>gnl|uv|L05083.1:1-447 Cloning vector (pRL278) for sacB-mediated positive selection for double recombinants in gram-negative bacteria
GCTGGCTGTTTTACGCGTATGACAGGCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTAT
GGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGG
CCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGC
GGCATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGT
GGAGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACC
AAAAGGTTAGGAATACGGTTAGCCATTTGCCTGCTTTTATATAGTTCATATGGGATTCACCTTTATGTTG
ATAAGAAATAAAAGAAAATGCCAATAG
>gnl|uv|L05083.1:5894-5941-49 Cloning vector (pRL278) for sacB-mediated positive selection for double recombinants in gram-negative bacteria
TGCATGTGTCAGAGGTTTTCACCGTCATCACCGAAACGCGCGAGGCAGGCTGGCTGTTTTACGCGTATGA
CAGGCTCCGGAAGACGGTTGTTGCGCA
>gnl|uv|U87107.1:8348-8840-49 Cloning vector pAL-F insertion sequence IS1 galactokinase (galK), aminoglycoside 3'-phosphotransferase (kn), beta-galactosidase (lacZ), small ribosomal protein and beta-lactamase (Ap) genes, complete cds
TCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGACTGTCATACGCGTAAAACAG
CCAGCGCTGGCGCGATTTAGCCCCGACATAGCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCA
CTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAGTGACGTAAAATCGTGTTGAG
GCCAACGCCCATAATGCGGGCTGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGG
TGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGAT
AGCGCTGATGTCCGGCGGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCT
GATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATC
ACCCAATTACTGCAATGCCCTCGTAATTAAGTGAATTTACAATATCGTCCTG
>gnl|uv|U09365.1:1-1365 Broad host range plasmid Bin 19
CCGGGCTGGTTGCCCTCGCCGCTGGGCTGGCGGCCGTCTATGGCCCTGCAAACGCGCCAGAAACGCCGTC
GAAGCCGTGTGCGAGACACCGCGGCCGCCGGCGTTGTGGATACCTCGCGGAAAACTTGGCCCTCACTGAC
AGATGAGGGGCGGACGTTGACACTTGAGGGGCCGACTCACCCGGCGCGGCGTTGACAGATGAGGGGCAGG
CTCGATTTCGGCCGGCGACGTGGAGCTGGCCAGCCTCGCAAATCGGCGAAAACGCCTGATTTTACGCGAG
TTTCCCACAGATGATGTGGACAAGCCTGGGGATAAGTGCCCTGCGGTATTGACACTTGAGGGGCGCGACT
ACTGACAGATGAGGGGCGCGATCCTTGACACTTGAGGGGCAGAGTGCTGACAGATGAGGGGCGCACCTAT
TGACATTTGAGGGGCTGTCCACAGGCAGAAAATCCAGCATTTGCAAGGGTTTCCGCCCGTTTTTCGGCCA
CCGCTAACCTGTCTTTTAACCTGCTTTTAAACCAATATTTATAAACCTTGTTTTTAACCAGGGCTGCGCC
CTGTGCGCGTGACCGCGCACGCCGAAGGGGGGTGCCCCCCCTTCTCGAACCCTCCCGGCCCGCTAACGCG
GGCCTCCCATCCCCCCAGGGGCTGCGCCCCTCGGCCGCGAACGGCCTCACCCCAAAAATGGCAGCGCTGG
CAGTCCTTGCCATTGCCGGGATCGGGGCAGTAACGGGATGGGCGATCAGCCCGAGCGCGACGCCCGGAAG
