pNEBR-X1Hygro

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At a Glance

pNEBR-X1Hygro, Image provided by NEB

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Type

Cloning

Origin of Replication

pUC19

Copy #
Markers

Ampicillin, Hygromicin

Link to Sequence

NEB

Features

SV40 TT region
5X GAL4 RE
MCS
SV40 polyA region

Accession Number


edit table

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Notes

Translation initiation signals must be included in the cloned insert DNA as none are present in this vector. A standard plasmid purification procedure is used to derive pNEBR-X1 Vector from E. coli strain ER2272.

History

pNEBR-X1Hygro is a plasmid cloning vector that can replicate in E.coli and capable of stable transfection of mammalian cells. It is designed for inducible expression of recombinant proteins in mammalian cells.

Sources

New England Biolabs

References

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[1] [2] [3]

Sequence

      1  GTTCTAGAGG ATCTTTGTGA AGGAACCTTA CTTCTGTGGT GTGACATAAT 
     51  TGGACAAACT ACCTACAGAG ATTTAAAGCT CTAAGGTAAA TATAAAATTT 
    101  TTAAGTGTAT AATGTGTTAA ACTACTGATT CTAATTGTTT GTGTATTTTA 
    151  GATTCCAACC TATGGAACTT ATGAATGGGA GCAGTGGTGG AATGCCTTTA 
    201  ATGAGGAAAA CCTGTTTTGC TCAGAAGAAA TGCCATCTAG TGATGATGAG 
    251  GCTACTGCTG ACTCTCAACA TTCTACTCTC AAAAGAAGAG AAAGGTAGAG 
    301  ACCCAAGGAC TTTCCTTCAG AATTGCTAAG TTTTTTGAGT CATGCTGTGT 
    351  TTAGTAATAG AACTCTTGCT TGCTTTGCTA TTTACAACCA CAAAGGAAAA 
    401  AGCTGCACTG CTATACAAGA AAATTATGGA AAAATATTCT GTAACCTTTA 
    451  TAAGTAGGCA TAACAGTTAT AATCATAACA TACTGTTTTT TCTTACTCCA 
    501  CACAGGCATA GAGTGTCTGC TATTAATAAC TATGCTCAAA AATTGTGTAC 
    551  CTTTAGCTTT TTAATTTGTA AAGGGGTTAA TAAGGAATAT TTGATGTATA 
    601  GTGCCTTGAC TAGAGATCAT AATCAGCCAT ACCACATTTG TAGAGGTTTT 
    651  ACTTGCTTTA AAAAACCTCC CACACCTCCC CCTGAACCTG AAACATAAAA 
    701  TGAATGCAAT TGTTGTTGTT AACTTGTTTA TTGCAGCTTA TAATGGTTAC 
    751  AAATAAAGCA ATAGCATCAC AAATTTCACA AATAAAGCAT TTTTTTCACT 
    801  GCATTCTAGT TGTGGTTTGT CCAAACTCAT CAATGTATCT TATCATGTCT 
    851  GGATCAACTA CGTCAGGTGG CACTTTTCGG GGAAATGTGC GCGGAACCCC 
    901  TATTTGTTTA TTTTTCTAAA TACATTCAAA TATGTATCCG CTCATGAGAC 
    951  AATAACCCTG ATAAATGCTT CAATAATATT GAAAAAGGAA GAGTATGAGT 
   1001  ATTCAACATT TCCGTGTCGC CCTTATTCCC TTTTTTGCGG CATTTTGCCT 
   1051  TCCTGTTTTT GCTCACCCAG AAACGCTGGT GAAAGTAAAA GATGCTGAAG 
