 
   1751  GGGCGCCCGG TTCTTTTTGT CAAGACCGAC CTGTCCGGTG CCCTGAATGA 
   1801  ACTGCAGGAC GAGGCAGCGC GGCTATCGTG GCTGGCCACG ACGGGCGTTC 
   1851  CTTGCGCAGC TGTGCTCGAC GTTGTCACTG AAGCGGGAAG GGACTGGCTG 
   1901  CTATTGGGCG AAGTGCCGGG GCAGGATCTC CTGTCATCTC ACCTTGCTCC 
   1951  TGCCGAGAAA GTATCCATCA TGGCTGATGC AATGCGGCGG CTGCATACGC 
   2001  TTGATCCGGC TACCTGCCCA TTCGACCACC AAGCGAAACA TCGCATCGAG 
   2051  CGAGCACGTA CTCGGATGGA AGCCGGTCTT GTCGATCAGG ATGATCTGGA 
   2101  CGAAGAGCAT CAGGGGCTCG CGCCAGCCGA ACTGTTCGCC AGGCTCAAGG 
   2151  CGCGCATGCC CGACGGCGAG GATCTCGTCG TGACCCATGG CGATGCCTGC 
   2201  TTGCCGAATA TCATGGTGGA AAATGGCCGC TTTTCTGGAT TCATCGACTG 
   2251  TGGCCGGCTG GGTGTGGCGG ACCGCTATCA GGACATAGCG TTGGCTACCC 
   2301  GTGATATTGC TGAAGAGCTT GGCGGCGAAT GGGCTGACCG CTTCCTCGTG 
   2351  CTTTACGGTA TCGCCGCTCC CGATTCGCAG CGCATCGCCT TCTATCGCCT 
   2401  TCTTGACGAG TTCTTCTGAG CGGGACTCTG GGGTTCGAAA TGACCGACCA 
   2451  AGCGACGCCC AACCTGCCAT CACGAGATTT CGATTCCACC GCCGCCTTCT 
   2501  ATGAAAGGTT GGGCTTCGGA ATCGTTTTCC GGGACGCCGG CTGGATGATC 
   2551  CTCCAGCGCG GGGATCTCAT GCTGGAGTTC TTCGCCCACC CCAACTTGTT 
   2601  TATTGCAGCT TATAATGGTT ACAAATAAAG CAATAGCATC ACAAATTTCA 
   2651  CAAATAAAGC ATTTTTTTCA CTGCATTCTA GTTGTGGTTT GTCCAAACTC 
   2701  ATCAATGTAT CTTATCATGT CTGTATACCG TCGACCTCTA GCTAGAGCTT 
   2751  GGCGTAATCA TGGTCATAGC TGTTTCCTGT GTGAAATTGT TATCCGCTCA 
   2801  CAATTCCACA CAACATACGA GCCGGAAGCA TAAAGTGTAA AGCCTGGGGT 
   2851  GCCTAATGAG TGAGCTAACT CACATTAATT GCGTTGCGCT CACTGCCCGC 
   2901  TTTCCAGTCG GGAAACCTGT CGTGCCAGCT GCATTAATGA ATCGGCCAAC 
   2951  GCGCGGGGAG AGGCGGTTTG CGTATTGGGC GCTCTTCCGC TTCCTCGCTC 
   3001  ACTGACTCGC TGCGCTCGGT CGTTCGGCTG CGGCGAGCGG TATCAGCTCA 
   3051  CTCAAAGGCG GTAATACGGT TATCCACAGA ATCAGGGGAT AACGCAGGAA 
   3101  AGAACATGTG AGCAAAAGGC CAGCAAAAGG CCAGGAACCG TAAAAAGGCC 
   3151  GCGTTGCTGG CGTTTTTCCA TAGGCTCCGC CCCCCTGACG AGCATCACAA 
   3201  AAATCGACGC TCAAGTCAGA GGTGGCGAAA CCCGACAGGA CTATAAAGAT 
   3251  ACCAGGCGTT TCCCCCTGGA AGCTCCCTCG TGCGCTCTCC TGTTCCGACC 
   3301  CTGCCGCTTA CCGGATACCT GTCCGCCTTT CTCCCTTCGG GAAGCGTGGC 
   3351  GCTTTCTCAA TGCTCACGCT GTAGGTATCT CAGTTCGGTG TAGGTCGTTC 
   3401  GCTCCAAGCT GGGCTGTGTG CACGAACCCC CCGTTCAGCC CGACCGCTGC 
   3451  GCCTTATCCG GTAACTATCG TCTTGAGTCC AACCCGGTAA GACACGACTT 