CATTGACGTGCCGCAGGTGCTGGCATCGACATTCAGCGACCAGGTGCCGGGCAGTGAGGGCGGCGGCCTG
GGTGGCGGCCTGCCCTTCACTTCGGCCGTCGGGGCATTCACGGACTTCATGGCGGGGCCGGCAATTTTTA
CCTTGGGCATTCTTGGCATAGTGGTCGCGGGTGCCGTGCTCGTGTTCGGGGGTGCGATAAACCCAGCGAA
CCATTTGAGGTGATAGGTAAGATTATACCGAGGTATGAAAACGAGAATTGGACCTTTACAGAATTACTCT
ATGAAGCGCCATATTTAAAAAGCTACCAAGACGAAGAGGATGAAGAGGATGAGGAGGCAGATTGCCTTGA
ATATATTGACAATACTGATAAGATAATATATCTTTTATATAGAAGATATCGCCGTATGTAAGGATTTCAG
GGGGCAAGGCATAGGCAGCGCGCTTATCAATATATCTATAGAATGGGCAAAGCATAAAAACTTGCATGGA
CTAATGCTTGAAACCCAGGACAATAACCTTATAGCTTGTAAATTCTATCATAATTGGGTAATGACTCCAA
CTTATTGATAGTGTTTTATGTTCAGATAATGCCCG
>gnl|uv|U09365.1:1969-6239 Broad host range plasmid Bin 19
CGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGACACAGAAGCCACTGGAGCACC
TCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCCATAATTGTGGTTTCAAAATCGGC
TCCGTCGATACTATGTTATACGCCAACTTTGAAAACAACTTTGAAAAAGCTGTTTTCTGGTATTTAAGGT
TTTAGAATGCAAGGAACAGTGAATTGGAGTTCGTCTTGTTATAATTAGCTTCTTGGGGTATCTTTAAATA
CTGTAGAAAAGAGGAAGGAAATAATAAATGGCTAAAATGAGAATATCACCGGAATTGAAAAAACTGATCG
AAAAATACCGCTGCGTAAAAGATACGGAAGGAATGTCTCCTGCTAAGGTATATAAGCTGGTGGGAGAAAA
TGAAAACCTATATTTAAAAATGACGGACAGCCGGTATAAAGGGACCACCTATGATGTGGAACGGGAAAAG
GACATGATGCTATGGCTGGAAGGAAAGCTGCCTGTTCCAAAGGTCCTGCACTTTGAACGGCATGATGGCT
GGAGCAATCTGCTCATGAGTGAGGCCGATGGCGTCCTTTGCTCGGAAGAGTATGAAGATGAACAAAGCCC
TGAAAAGATTATCGAGCTGTATGCGGAGTGCATCAGGCTCTTTCACTCCATCGACATATCGGATTGTCCC
TATACGAATAGCTTAGACAGCCGCTTAGCCGAATTGGATTACTTACTGAATAACGATCTGGCCGATGTGG
ATTGCGAAAACTGGGAAGAAGACACTCCATTTAAAGATCCGCGCGAGCTGTATGATTTTTTAAAGACGGA
AAAGCCCGAAGAGGAACTTGTCTTTTCCCACGGCGACCTGGGAGACAGCAACATCTTTGTGAAAGATGGC
AAAGTAAGTGGCTTTATTGATCTTGGGAGAAGCGGCAGGGCGGACAAGTGGTATGACATTGCCTTCTGCG
TCCGGTCGATCAGGGAGGATATCGGGGAAGAACAGTATGTCGAGCTATTTTTTGACTTACTGGGGATCAA
GCCTGATTGGGAGAAAATAAAATATTATATTTTACTGGATGAATTGTTTTAGTACCTAGATGTGGCGCAA
CGATGCCGGCGACAAGCAGGAGCGCACCGACTTCTTCCGCATCAAGTGTTTTGGCTCTCAGGCCGAGGCC
CACGGCAAGTATTTGGGCAAGGGGTCGCTGGTATTCGTGCAGGGCAAGATTCGGAATACCAAGTACGAGA
AGGACGGCCAGACGGTCTACGGGACCGACTTCATTGCCGATAAGGTGGATTATCTGGACACCAAGGCACC
AGGCGGGTCAAATCAGGAATAAGGGCACATTGCCCCGGCGTGAGTCGGGGCAATCCCGCAAGGAGGGTGA
ATGAATCGGACGTTTGACCGGAAGGCATACAGGCAAGAACTGATCGACGCGGGGTTTTCCGCCGAGGATG
CCGAAACCATCGCAAGCCGCACCGTCATGCGTGCGCCCCGCGAAACCTTCCAGTCCGTCGGCTCGATGGT
CCAGCAAGCTACGGCCAAGATCGAGCGCGACAGCGTGCAACTGGCTCCCCCTGCCCTGCCCGCGCCATCG
GCCGCCGTGGAGCGTTCGCGTCGTCTCGAACAGGAGGCGGCAGGTTTGGCGAAGTCGATGACCATCGACA
CGCGAGGAACTATGACGACCAAGAAGCGAAAAACCGCCGGCGAGGACCTGGCAAAACAGGTCAGCGAGGC