   1101  ATCAGTTGGG TGCACGAGTG GGTTACATCG AACTGGATCT CAACAGCGGT 
   1151  AAGATCCTTG AGAGTTTTCG CCCCGAAGAA CGTTCTCCAA TGATGAGCAC 
   1201  TTTTAAAGTT CTGCTATGTG GCGCGGTATT ATCCCGTGTT GACGCCGGGC 
   1251  AAGAGCAACT CGGTCGCCGC ATACACTATT CTCAGAATGA CTTGGTTGAG 
   1301  TACTCACCAG TCACAGAAAA GCATCTTACG GATGGCATGA CAGTAAGAGA 
   1351  ATTATGCAGT GCTGCCATAA CCATGAGTGA TAACACTGCG GCCAACTTAC 
   1401  TTCTGACAAC GATCGGAGGA CCGAAGGAGC TAACCGCTTT TTTGCACAAC 
   1451  ATGGGGGATC ATGTAACTCG CCTTGATCGT TGGGAACCGG AGCTGAATGA 
   1501  AGCCATACCA AACGACGAGC GTGACACCAC GATGCCTGTA GCAATGGCAA 
   1551  CAACGTTGCG CAAACTATTA ACTGGCGAAC TACTTACTCT AGCTTCCCGG 
   1601  CAACAATTAA TAGACTGGAT GGAGGCGGAT AAAGTTGCAG GACCACTTCT 
   1651  GCGCTCGGCC CTTCCGGCTG GCTGGTTTAT TGCTGATAAA TCTGGAGCCG 
   1701  GTGAGCGTGG GTCTCGCGGT ATCATTGCAG CACTGGGGCC AGATGGTAAG 
   1751  CCCTCCCGTA TCGTAGTTAT CTACACGACG GGGAGTCAGG CAACTATGGA 
   1801  TGAACGAAAT AGACAGATCG CTGAGATAGG TGCCTCACTG ATTAAGCATT 
   1851  GGTAACTGTC AGACCAAGTT TACTCATATA TACTTTAGAT TGATTTACCC 
   1901  CGGTTGATAA TCAGAAAAGC CCCAAAAACA GGAAGATTGT ATAAGCAAAT 
   1951  ATTCATGTTC TTTCCTGCGT TATCCCCTGA TTCTGTGGAT AACCGTATTA 
   2001  CCGCCTTTGA GTGAGCTGAT ACCGCTCGCC GCAGCCGAAC GACCGAGCGC 
   2051  AGCGAGTCAG TGAGCGAGGA AGCGGAAGAG CGCCTGATGC GGTATTTTCT 
   2101  CCTTACGCAT CTGTGCGGTA TTTCACACCG CACTCTCTCA TATGCGCCAG 
   2151  AAATCCGCGC GGTGGTTTTT GGGGGTCGGG GGTGTTTGGC AGCCACAGAC 
   2201  GCCCGGTGTT CGTGTCGCGC CAGTACATGC GGTCCATGCC CAGGCCATCC 
   2251  AAAAACCATG GGTCTGTCTG CTCAGTCCAG TCGTGGACCT GACCCCACGC 
   2301  AACGCCCAAA ATAATAACCC CCACGAACCA TAAACCATTC CCCATGGGGG 
   2351  ACCCCGTCCC TAACCCACGG GGCCAGTGGC TATGGCAGGG CCTGCCGCCC 
   2401  CGACGTTGGC TGCGAGCCCT GGGCCTTCAC CCGAACTTGG GGGGTGGGGT 
   2451  GGGGAAAAGG AAGAAACGCG GGCGTATTGG CCCCAATGGG GTCTCGGTGG 
   2501  GGTATCGACA GAGTGCCAGC CCTGGGACCG AACCCCGCGT TTATGAACAA 
   2551  ACGACCCAAC ACCCGTGCGT TTTATTCTGT CTTTTTATTG CCGTCATAGC 
   2601  GCGGGTTCCT TCCGGTATTG TCTCCTTCCG TGTTTCAGTT AGCCTCCCCC 
   2651  ATCTCCCGAT CCGGACGAGT GCTGGGGCGT CGGTTTCCAC TATCGGCGAG 
   2701  TACTTCTACA CAGCCATCGG TCCAGACGGC CGCGCTTCTG CGGGCGATTT 
   2751  GTGTACGCCC GACAGTCCCG GCTCCGGATC GGACGATTGC GTCGCATCGA 
   2801  CCCTGCGCCC AAGCTGCATC ATCGAAATTG CCGTCAACCA AGCTCTGATA 
   2851  GAGTTGGTCA AGACCAATGC GGAGCATATA CGCCCGGAGC CGCGGCGATC 
   2901  CTGCAAGCTC CGGATGCCTC CGCTCGAAGT AGCGCGTCTG CTGCTCCATA 
   2951  CAAGCCAACC ACGGCCTCCA GAAGAAGATG TTGGCGACCT CGTATTGGGA 