   3501  ATCGCCACTG GCAGCAGCCA CTGGTAACAG GATTAGCAGA GCGAGGTATG 
   3551  TAGGCGGTGC TACAGAGTTC TTGAAGTGGT GGCCTAACTA CGGCTACACT 
   3601  AGAAGGACAG TATTTGGTAT CTGCGCTCTG CTGAAGCCAG TTACCTTCGG 
   3651  AAAAAGAGTT GGTAGCTCTT GATCCGGCAA ACAAACCACC GCTGGTAGCG 
   3701  GTGGTTTTTT TGTTTGCAAG CAGCAGATTA CGCGCAGAAA AAAAGGATCT 
   3751  CAAGAAGATC CTTTGATCTT TTCTACGGGG TCTGACGCTC AGTGGAACGA 
   3801  AAACTCACGT TAAGGGATTT TGGTCATGAG ATTATCAAAA AGGATCTTCA 
   3851  CCTAGATCCT TTTAAATTAA AAATGAAGTT TTAAATCAAT CTAAAGTATA 
   3901  TATGAGTAAA CTTGGTCTGA CAGTTACCAA TGCTTAATCA GTGAGGCACC 
   3951  TATCTCAGCG ATCTGTCTAT TTCGTTCATC CATAGTTGCC TGACTCCCCG 
   4001  TCGTGTAGAT AACTACGATA CGGGAGGGCT TACCATCTGG CCCCAGTGCT 
   4051  GCAATGATAC CGCGAGACCC ACGCTCACCG GCTCCAGATT TATCAGCAAT 
   4101  AAACCAGCCA GCCGGAAGGG CCGAGCGCAG AAGTGGTCCT GCAACTTTAT 
   4151  CCGCCTCCAT CCAGTCTATT AATTGTTGCC GGGAAGCTAG AGTAAGTAGT 
   4201  TCGCCAGTTA ATAGTTTGCG CAACGTTGTT GCCATTGCTA CAGGCATCGT 
   4251  GGTGTCACGC TCGTCGTTTG GTATGGCTTC ATTCAGCTCC GGTTCCCAAC 
   4301  GATCAAGGCG AGTTACATGA TCCCCCATGT TGTGCAAAAA AGCGGTTAGC 
   4351  TCCTTCGGTC CTCCGATCGT TGTCAGAAGT AAGTTGGCCG CAGTGTTATC 
   4401  ACTCATGGTT ATGGCAGCAC TGCATAATTC TCTTACTGTC ATGCCATCCG 
   4451  TAAGATGCTT TTCTGTGACT GGTGAGTACT CAACCAAGTC ATTCTGAGAA 
   4501  TAGTGTATGC GGCGACCGAG TTGCTCTTGC CCGGCGTCAA TACGGGATAA 
   4551  TACCGCGCCA CATAGCAGAA CTTTAAAAGT GCTCATCATT GGAAAACGTT 
   4601  CTTCGGGGCG AAAACTCTCA AGGATCTTAC CGCTGTTGAG ATCCAGTTCG 
   4651  ATGTAACCCA CTCGTGCACC CAACTGATCT TCAGCATCTT TTACTTTCAC 
   4701  CAGCGTTTCT GGGTGAGCAA AAACAGGAAG GCAAAATGCC GCAAAAAAGG 
   4751  GAATAAGGGC GACACGGAAA TGTTGAATAC TCATACTCTT CCTTTTTCAA 
   4801  TATTATTGAA GCATTTATCA GGGTTATTGT CTCATGAGCG GATACATATT 
   4851  TGAATGTATT TAGAAAAATA AACAAATAGG GGTTCCGCGC ACATTTCCCC 
   4901  GAAAAGTGCC ACCTGACGTC
  1. Verhaegen, M & Christopoulos, TK (2002) Bacterial expression of in vivo-biotinylated aequorin for direct application to bioluminometric hybridization assays. Anal. Biochem. 306 314-22 PubMed
  2. Tannous, BA et al. (2005) Codon-optimized Gaussia luciferase cDNA for mammalian gene expression in culture and in vivo. Mol. Ther. 11 435-43 PubMed
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