CAAGCAGGCCGCGTTGCTGAAACACACGAAGCAGCAGATCAAGGAAATGCAGCTTTCCTTGTTCGATATT
GCGCCGTGGCCGGACACGATGCGAGCGATGCCAAACGACACGGCCCGCTCTGCCCTGTTCACCACGCGCA
ACAAGAAAATCCCGCGCGAGGCGCTGCAAAACAAGGTCATTTTCCACGTCAACAAGGACGTGAAGATCAC
CTACACCGGCGTCGAGCTGCGGGCCGACGATGACGAACTGGTGTGGCAGCAGGTGTTGGAGTACGCGAAG
CGCACCCCTATCGGCGAGCCGATCACCTTCACGTTCTACGAGCTTTGCCAGGACCTGGGCTGGTCGATCA
ATGGCCGGTATTACACGAAGGCCGAGGAATGCCTGTCGCGCCTACAGGCGACGGCGATGGGCTTCACGTC
CGACCGCGTTGGGCACCTGGAATCGGTGTCGCTGCTGCACCGCTTCCGCGTCCTGGACCGTGGCAAGAAA
ACGTCCCGTTGCCAGGTCCTGATCGACGAGGAAATCGTCGTGCTGTTTGCTGGCGACCACTACACGAAAT
TCATATGGGAGAAGTACCGCAAGCTGTCGCCGACGGCCCGACGGATGTTCGACTATTTCAGCTCGCACCG
GGAGCCGTACCCGCTCAAGCTGGAAACCTTCCGCCTCATGTGCGGATCGGATTCCACCCGCGTGAAGAAG
TGGCGCGAGCAGGTCGGCGAAGCCTGCGAAGAGTTGCGAGGCAGCGGCCTGGTGGAACACGCCTGGGTCA
ATGATGACCTGGTGCATTGCAAACGCTAGGGCCTTGTGGGGTCAGTTCCGGCTGGGGGTTCAGCAGCCAG
CGCTTTACTGGCATTTCAGGAACAAGCGGGCACTGCTCGACGCACTTGCTTCGCTCAGTATCGCTCGGGA
CGCACGGCGCGCTCTACGAACTGCCGATAAACAGAGGATTAAAATTGACAATTGTGATTAAGGCTCAGAT
TCGACGGCTTGGAGCGGCCGACGTGCAGGATTTCCGCGAGATCCGATTGTCGGCCCTGAAGAAAGCTCCA
GAGATGTTCGGGTCCGTTTACGAGCACGAGGAGAAAAAGCCCATGGAGGCGTTCGCTGAACGGTTGCGAG
ATGCCGTGGCATTCGGCGCCTACATCGACGGCGAGATCATTGGGCTGTCGGTCTTCAAACAGGAGGACGG
CCCCAAGGACGCTCACAAGGCGCATCTGTCCGGCGTTTTCGTGGAGCCCGAACAGCGAGGCCGAGGGGTC
GCCGGTATGCTGCTGCGGGCGTTGCCGGCGGGTTTATTGCTCGTGATGATCGTCCGACAGATTCCAACGG
GAATCTGGTGGATGCGCATCTTCATCCTCGGCGCACTTAATATTTCGCTATTCTGGAGCTTGTTGTTTAT
TTCGGTCTACCGCCTGCCGGGCGGGGTCGCGGCGACGGTAGGCGCTGTGCAGCCGCTGATGGTCGTGTTC
ATCTCTGCCGCTCTGCTAGGTAGCCCGATACGATTGATGGCGGTCCTGGGGGCTATTTGCGGAACTGCGG
GCGTGGCGCTGTTGGTGTTGACACCAAACGCAGCGCTAGATCCTGTCGGCGTCGCAGCGGGCCTGGCGGG
GGCGGTTTCCATGGCGTTCGGAACCGTGCTGACCCGCAAGTGGCAACCTCCCGTGCCTCTGCTCACCTTT
ACCGCCTGGCAACTGGCGGCCGGAGGACTTCTGCTCGTTCCAGTAGCTTTAGTGTTTGATCCGCCAATCC
CGATGCCTACAGGAACCAATGTTCTCGGCCTGGCGTGGCTCGGCCTGATCGGAGCGGGTTTAACCTACTT
CCTTTGGTTCCGGGGGATCTCGCGACTCGAACCTACAGTTGTTTCCTTACTGGGCTTTCTCAGCCCCAGA
TCTGGGGTCGATCAGCCGGGGATGCATCAGGCCGACAGTCGGAACTTCGGGTCCCCGACCTGTACCATTC
GGTGAGCAATGGATAGGGGAGTTGATATCGTCAACGTTCACTTCTAAAGAAATAGCGCCACTCAGCTTCC
TCAGCGGCTTTATCCAGCGATTTCCTATTATGTCGGCATAGTTCTCAAGATCGACAGCCTGTCACGGTTA
AGCGAGAAATGAATAAGAAGGCTGATAATTCGGATCTCTGCGAGGGAGATGATATTTGATCACAGGCAGC
AACGCTCTGTCATCGTTACAATCAACATGCTACCCTCCGCGAGATCATCCGTGTTTCAAACCCGGCAGCT
TAGTTGCCGTTCTTCCGAATAGCATCGGTAACATGAGCAAAGTCTGCCGCCTTACAACGGCTCTCCCGCT
GACGCCGTCCCGGACTGATGGGCTGCCTGTATCGAGTGGTGATTTTGTGCCGAGCTGCCGGTCGGGGAGC