   3001  ATCCCCGAAC ATCGCCTCGC TCCAGTCAAT GACCGCTGTT ATGCGGCCAT 
   3051  TGTCCGTCAG GACATTGTTG GAGCCGAAAT CCGCGTGCAC GAGGTGCCGG 
   3101  ACTTCGGGGC AGTCCTCGGC CCAAAGCATC AGCTCATCGA GAGCCTGCGC 
   3151  GACGGACGCA CTGACGGTGT CGTCCATCAC AGTTTGCCAG TGATACACAT 
   3201  GGGGATCAGC AATCGCGCAT ATGAAATCAC GCCATGTAGT GTATTGACCG 
   3251  ATTCCTTGCG GTCCGAATGG GCCGAACCCG CTCGTCTGGC TAAGATCGGC 
   3301  CGCAGCGATC GCATCCATGG CCTCCGCGAC CGGCTGCAGA ACAGCGGGCA 
   3351  GTTCGGTTTC AGGCAGGTCT TGCAACGTGA CACCCTGTGC ACGGCGGGAG 
   3401  ATGCAATAGG TCAGGCTCTC GCTGAATTCC CCAATGTCAA GCACTTCCGG 
   3451  AATCGGGAGC GCGGCCGATG CAAAGTGCCG ATAAACATAA CGATCTTTGT 
   3501  AGAAACCATC GGCGCAGCTA TTTACCCGCA GGACATATCC ACGCCCTCCT 
   3551  ACATCGAAGC TGAAAGCACG AGATTCTTCG CCCTCCGAGA GCTGCATCAG 
   3601  GTCGGAGACG CTGTCGAACT TTTCGATCAG AAACTTCTCG ACAGACGTCG 
   3651  CGGTGAGTTC AGGCTTTTTC ATATCAAGCT GATCTGCGGC ACGCTGTTGA
   3701  CGCTGTTAAG CGGGTCGCTG CAGGGTCGCT CGGTGTTCGA GGCCACACGC 
   3751  GTCACCTTAA TATGCGAAGT GGACCTCGGA CCGCGCCGCC CCGACTGCAT 
   3801  CTGCGTGTTC GAATTCGCCA ATGACAAGAC GCTGGGCGGG GTTTGTGTCA 
   3851  TCATAGAACT AAAGACATGC AAATATATTT CTTCAGGGGA CACCGCCAGC 
   3901  AAACGCGAGC AACGGGCCAC GGGGATGAAG CAGTAAAATT GTAAACGTTA 
   3951  ATATTTTGTT AAAATTCGCG TTAAATTTTT GTTAAATCAG CTCATTTTTT 
   4001  AACCAATAGG CCGAAATCGG CAAAATCCCT TATAAATCAA AAGAATAGCC 
   4051  CGAGATAGGG TTGAGTGTTG TTCCAGTTTG GAACAAGAGT CCACTATTAA 
   4101  AGAACGTGGA CTCCAACGTC AAAGGGCGAA AAACCGTCTA TCAGGGCGAT 
   4151  GGCCCACTAC GTGAACCATC ACCCAAATCA AGTTTTTTGG GGTCGAGGTG 
   4201  CCGTAAAGCA CTAAATCGGA ACCCTAAAGG GAGCCCCCGA TTTAGAGCTT 
   4251  GACGGGGAAA GCGAACGTGG CGAGAAAGGA AGGGAAGAAA GCGAAAGGAG 
   4301  CGGGCGCTAG GGCGCTGGCA AGTGTAGCGG TCACGCTGCG CGTAACCACC 
   4351  ACACCCGCCG CGCTTAATGC GCCGCTACAG GGCGCGTAAA AGGATCTAGG 
   4401  TGAAGATCCT TTTTGATAAT CTCATGACCA AAATCCCTTA ACGTGAGTTT 
   4451  TCGTTCCACT GAGCGTCAGA CCCCGTAGAA AAGATCAAAG GATCTTCTTG 
   4501  AGATCCTTTT TTTCTGCGCG TAATCTGCTG CTTGCAAACA AAAAAACCAC 
   4551  CGCTACCAGC GGTGGTTTGT TTGCCGGATC AAGAGCTACC AACTCTTTTT 
   4601  CCGAAGGTAA CTGGCTTCAG CAGAGCGCAG ATACCAAATA CTGTTCTTCT 
   4651  AGTGTAGCCG TAGTTAGGCC ACCACTTCAA GAACTCTGTA GCACCGCCTA 
   4701  CATACCTCGC TCTGCTAATC CTGTTACCAG TGGCTGCTGC CAGTGGCGAT 
   4751  AAGTCGTGTC TTACCGGGTT GGACTCAAGA CGATAGTTAC CGGATAAGGC 
   4801  GCAGCGGTCG GGCTGAACGG GGGGTTCGTG CACACAGCCC AGCTTGGAGC 
   4851  GAACGACCTA CACCGAACTG AGATACCTAC AGCGTGAGCT ATGAGAAAGC 