TGTTGGCTGGCTGGTGGCAGGATATATTGTGGTGTAAACAAATTGACGCTTAGACAACTTAATAACACAT
TGCGGACGTTTTTAATGTACTGGGGTGGTTTTTCTTTTCACCAGTGAGACGGGCAACAGCTGATTGCCCT
T
>gnl|uv|U75991.1:10205-10303 Cloning vector pBACe4
TTTTCCTCGCTTCCGGGCTGTCATCATTAAACTGTGCAATGGCGATAGCTTTCGTCATTTCATGACCAGC
GTTTATGCACTGGTTAAGTGTTTCCATGA
>gnl|uv|M64731.1:380-490 Cloning vector pSU2718 DNA
GGATTTATTTATTCTGCGAAGTGATCTTCCGTCACAGGTATTTATTCGGCGCAAAGTGCGTCGGGTGATG
CTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGG
>gnl|uv|M64731.1:536-628 Cloning vector pSU2718 DNA
TACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCCATTCGCCATTCAGGCTGCGC
AACTGTTGGGAAGGGCGATCGGT
>gnl|uv|X06403.1:538-626 Cloning vector pACYC184
CTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTAGCGGAGTGTATACTGGCTTAC
TATGTTGGCACTGATGAGG
>gnl|uv|U13761.1:763-860 Cloning vector pDO192
CTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACATCGTCCATTCCGACAGCATC
GCCAGTCACTATGGCGTGCTGCTAGCTT
>gnl|uv|U13761.1:6428-6524 Cloning vector pDO192
TTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGACTGTCATACGCGCATTCCCTGTTCCTGCCAGTT
CTGAATGGTACGGATACTCGCACCGAA
>gnl|uv|L08817.1:8943-9038 pAA3.7X cloning vector
CTACCGGAAGCAGTGTGACCGTGTGCTTCTCAAATGCCTGAGGCCAGTTGGTAATGACTCCAACTTATTG
ATAGTGTTTTATGTTCAGATAATGCC
>gnl|uv|L08817.1:9536-9583-49 pAA3.7X cloning vector
TGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGGCCTTTTGAAAAGCAAGCATA
AAAGATCAACAGTCGGTACGGCTGACC
>gnl|uv|U03463.1:764-939 Cloning vector pDO6
TCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCGGCCTCTTCATCGGGAATGCG
CGCGACCTTCAGCATCGCCGGCATGTCCCCCTGGCGGACGGGAAGTATCCAGCTCGATCAGGCAGCAGCT
GAACCAACTCGCGAGGGGATCGAGCCCGGGGTGGGC
>gnl|uv|U03463.1:8267-8360 Cloning vector pDO6
TTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGTACGCATGACCGGCGGCGGAT
TTGGCGGCTGTATCGTCGCGCTGA
>gnl|uv|U03462.1:8530-8621 Cloning vector pDO2
TCACCGAATACGTGCGCAACAACCGTCTTCCGGAGACTGTCATACGCGTGCGTCATATACTGACTGAAAA
CGCCCGCACCGTTGAAGCTGCC
>gnl|uv|U03460.1:842-1010 Cloning vector pDO184
TCAGCATCGCCGGCATGTCCCCCTGGCGGACGGGAAGTATCCAGCTCGACATCGTCTGCGCGGAAATGGA
CGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTTTTGCCACGATCGG
GTCCAGTTCATGCGCAACAGCGTTGAACT
>gnl|uv|U03461.1:5370-5459 Cloning vector pDO19
CCGCAGCTTAGACCAAAACAGGAAGCTATGGGCCTGCTTAGGTGACGTCATCGTCTGCGCGGAAATGGAC
GAACAGTGGGGCTATGTCGG
>gnl|uv|X53938.1:1293-1389 Plasmid vector pSU 36
GCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGGGGGTGGGCGAAGAACTCCAG
CATGAGATCCCCGCGCTGGAGGATCAT
>gnl|uv|U55760.1:1-2749 Baculovirus transfer vector pBacPAK-His3, beta-lactamase (bla) gene, complete cds
TCGACATGCTGAACAACAAGATTAATATGCCTCCGTGTATAAAAAAAATATTGAACGATTTGAAAGAAAA
CAATGTACCGCGCGGCGGTATGTACAGGAAGAGGTTTATACTAAACTGTTACATTGCAAACGTGGTTTCG
TGTGCCAAGTGTGAAAACCGATGTTTAATCAAGGCTCTGACGCATTTCTACAACCACGACTCCAAGTGTG
TCGGTGAAGTCATGCACCTTTTAATCAAATCCCAAGATGTGTATAAACCACCAAACTGCCAAAAAATGAA
AACTGTCGATAAGCTCTGTCCGTTTGCTGGCAACTGCAAGGGTCTCAATCCTATTTGTAATTATTGAATA
ATAAAACAATTATAAATGCTAAATTTGTTTTTTATTAACGATACAAACCAAACGCAACAAGAACATTTGT
AGTATTATCTATAATTGAAAAAGCGTAGTTATAATCGCTGAGGTAATATTTAAAATCATTTTCAAATGAT
TCACAGTTAATTTGCGACAATATAATTTTATTTTCACATAAACTAGACGCCTTGTCGTCTTCTTCTTCGT
ATTCCTTCTCTTTTTCATTTTTCTCCTCATAAAAATTAACATAGTTATTATCGTATCCATATATGTATCT
ATCGTATAGAGTAAATTTTTTGTTGTCATAAATATATATGTCTTTTTTAATGGGGTGTATAGTACCGCTG
CGCATAGTTTTTCTGTAATTTACAACAGTGCTATTTTCTGGTAGTTCTTCGGAGTGTGTTGCTTTAATTA
TTAAATTTATATAATCAATGAATTTGGGATCGTCGGTTTTGTACAATATGTTGCCGGCATAGTACGCAGC
TTCTTCTAGTTCAATTACACCATTTTTTAGCAGCACCGGATTAACATAACTTTCCAAAATGTTGTACGAA
CCGTTAAACAAAAACAGTTCACCTCCCTTTTCTATACTATTGTCTGCGAGCAGTTGTTTGTTGTTAAAAA
TAACAGCCATTGTAATGAGACGCACAAACTAATATCACAAACTGGAAATGTCTATCAATATATAGTTGCT
GATATCATGGAGATAATTAAAATGATAACCATCTCGCAAATAAATAAGTATTTTACTGTTTTCGTAACAG
TTTTGTAATAAAAAAACCTATAAATACCATGGGTCATCATCATCACCATCACGGGTCGACAAGCTTGGAT
CCCTGCAGGCCTCGAGTTCGAATCTAGAAGATCTGGTACCGAGCTCGAATTCCCGGGCGGCCGCTTAATT
AATTGATCCGGGTTATTAGTACATTTATTAAGCGCTAGATTCTGTGCGTTGTTGATTTACAGACAATTGT
TGTACGTATTTTAATAATTCATTAAATTTATAATCTTTAGGGTGGTATGTTAGAGCGAAAATCAAATGAT
TTTCAGCGTCTTTATATCTGAATTTAAATATTAAATCCTCAATAGATTTGTAAAATAGGTTTCGATTAGT
TTCAAACAAGGGTTGTTTTTCCGAACCGATGGCTGGACTATCTAATGGATTTTCGCTCAACGCCACAAAA
CTTGCCAAATCTTGTAGCAGCAATCTAGCTTTGTCGATATTCGTTTGTGTTTTGTTTTGTAATAAAGGTT
CGACGTCGTTCAAAATATTATGCGCTTTTGTATTTCTTTCATCACTGTCGTTAGTGTACAATTGACTCGA
CGTAAACACGTTAAATAACGCTTGGACATATTTAACATCGGGCGTGTTAGCTTTATTAGGCCGATTATCG
TCGTCGTCCCAACCCTCGTCGTTAGAAGTTGCTTCCGAAGACGATTTTGCCATAGCCACACGACGCCTAT
TAATTGTGTCGGCTAACACGTCCGCGATCAAATTTGTAGTTGAGCTTTTTGGAATTATTTCTGATTGCGG
GCGTTTTTGGGCGGGTTTCAATCTAACTGTGCCCGATTTTAATTCAGACAACACGTTAGAAAGCGATGGT
GCAGGCGGTGGTAACATTTCAGACGGCAAATCTACTAATGGCGGCGGTGGTGGAGCTGATGATAAATCTA
CCATCGGTGGAGGCGCAGGCGGGGCTGGCGGCGGAGGCGGAGGCGGAGGTGGTGGCGGTGATGCAGACGG
CGGTTTAGGCTCAAATGTCTCTTTAGGCAACACAGTCGGCACCTCAACTATTGTACTGGTTTCGGGCGCC
GTTTTTGGTTTGACCGGTCTGAGACGAGTGCGATTTTTTTCGTTTCTAATAGCTTCCAACAATTGTTGTC