   4901  GCCACGCTTC CCGAAGGGAG AAAGGCGGAC AGGTATCCGG TAAGCGGCAG 
   4951  GGTCGGAACA GGAGAGCGCA CGAGGGAGCT TCCAGGGGGA AACGCCTGGT 
   5001  ATCTTTATAG TCCTGTCGGG TTTCGCCACC TCTGACTTGA GCGTCGATTT 
   5051  TTGTGATGCT CGTCAGGGGG GCGGAGCCTA TGGAAAAACG CCAGCAACGC 
   5101  GGCCTTTTTA CGGTTCCTGG CCTTTTGCTG GCCTTTTGCT CACATGTATC 
   5151  AGCCATATCA CATTTGTAGA GGTTTTACTT GCTTTAAAAA ACCTCCCACA 
   5201  CCTCCCCCTG AACCTGAAAC ATAAAATGAA TGCAATTGTT GTTAACTTGT 
   5251  TTATTGCAGC TTATAATGGT TACAAATAAA GCAATAGCAT CACAAATTTC 
   5301  ACAAATAAAG CATTTTTCAC TGCATTCTAG TTGTGGTTTG TCCAAACTCA 
   5351  TCAATGTATC TTATCATGTC TGGATCAGCC ATATCACATT TGTAGAGGTT 
   5401  TTACTTGCTT TAAAAAACCT CCCACACCTC CCCCTGAACC TGAAACATAA 
   5451  AATGAATGCA ATTGTTGTTA ACTTGTTTAT TGCAGCTTAT AATGGTTACA 
   5501  AATAAAGCAA TAGCATCACA AATTTCACAA ATAAAGCATT TTTTTCACTG 
   5551  CATTCTAGTT GTGGTTTGTC CAAACTCATC AATGTATCTT ATCATGTCTG 
   5601  CCATGTAATG TGAGTTAGCT CACTCATTAG GCACCCCAGG CTTTACACTT 
   5651  TATGCTTCCG GCTCGTATGT TGTGTGGAAT TGTGAGCGGA TAACAATTTC 
   5701  ACACAGGAAA CAGCTATGAC CATGATTACG CCAAGCTACG GGCGGAGTAC 
   5751  TGTCCTCCGA GCGGAGTACT GTCCTCCGAG CGGAGTACTG TCCTCCGAGC 
   5801  GGAGTACTGT CCTCCGAGCG GAGTACTGTC CTCCGAGCGG AGACTCTAGA 
   5851  GGGTATATAA TGGGGGCCGT CAGCTACTAC CAGAGCTCAT GGGCCCGTGC 
   5901  AATTGAAGCC GGCTGGCGCC AAGCTTCTCT GCAGGATATC TGGATCCACG 
   5951  AATTCTTAAT TAAGGCCGGC CTCGAGCGGC CGCTAGCGAT CGCGGCGCGC 
   6001  CACGCGTCTC CGGATGTACA GGCATGCGTC GACCCTCTAG TCAAGGCCTA 
   6051  TAGTGAGTCG TATTACGGAC TGGCCGTCGT TTTACAACGT CGTGACTGGG 
   6101  AAAACCCTGG CGTTACCCAA CTTAATCGCC TTGCAGCACA TCCCCCTTTC 
   6151  GCCAGCTGGC GTAATAGCGA AGAGGCCCGC ACCGATCGCC CTTCCCAACA 
   6201  GTTGCGCAGC CTGAATGGCG AATGGCGCTT CGCTTGGTAA TAAAGCCCGC 
   6251  TTCGGCGGGC TTTTTTTT
  1. Palli, SR et al. (2003) Improved ecdysone receptor-based inducible gene regulation system. Eur. J. Biochem. 270 1308-15 PubMed
  2. Kumar, MB et al. (2004) Highly flexible ligand binding pocket of ecdysone receptor: a single amino acid change leads to discrimination between two groups of nonsteroidal ecdysone agonists. J. Biol. Chem. 279 27211-8 PubMed
  3. Verhaegent, M & Christopoulos, TK (2002) Recombinant Gaussia luciferase. Overexpression, purification, and analytical application of a bioluminescent reporter for DNA hybridization. Anal. Chem. 74 4378-85 PubMed
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