TGTCGTCTAAAGGTGCAGCGGGTTGAGGTTCCGTCGGCATTGGTGGAGCGGGCGGCAATTCAGACATCGA
TGGTGGTGGTGGTGGTGGAGGCGCTGGAATGTTAGGCACGGGAGAAGGTGGTGGCGGCGGTGCCGCCGGT
ATAATTTGTTCTGGTTTAGTTTGTTCGCGCACGATTGTGGGCACCGGCGCAGGCGCCGCTGGCTGCACAA
CGGAAGGTCGTCTGCTTCGAGGCAGCGCTTGGGGTGGTGGCAATTCAATATTATAATTGGAATACAAATC
GTAAAAATCTGCTATAAGCATTGTAATTTCGCTATCGTTTACCGTGCCGATATTTAACAACCGCTCAATG
TAAGCAATTGTATTGTAAAGAGATTGTCTCAAGCTCGGATCGATCCCGCACGCCGATAACAAGCCTTTTC
ATTTTTACTACAGCATTGTAGTGGCGAGACACTTCGCTGTCGTCGCCTGATGCGGTATTTTCTCCTTACG
CATCTGTGCGGTATTTCAC
>gnl|uv|AF098285.1:118-350 Cloning vector pFR-Bgal
GTCCTCCGAGCGGAGACTCTAGAGGGTATATAATGGATCCCCGGGTACCAGCTTGGGGGATCGAAAGAGC
CTGCTAAAGCAAAAAAGAAGTCACCATGTCGTTTACTTTGACCAACAAGAACGTGATTTTCGTTGCCGGT
CTGGGAGGCATTGGTCTGGACACCAGCAAGGAGCTGCTCAAGCGCGATCCCGTCGTTTTACAACGTCGTG
ACTGGGAAAACCCTGGCGTTACC
>gnl|uv|U89935.1:560-659 Cloning vector pBI-GL
CCGCGGCCCCGAATTCGAGCTCGGTACCCGGGGATCCTCTAGAGGATCCCCGGGATCGAAAGAGCCTGCT
AAAGCAAAAAAGAAGTCACCATGTCGTTTA
>gnl|uv|U02433.1:1-258 Cloning vector pNASSbeta
GAATTCGAGCTCGGTACTCGAGGAACTGAAAAACCAGAAAGTTAACTGGTAAGTTTAGTCTTTTTGTCTT
TTATTTCAGGTCCCGGATCCGGTGGTGGTGCAAATCAAAGAACTGCTCCTCAGTGGATGTTGCCTTTACT
TCTAGGCCTGTACGGAAGTGTTACTTCTGCTCTAAAAGCTGCGGAATTGTACCCGCGGCCGCAATTCCCG
GGGATCGAAAGAGCCTGCTAAAGCAAAAAAGAAGTCACCATGTCGTTT
>gnl|uv|U13184.1:6-96 Cloning vector pbetagal-Basic
GAGGTACCGAGCTCTTACGCGTGCTAGCTCGAGATCTAAGTAAGCTTGGGGGATCGAAAGAGCCTGCTAA
AGCAAAAAAGAAGTCACCATG
>>gnl|uv|U13187.1:199-287 Cloning vector pbetagal-Promoter
GTAGTGAGGAGGCTTTTTTGGAGGCCTAGGCTTTTGCAAAAAGCTTGGGGGATCGAAAGAGCCTGCTAAA
GCAAAAAAGAAGTCACCAT
>gnl|uv|M37847.1:848-1034 Bacterial cloning vector pMMB206
GGATCTCAACAGCGGTAAGATCCTTGAGAGTTTTCGCCCCGAAGAACGTGATGTCCGGCGGTGCTTTTGC
CGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTGGAGCAAG
CACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATC
>gnl|uv|U35235.1:534-629 Plasmid pBSL167 cloning vector
GCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCACGCGCGTAATACGACTCACTATA
GGGCGAATTGGGTACCGGGCCCCCCC
>gnl|uv|M37852.1:43-109 Cloning vector pMMB206 beta lactamase (bla, truncated), 3' end
TGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATGAAAACAGAAGCCACTGG
>gnl|uv|X06779.1:1-4734 Complete sequence of transformation vector pPI25.1
GGATCCCAATCCGCATCGAATAAGACGCAAACTTTTGCATCGTATATTGAAAAGATGCGCTATCTCCATG
GCAAAGTTTTTGCGGTCGTCGCAGACAAAAGACGCGTGTTCCCTTTTAAAGTTTCATTAATCAATGGCTC
GGGTGGTGGATGTGGATGTGGCTGTAGCTATTGATGTAGCTGGAGGGGTTCTGCCACAGCTCCGGCTATA
GCTTTTATTATTTCAATTGCGGAACGGTGCCCGGGGCTCAAAAATATGAGGCATCATTTATCAGGCCGCC
ATTCCACCACTCCACTACGTCATACCATTCCGTTCTGGTGCGGATTGGCTGTCTGGGCTGTGGATTTCAA
ATTGGCAGCAACAATGCCGTGATTAATGGCCGTCAAAGCGAAAGAGTCAACAAATGTCAAGCGACAAACT
GCAATTGGCAATTGGAGGGAGGGGGGGTGGTGGTGGTGGTAAAGAGGACCAAATCCCAAAAAACCCCATA
CCATAACATATACCATATACCATACTATACCATGGTAGGAATCCCTTGGCCCGCGATGAAATGAATGCCA
ACACAAGTGCGGGTTAATTTTTTCAAATGTTTGTTAATTACATTTATTGTTTCCTTTTGTTTTTGCATTT
GCATTTGTTTTTATGTTTTTTTTTCTCTCGTTTCTCTTTAGTTTTGATTTCTTTCACTTGCAATCGTTCT
GGCTGCTTTCATTATTACTGATTGCCGGCCAAAACTCGGATTATGGTTTGTTTTTGTAATGTATATATAT
GCACGTATATATAAGTCTAAGCGGGTTTATCTTACACTTTAGATATTTTTGATTTAACTTTATGCCTGCT
CTCTAACAATACAATACAAAAAAAATATTGGATAATCGCTCTTACTTATTTCCGATTATTAGATATTATT
ACGATATTTAACATAGTTTCGGTAATTCGATAGATAGGTAGTATTGTTTATCGCTCGTAGATGATAGACT
GTTGCTTATACACACCATGATGAAATAACATAAGGTGGTCCCGTCGAAAGCCGAAGCTTACCGAAGTATA
CACTTAAATTCAGTGCACGTTTGCTTGTTGAGAGGAAAGGTTGTGTGCGGACGAATTTTTTTTTGAAAAC
ATTAACCCTTACGTGGAATAAAAAAAAATGAAATATTGCAAATTTTGCTGCAAAGCTGTGACTGGAGTAA
AATTAATTCACGTGCCGAAGTGTGCTATTAAGAGAAAATTGTGGGAGCAGAGCCTTGGGTGCAGCCTTGG
TGAAAACTCCCAAATTTGTGATACCCACTTTAATGATTCGCAGTGGAAGGCTGCACCTGCAAAAGGTCAG
ACATTTAAAAGGAGGCGACTCAACGCAGATGCCGTACCTAGTAAAGTGATAGAGCCTGAACCAGAAAAGA
TAAAAGAAGGCTATACCAGTGGGAGTACACAAACAGAGTAAGTTTGAATAGTAAAAAAAATCATTTATGT
AAACAATAACGTGACTGTGCGTTAGGTCCTGTTCATTGTTTAATGAAAATAAGAGCTTGAGGGAAAAAAT
TCGTACTTTGGAGTACGAAATGCGTCGTTTAGAGCAGCAGCTGAGGGAGTCTCAACAGTTGGAGGAGTCT
CTACGCAAAATCTTCACGGACACGCAGATACGGATACTGAAGAATGGTGGACAAAGAGCTACGTTCAATT
CCGACGACATTTCTACAGCTATTTGTCTCCACACCGCAGGCCCTCGAGCGTATAACCATCTGTACAAAAA
AGGATTTCCTTTGCCCAGTCGTACGACTTTGTACAGATGGTTATCAGATGTGGACATAAAAAGAGGATGT
TTGGATGTGGTCATAGACCTAATGGACAGTGATGGAGTTGATGACGCCGACAAGCTTTGCGTACTCGCTT
TCGACGAGATGAAGGTCGCTGCTGCCTTCGAGTATGACAGCTCTGCTGATATTGTTTACGAGCCAAGCGA
CTATGTCCAACTGGCTATTGTTCGTGGTCTAAAAAAATCGTGGAAGCAGCCAGTTTTTTTCGATTTTAAT
ACCCGAATGGACCCGGATACTCTTAACAATATATTAAGGAAACTGCATAGGAAAGGATATTTAGTAGTTG
CTATTGTATCCGATTTAGGTACCGGAAACCAAAAGCTATGGACAGAGCTCGGTATATCAGAATGTAAGTT
TCGTATATTACAAAAATCAGATAATCCTTGAAATTCCATTTTTTAGCAAAAACCTGGTTTAGCCATCCTG
CAGATGACCATTTAAAGATTTTCGTTTTTTCGGATACGCCACATTTAATTAAGTTAGTCCGTAACCACTA
TGTGGATTCCGGATTAACAATAAATGGGAAAAAATTAACAAAAAAAACAATTCAGGAGGCACTTCATCTT
TGCAACAAGTCCGATCTGTCTATCCTCTTTAAAATTAATGAAAATCACATTAATGTTCGATCGCTCGCAA
AACAGAAGGTTAAATTGGCTACCCAGCTGTTTTCGAATACCACCGCTAGCTCGATCAGACGCTGCTATTC
ATTGGGGTATGACATTGAAAATGCCACCGAAACTGCGGACTTCTTCAAATTGATGAATGATTGGTTCGAC
ATTTTTAATTCTAAATTGTCCACATCCAATTGCATTGAGTGCTCGCAACCTTATGGCAAGCAGTTGGATA
TACAGAATGATATTTTGAATCGAATGTCGGAAATTATGCGAACAGGAATTCTGGATAAACCCAAAAGGCT
CCCATTTCAAAAAGGTATCATTGTGAATAATGCTTCGCTTGATGGCTTGTATAAATATTTGCAAGAAAAC
TTCAGTATGCAATACATATTAACAAGCCGTCTCAACCAAGACATTGTGGAGCATTTTTTTGGCAGCATGC
GATCGAGAGGTGGACAATTCGACCATCCCACTCCACTGCAGTTTAAGTATAGGTTAAGAAAATATATAAT
AGGTATGACAAATTTAAAAGAATGCGTAAACAAAAATGTAATTCCATGATTTATAATTGTTTAATGTTTA
GCTATATGTTTCAGGAAAGTTTCAGTTGAGAATGTAGGTAGTTATGTGCTGTCTATTGTGTTTTGTCTTT
TATCTGTTTCTTTTCATTTTATTATTTAATCATTATCCTTTTGCTTATCCAGCCAGGAATACAGAAATGT
TAAGAAATTCGGGAAATATCGAAGAGGACAACTCTGAAAGCTGGCTTAATTTAGATTTCAGTTCTAAAGA
AAACGAAAATAAAAGTAAAGATGATGAGCCTGTCGATGATGAGCCTGTCGATGAGATGTTAAGCAATATA
GATTTCACCGAAATGGATGAGTTGACGGAGGATGCGATGGAATATATCGCGGGCTATGTCATTAAAAAAT
TGAGAATCAGTGACAAAGTAAAAGAAAATTTGACATTTACATACGTCGACGAGGTGTCTCACGGCGGACT
TATTAAGCCGTCCGAAAAATTTCAAGAGAAGTTAAAAGAGCTAGAATGTATTTTTTTGCATTATACAAAT
AATAATAATTTTGAAATTACAAATAATGTAAAGGAAAAATTAATATTAGCAGCGCGAAACGTCGATGTTG
ATAAACAAGTAAAATCTTTTTATTTTAAAATTAGAATATATTTTAGAATTAAGTACTTCAACAAAAAAAT
TGAAATTAAAAATCAAAAACAAAAGTTAATTGGAAACTCCAAATTATTAAAAATAAAACTTTAAAAATAA
TTTCGTCTAATTAATATTATGAGTTAATTCAAACCCCACGGACATGCTAAGGGTTAATCAACAATCATAT
CGCTGTCTCACTCAGACTCAATACGACACTCAGAATACTATTCCTTTCACTCGCACTTATTGCAAGCATA
CGTTAAGTGGATGTCTCTTGCCGACGGGACCACCTTATGTTATTTCATCATGATACACACACTTTGGTTT
CTCCCGTACTTAGTATATTCGCTAGCTCCTTTCGAACGCTAATTACGCATATTGATTAGTGTTACATTAG
ATTGCAAAAAAAAAAAGGATTAATAAATACATCCATATTGTAACTAGTTCGCTTGGTTATAGATATACAC
ACGCACGCACACAAATCCTTAACTTTACATCCACCTATCTTAGGCGCTTTACATCTAACGCGCTGGATCA
TCGTGGATCTGGCCATCATACCTCATCTACAATCCATCTAGAAATCATCCAGCTCCAGCTACTTCTATAC
AACGTTCGCCGTGGAAAGAACATTCTTTAGCCTCGCACTAAACTAAACTTAAATAATAATCAACAACGTT
GCTCCAACAGACTTAAAATGGAATTAGAACAAAAATCATGTGTGCTTAAGTCGTGTGCAGAATGTCTCAA
TATTTACACATCAAAGTTCACTTTTGCCAATTGCCCTCTAGCTCCTCTAGCTCCTCATCATCTATCTCTC
TTCATCTGACTCTACTCTACGATCTGCGGCTCTTCGGATTCGAAGGACACATCGAAAATCGAACAGTGAT
CGGTGGGGATGTTTAGCTCTCTCGATTTCGCAGTCCACAAAATCCGATTCTCTCCACCACCAGCCGCCCT
TGTCATTCATTCCACATTCATCAGTTTAGTCCTTCGTTTATTTTTTTTTTTTTAACTTTTTGGCACTGCT
TTGAATTTCTTTTGGCACCGCACGCTTCGAGCGTGAAAATAAAATTATTTATGCATATACATAGATAAAT
ACGAATATATCTATATGGAGTATGTAAAAAAAAAAAAAGGATCC
>gnl|uv|M13369.1:1-85 Plasmid pNNL (cosmid) DNA with an inserted IS1 fragment
GAATTCTCATGTTTGACAGCTTATCATCGATAAGCTGGTGATGCTGCCAACTTACTGATTTAGTGTATGA
TGGTGTTTTTGAGGT
>gnl|uv|M13369.1:757-815 Plasmid pNNL (cosmid) DNA with an inserted IS1 fragment
GGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCACGATAAGCTT