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Internal Transposable Elements | |
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References | |
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Name: TnPfu1.2 (Synonyms: Tn7222) |
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Family: Tn402 Group: TnPfu1 |
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Evidence of Transposition: no |
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Host |
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Host Organism: | Enterobacter kobei IPM1H4 | Molecular Source: | plasmid pIPM1H4-GES24 |
Place of Origin: | Matsumoto, Nagano, Japan | Date of Isolation: | 2020 |
| | Other Geographic Information: | Hospital Sewage University Graduate School of Medicine, Science and Technology |
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Map |
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Terminal Inverted Repeats (IR) |
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Sequence |
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--------10 --------20 --------30 --------40 --------50 --------60 --------70 --------80 --------90 -------100
TGTCATTTTC AGAAGACGAC TGCACCAATT GATTGGGCGT AATGGCTGTT GTGCAGCCAG CTCCTGACAG TTCAATATCA GAAGTGATCT GCACCAATCT 100
CGACTATGCT CAATACTCGT GTGCACCAAA GCGAGGTGAG CATGGCGACG GACACCCCAC GGATTCCAGA ACAAGGCGTG GCCACTCTGC CTGATGAGGC 200
TTGGGAGCGT GCGCGCCGTC GTGCGGAGAT CATCAGTCCG TTGGCGCAGT CGGAGACGGT CGGGCACGAA GCGGCCGATA TGGCGGCTCA GGCGCTGGGC 300
TTGTCTCGGC GCCAGGTATA CGTTCTGATC CGGCGTGCCC GGCAAGGCAG CGGCCTCGTG ACGGATCTGG TGCCCGGCCA GTCCGGTGGA GGTAAAGGTA 400
AGGGGCGCTT GCCGGAACCG GTCGAGCGCG TCATCCACGA GCTACTGCAA AAGCGGTTCC TGACCAAGCA GAAGCGCAGC CTAGCGGCCT TTCACCGCGA 500
AGTCACTCAG GTGTGCAAGG CTCAAAAACT GCGAGTGCCG GCGCGCAATA CCGTGGCCTT ACGGATCGCT AGCCTTGACC CGCGCAAGGT CATCCGCCGG 600
CGGGAAGGCC AGGATGCCGC TCGTGACCTA CAAGGTGTGG GCGGCGAGCC TCCTGCCGTG ACCGCGCCGC TGGAGCAGGT GCAGATAGAC CATACGGTCA 700
TCGACCTGAT CGTGGTCGAT GACCGCGACC GGCAACCTAT TGGCCGCCCG TACCTGACCC TCGCCATCGA CGTGTTCACC CGCTGCGTGC TCGGCATGGT 800
CGTCACGCTG GAAGCGCCGT CTGCCGTTTC GGTTGGCCTG TGCCTCGTGC ATGTCGCCTG CGACAAGCGC CCTTGGCTGG AAGGACTGAA CGTGGAAATG 900
GATTGGCAGA TGAGCGGCAA GCCCTTGCTG CTCTACCTAG ACAACGCGGC CGAGTTCAAG AGCGAGGCCC TGCGCCGGGG TTGCGAGCAG CATGGCATCC 1000
GGCTGGACTA TCGCCCGCTG GGACAGCCGC ACTATGGCGG CATCGTGGAA CGGATCATCG GCACGGCGAT GCAGATGATT CACGACGAAC TGCCGGGAAC 1100
GACCTTCTCC AACCCTGACC AGCGCGGCGA CTACGATTCC GAAAACAAGG CCGCCCTGAC GCTGCGCGAG CTAGAGCGCT GGCTCACATT GGCGGTCGGC 1200
ACCTACCACG GTTCGGTGCA CAACGGCCTG CTCCAACCGC CGGCCGCGCG CTGGGCCGAG GCCGTGGCGC GTGTCGGCGT ACCGGCCGTC GTCACACGCG 1300
CTACTTCGTT CCTGGTCGAT TTTCTGCCGA TCCTCCGGCG CACGCTGACC CGCACCGGCT TTGTCATCGA CCACATCCAC TACTACGCCG ATGCGCTCAA 1400
GCCGTGGATT GCGCGGCGTG AACGCTGGCC GTCCTTTCTG ATCCGGCGCG ATCCGCGCGA CATCAGCCGT ATCTGGGTCC TGGAACCGGA GGGACAGCAT 1500
TACCTGGAAA TTCCCTACCG TACCTTGTCG CATCCGGCTG TCACCCTCTG GGAACAACGG CAGGCGCTGG CGAAACTGCG GCAGCAAGGG CGCGAACAGG 1600
TGGATGAGTC GGCGCTGTTC CGCATGATCG GCCAGATGCG TGAGATTGTG ACCAGCGCGC AGAAGGCCAC ACGCAAGGCG CGGCGTGACG CGGATCGCCG 1700
CCAGCACCTC AAGACATCAG CTCGGCCGGA CAAGCCCGTT CCGCCGGATA CGGATATTGC CGACCCGCAG GCAGACAACT TGCCACCCGC CAAACCGTTC 1800
GACCAGATTG AGGAGTGGTA GCCGTGGACG AATATCCCAT CATCGACCTG TCCCACCTGC TGCCGGCGGC GCAGGGGCTG GCTCGGCTGC CGGCGGACGA 1900
GCGCGTCCAG CGCCTTCGCG CCGACCGCTG GATCGGCTAT CCGCGCGCGG TCGAGGCGCT GAACCGGCTG GAAGCCCTTT ATGCGTGGCC AAACAAGCAA 2000
CGCATGCCCA ACCTGCTGCT GGTCGGCCCG ACCAACAATG GCAAGTCGAT GATCGTCGAG AAGTTCCGCC GCACCCACCC GGCCAGCGCC GACGCCGACC 2100
AGGAGCACAT CCCAGTGTTG GTCGTGCAGA TGCCGTCCGA GCCGTCCGTG ATCCGCTTCT ACGTCGCGCT GCTCGCCGCG ATGGGCGCGC CGCTGCGCCC 2200
ACGCCCACGG TTGCCGGAAA TGGAGCAACT GGCTCTGGCA CTGCTGCGCA AGGTCGGTGT GCGTATGCTG GTGATCGACG AACTGCACAA CGTCCTGGCC 2300
GGCAATAGCG TCAACCGCCG GGAATTTCTC AACCTGCTGC GCTTTCTCGG CAACGAGCTG CGCATCCCGC TGGTCGGGGT TGGCACACGC GACGCCTACC 2400
TGGCCATTCG TTCGGACGAT CAGTTGGAGA ACCGGTTCGA GCCGATGCTG CTGCCGGTAT GGGAGGCCAA CGACGATTGC TGCTCACTGC TGGCCAGCTT 2500
CGCGGCTTCG CTCCCGCTGC GGCGACCCTC GTCGATTGCC ACGCTGGATA TGGCTCGCTA CCTGCTCACG CGCAGCGAGG GCACCATCGG CGAACTGGCG 2600
CACCTGTTAA TGGCGGCGGC TGTCGCTGCC GTGGAAAGTG GTGAGGAAGC GATCAACCAT CGCACGCTCA GCATGGCCGA CTACACCGGC CCCAGCGAGC 2700
GGCGACGACA GTTCGAGCGG GAACTAATGT GAAGCCCGCG CCGCGCTGGC CGCTGCATCC CGCTCCGAAA GAAGGCGAGG CGCTGTCCTC ATGGCTCAAC 2800
CGCGTGGCCC TTTGCTATCA CATGGAACTG CCCGAGCTGC TGGAGCACGA TCTTGGCCAC AGCCAGGTCG ATGACCTGGA CACCGCGCCA CCACTGTCGC 2900
TGCTGGCGAT GCTTTCCCAG CGGAGCGGGA TCGATCCGGA CCGGCTGCGC AGCATGAGTT TCGCCGGCTG GGTGCCTTGG CTACTGGATA GTCTTGATGA 3000
CCAGATTCCA GACGCATTGG AAACCTATGC ATTTCAGCTC TCGGTACTGC TGCCAAAACT CCACCGTAAG AAGCGATCCA TCACGAGGTG GCGTGCCTGG 3100
CTACCCAGCC AGCCGATACA CTGTGCCTGT CCGCTCTGCC TGAGCGATCC GGATAACCAA GCCGTACTGC TCGCGTGGAA GCTGCCCCTG ATGCTGAGCT 3200
GCCCGCTGCA TGGCTGCTGG CTGGAATCCT ATTGGGGAGT GCCTGGGCGG TTTCTCGGCT GGGAGAACGC CGACGCCGAA CCGCGCACCG CCAGCGACGC 3300
GATTGCGGCG ATGGATCAGC GTACCTGGCA GGCACTGACA ACCGGTCACG TGGAGCTGCC GTGCCGACGC ATCCACGCCG GATTGTGGTT TCGACTTCTT 3400
CGCACGCTGC TCGATGAGCT GAACACCCCG CTTTCCGCGT GCGGAACCTG CGCGGGGTAT CCCCGCCAAG TCTGGGAAGG CTGCGGGCAT CCGCTGCGTG 3500
CTGGGCAAAG TCTGTGGCGA CCGTATGAAA CCCTAAATCC GGTAGTACGG TTACAGATGC TGGAGGCGGC GGCAACGGCA ATCAGCTTGA TTGAGGTGAG 3600
GGACATCAGC CCGCCAGGCG AGCAGGCAAA GCTATTCTGG TCCGAGCCCC AAACCGGGTT CACCAGTGGC CTGCCGACGA AAGCGCCGAA GCCCGAGCCC 3700
ATCAATCACT GGCAGCGTGC AGTCCAGGCC ATCGACGAGG CCATCATTGA AGCGCGACAC AACCCCGAGA CGGCACGCTC GCTGTTCGCG TTGGCTTCCT 3800
ATGGTCGGCG CGATCCCGCT TCCTTGGAAC GGTTGCGCGC CACCTTCGTG AAGGAAGGCA TCCCGCCGGA ATTTCTGTCA CATTACCTGC CTGATGCACC 3900
CTTTGCATGT CTTAAACAAA ATGACGGGTT AAGTGACAAA TTTTGACGGA TAGAGCTTTC CGGCTCACAC TGTCACATAA TCGAACGTAT ACGTGACAGG 4000
GGGCGCAATG TTGATCGGCT ACATGCGAGT ATCGAAAGCG GATGGATCCC AATCCACCGA TCTGCAGCGC GATGCACTCA TCGTCGCCGG CGTGAGTCCT 4100
GCACATCTCT ACGAGGATAT GGCTTCAGGC CGACGCGATG ATCGACCGGG GTTGGCTGCT TGCCTGAAGG CGCTTCGTGA AGGTGACACG CTGATCGTGT 4200
GGAAGCTTGA TCGGCTCGGC CGCGATCTGC GCCACCTGAT CAATACCGTT CACGACCTGA CAGCGCGTAG CGTGGGTTTG AAGGTCCTGG CCGGTCATGG 4300
TGCGGCGGTC GATACGACGA CTGCCGCCGG CAAGCTGGTG TTCGGTATTT TTGCTGCGCT GGCCGAATTC GAGCGGGAGT TGATTTCCGA GCGAACAGTC 4400
GCCGGGCTCG TCTCGGCGCG CGCTCGCGGC AGGAAAGGAG GGCGCCCCTT CAAGATGACC GCCACCAAGC TACGCCTGGC GATGGCCAGC ATGGGGCAAC 4500
CGGAAACCAA GGTGGGCAAT CTCTGCGAAG AACTAGGGAT TACCCGGCAG ACGCTCTACC GGCATGTGTC GCCCAAGGGC GAATTGCGGC CGGACGGCGT 4600
AAAGCTGCTC TCCCGCGGAT CAGCCGCATA AATGGTGGCG ACTTGGAACG GGGCGCTGTT TAGTGCGGCA ACGATCCGAC AGCCGGTGTC GACCCTGAGC 4700
CGCCATCCAG ATGAAAGCAC CACAACCGTC ATTCAGCCGG GCGACAAGTG CAAGGCCAAG GCGTCCAGCG GGCTGGAGGT GCCTCCGGCA GCGACTTTCA 4800
GCACATGCGT GTAGATCATC GTCGTGCTCA CGTCCGAATG CCCCAACAAC TCTTGCACCG TTCGGATGTC TGTGCCTGCT TGCAGCAAGT GGGTGGCGAA 4900
TGAGTGGCGC AGGGTGTGGA CAGATACGTG TTTGGCAATG CCAGCCTGAA CTACCGCTTT TTTTAGTTGC CGGTTCAGTC TTTCCTCAAA CAAGTGGTGG 5000
CGGCGCTCAA CGCCGGTTTG TGGGTCCACA GACAGCTTGG CCGATGGAAA CACCCAGAAC CAGGCCCAGC TCTCGCCCGC CCTGGGGTAC TTGCGCTCCA 5100
GTGCATGAGG CAGATACACG CCTCCGCGCC CCGTGGCACG GTCCTGCCCC CACACAGCGC GGACCTGAAT CAGCTGCGCC CGCAACCGAG GTACGAGCGC 5200
CCTGGGCAGC ATCACCACGC GGTCCTTGTC GCCCTTGCCG CTGCGCACAA TGATCGCGTG GCGGTCGAAA TCCACATCCT TGACCCGCAG GCCCAGCGCT 5300
TCGCGCAGGC GCAACCCACT GCCGTAAAGC AGGGCGGCCA ACAGCGCTTC GGTGCCCGCC ATGTGCGAAA GCAACGTCTG AACCTCCTGC ACCGTCAGCA 5400
CCACCGGAAT CCGCTTGCGT TCTGGCGGCC GACCAATCTG CTGCATCCAC GGCAATTCCA TGCCCAGCAC CTGCCGATAC AAGAACAACA GCGCGTTGAG 5500
CGCCTGCCGG TGGGTGGCCG GCGCCACTTG CTTCTCGGTG GCGAGCATGG TCAGAAAACC CTCGACTTCA GCTTGCCCCA TTTCGCGCGG ATGTCGAAAC 5600
CCACCATGGC TGCGGGCCGT CCACAACACA AATGCCTTGG CCCAGTAGAC ATAAGCCTTC TCGGTCTGTA GGCTGTAATG CAGGTAGCGA ACCCGTTCGC 5700
GTACCTGATC GAGCAGCTTG ATGGACCGGG GAGGGACCCA GTCAGGTTTG GCAGATCCGT TATACCTGTT CATGCATCCA GTATGATGCT TTACAGGATT 5800
GATTTCAAAC ACTTTTTTTG GGTGCCGTGC GACTTTGTTT AACGACCACG GTTGTGGGTA TCCGGTGTTT GGTCAGATAA ACCACAAGTT AGACGGGCGT 5900
ACAAAGATAA TTTCCATCTC AAGGGATCAC CATGCGCTTC ATTCACGCAC TATTACTGGC AGGGATCGCT CACTCTGCAT ATGCGTCGGA AAAATTAACC 6000
TTCAAGACCG ATCTTGAGAA GCTAGAGCGC GAAAAAGCAG CTCAGATCGG TGTTGCGATC GTCGATCCCC AAGGAGAGAT CGTCGCGGGC CACCGAACGG 6100
CGCAGCGCTT TGCAATGTGC TCAACGTTCA AGTTTCCGCT AGCCGCGCTG GTCTTTGAAA GAATTGACTC AGGCACCGAG CGGGGGGATC GAAAACTTTC 6200
ATATGGGCCG GACATGATCG TCGAATGGTC TCCTGCCACG GAGCGGTTTC TAGCATCGGG ACACATGACG GTTCTCGAGG CAGCGCAAGC TGCGGTGCAG 6300
CTTAGCGACA ATGGGGCTAC TAACCTCTTA CTGAGAGAAA TTGGCGGACC TGCTGCAATG ACGCAGTATT TTCGTAAAAT TGGCGACTCT GTGAGTCGGC 6400
TAGACCGGAA AGAGCCGGAG ATGAGCGACA ACACACCTGG CGACCTCAGA GATACAACTA CGCCTATTGC TATGGCACGT ACTGTGGCTA AAGTCCTCTA 6500
TGGCGGCGCA CTGACGTCCA CCTCGACCCA CACCATTGAG AGGTGGCTGA TCGGAAACCA AACGGGAGAC GCGACACTAC GAGCGGGTTT TCCTAAAGAT 6600
TGGGTTGTTG GAGAGAAAAC TGGTACCTGC GCCAACGGGG GCCGGAACGA CATTGGTTTT TTTAAAGCCC AGGAGAGAGA TTACGCTGTA GCGGTGTATA 6700
CAACGGCCCC GAAACTATCG GCCGTAGAAC GTGACGAATT AGTTGCCTCT GTCGGTCAAG TTATTACACA ACTCATCCTG AGCACGGACA AATAGTTGAC 6800
GCCCGTCTAA CAATTCGTTC AAGCCGACGT TGCTTCGTGG CGGCGCTTGC GTGCTACGCT AAGCTTCGCA CGCCGCTTGC CACTGCGCAC CGCGGCTTAA 6900
CTCAGGTGTT AGACGGGCGT ACAAAGATAA TTTCCATCTC AAGGGATCAC CATGCGCTTC ATTCACGCAC TATTACTGGC AGGGATCGCT CACTCTGCAT 7000
ATGCGTCGGA AAAATTAACC TTCAAGACCG ATCTTGAGAA GCTAGAGCGC GAAAAAGCAG CTCAGATCGG TGTTGCGATC GTCGATCCCC AAGGAGAGAT 7100
CGTCGCGGGC CACCGAACGG CGCAGCGCTT TGCAATGTGC TCAACGTTCA AGTTTCCGCT AGCCGCGCTG GTCTTTGAAA GAATTGACTC AGGCACCGAG 7200
CGGGGGGATC GAAAACTTTC ATATGGGCCG GACATGATCG TCGAATGGTC TCCTGCCACG GAGCGGTTTC TAGCATCGGG ACACATGACG GTTCTCGAGG 7300
CAGCGCAAGC TGCGGTGCAG CTTAGCGACA ATGGGGCTAC TAACCTCTTA CTGAGAGAAA TTGGCGGACC TGCTGCAATG ACGCAGTATT TTCGTAAAAT 7400
TGGCGACTCT GTGAGTCGGC TAGACCGGAA AGAGCCGGAG ATGAGCGACA ACACACCTGG CGACCTCAGA GATACAACTA CGCCTATTGC TATGGCACGT 7500
ACTGTGGCTA AAGTCCTCTA TGGCGGCGCA CTGACGTCCA CCTCGACCCA CACCATTGAG AGGTGGCTGA TCGGAAACCA AACGGGAGAC GCGACACTAC 7600
GAGCGGGTTT TCCTAAAGAT TGGGTTGTTG GAGAGAAAAC TGGTACCTGC GCCAACGGGG GCCGGAACGA CATTGGTTTT TTTAAAGCCC AGGAGAGAGA 7700
TTACGCTGTA GCGGTGTATA CAACGGCCCC GAAACTATCG GCCGTAGAAC GTGACGAATT AGTTGCCTCT GTCGGTCAAG TTATTACACA ACTCATCCTG 7800
AGCACGGACA AATAGTTGAC GCCCGTCTAA TTCAGGCGTT GAGCGACTGC TTACCCGTTT GACGGTCGGC CGCTCCTGGC CGGCTGCTGC CCGCCATTGC 7900
ATGATGCCCC CCCATCCGCT GCCGTAGTGC AGTCGGCTTC TGACGTTCAG TGCAGCCGCC TTCTGAAAAC GACA
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Recombination Sites |
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Name |
Coordinates |
Gene |
Sequence |
r6 |
3824-3837 |
14 |
TTGGAACGGT TGCG |
r5 |
3870-3883 |
14 |
AATTTCTGTC ACAT |
r4 |
3875-3888 |
14 |
CTGTCACATT ACCT |
r3 |
3926-3939 |
14 |
GGGTTAAGTG ACAA |
res |
3967-4000 |
34 |
ACACTGTCAC ATAATCGAAC GTATACGTGA CAGG |
r2 |
3970-3983 |
14 |
CTGTCACATA ATCG |
r1 |
3986-3999 |
14 |
CGTATACGTG ACAG |
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ORFs |
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Gene Name |
Associated TE |
Coordinates |
Class |
Sub Class |
Orientation |
tniA |
TnPfu1.2 |
142-1821 |
Transposase |
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+ |
tniB |
TnPfu1.2 |
1824-2732 |
Accessory Gene |
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+ |
tniQ |
TnPfu1.2 |
2729-3946 |
Accessory Gene |
Target Site Selection |
+ |
tniR |
TnPfu1.2 |
4008-4631 |
Accessory Gene |
Resolvase |
+ |
intI3 |
TnPfu1.2 |
4733-5773 |
Integron Integrase |
Class 3 |
- |
blaGES-5 |
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5932-6795 |
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+ |
blaGES-5 |
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6952-7815 |
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+ |
Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
tniA |
TniA |
TnPfu1.2 |
1680 |
142-1821 |
+ |
Class: | Transposase |
Transpoase Chemistry: | DDE |
Comment: | can be extended upstream by 12 amino acids| identical to tniA (Tn1721 and In2)| 25% amino acid sequence identity to TnsB from Tn7 |
Protein Sequence:
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MATDTPRIPE QGVATLPDEA WERARRRAEI ISPLAQSETV GHEAADMAAQ ALGLSRRQVY VLIRRARQGS GLVTDLVPGQ SGGGKGKGRL PEPVERVIHE LLQKRFLTKQ KRSLAAFHRE VTQVCKAQKL RVPARNTVAL RIASLDPRKV IRRREGQDAA RDLQGVGGEP PAVTAPLEQV QIDHTVIDLI VVDDRDRQPI GRPYLTLAID VFTRCVLGMV VTLEAPSAVS VGLCLVHVAC DKRPWLEGLN VEMDWQMSGK PLLLYLDNAA EFKSEALRRG CEQHGIRLDY RPLGQPHYGG IVERIIGTAM QMIHDELPGT TFSNPDQRGD YDSENKAALT LRELERWLTL AVGTYHGSVH NGLLQPPAAR WAEAVARVGV PAVVTRATSF LVDFLPILRR TLTRTGFVID HIHYYADALK PWIARRERWP SFLIRRDPRD ISRIWVLEPE GQHYLEIPYR TLSHPAVTLW EQRQALAKLR QQGREQVDES ALFRMIGQMR EIVTSAQKAT RKARRDADRR QHLKTSARPD KPVPPDTDIA DPQADNLPPA KPFDQIEEW
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Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
tniB |
TniB |
TnPfu1.2 |
909 |
1824-2732 |
+ |
Class: | Accessory Gene |
Sequence Family: | ATP binding protein? |
Comment: | similar function to Tn7 tnsC and MuB |
Protein Sequence:
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MDEYPIIDLS HLLPAAQGLA RLPADERVQR LRADRWIGYP RAVEALNRLE ALYAWPNKQR MPNLLLVGPT NNGKSMIVEK FRRTHPASAD ADQEHIPVLV VQMPSEPSVI RFYVALLAAM GAPLRPRPRL PEMEQLALAL LRKVGVRMLV IDELHNVLAG NSVNRREFLN LLRFLGNELR IPLVGVGTRD AYLAIRSDDQ LENRFEPMLL PVWEANDDCC SLLASFAASL PLRRPSSIAT LDMARYLLTR SEGTIGELAH LLMAAAVAAV ESGEEAINHR TLSMADYTGP SERRRQFERE LM
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Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
tniQ |
TniQ |
TnPfu1.2 |
1218 |
2729-3946 |
+ |
Class: | Accessory Gene |
Sub Class: | Target Site Selection |
Comment: | similar function to Tn7 tnsC and MuB |
Protein Sequence:
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VKPAPRWPLH PAPKEGEALS SWLNRVALCY HMELPELLEH DLGHSQVDDL DTAPPLSLLA MLSQRSGIDP DRLRSMSFAG WVPWLLDSLD DQIPDALETY AFQLSVLLPK LHRKKRSITR WRAWLPSQPI HCACPLCLSD PDNQAVLLAW KLPLMLSCPL HGCWLESYWG VPGRFLGWEN ADAEPRTASD AIAAMDQRTW QALTTGHVEL PCRRIHAGLW FRLLRTLLDE LNTPLSACGT CAGYPRQVWE GCGHPLRAGQ SLWRPYETLN PVVRLQMLEA AATAISLIEV RDISPPGEQA KLFWSEPQTG FTSGLPTKAP KPEPINHWQR AVQAIDEAII EARHNPETAR SLFALASYGR RDPASLERLR ATFVKEGIPP EFLSHYLPDA PFACLKQNDG LSDKF
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Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
tniR |
TniR |
TnPfu1.2 |
624 |
4008-4631 |
+ |
Class: | Accessory Gene |
Sub Class: | Resolvase |
Transpoase Chemistry: | Serine |
Sequence Family: | Serine Site-Specific Recombinase |
Comment: | also called tniR |
Protein Sequence:
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MLIGYMRVSK ADGSQSTDLQ RDALIVAGVS PAHLYEDMAS GRRDDRPGLA ACLKALREGD TLIVWKLDRL GRDLRHLINT VHDLTARSVG LKVLAGHGAA VDTTTAAGKL VFGIFAALAE FERELISERT VAGLVSARAR GRKGGRPFKM TATKLRLAMA SMGQPETKVG NLCEELGITR QTLYRHVSPK GELRPDGVKL LSRGSAA
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Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
intI3 |
IntI3 |
TnPfu1.2 |
1041 |
4733-5773 |
- |
Class: | Integron Integrase |
Sub Class: | Class 3 |
Transpoase Chemistry: | Tyrosine |
Sequence Family: | Class 3 Integron Tyrosine Integrase |
Protein Sequence:
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MNRYNGSAKP DWVPPRSIKL LDQVRERVRY LHYSLQTEKA YVYWAKAFVL WTARSHGGFR HPREMGQAEV EGFLTMLATE KQVAPATHRQ ALNALLFLYR QVLGMELPWM QQIGRPPERK RIPVVLTVQE VQTLLSHMAG TEALLAALLY GSGLRLREAL GLRVKDVDFD RHAIIVRSGK GDKDRVVMLP RALVPRLRAQ LIQVRAVWGQ DRATGRGGVY LPHALERKYP RAGESWAWFW VFPSAKLSVD PQTGVERRHH LFEERLNRQL KKAVVQAGIA KHVSVHTLRH SFATHLLQAG TDIRTVQELL GHSDVSTTMI YTHVLKVAAG GTSSPLDALA LHLSPG
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Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
blaGES-5 |
AssociatedElement = TnPfu1.2; Class = Passenger Gene; Subclass = Antibiotic Resistance; SequenceFamily = bla GES-5 beta-lactamase (ARO:3000066); Target = cephalosporin (ARO:0000032)||penam (ARO:3000008)||carbapenem (ARO:0000020); LibraryName = bla GES-5 (TnPfu1); OtherInformation = ; Capture = yes |
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864 |
5932-6795 |
+ |
Function: | antibiotic inactivation (ARO:0001004) |
Protein Sequence:
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MRFIHALLLA GIAHSAYASE KLTFKTDLEK LEREKAAQIG VAIVDPQGEI VAGHRTAQRF AMCSTFKFPL AALVFERIDS GTERGDRKLS YGPDMIVEWS PATERFLASG HMTVLEAAQA AVQLSDNGAT NLLLREIGGP AAMTQYFRKI GDSVSRLDRK EPEMSDNTPG DLRDTTTPIA MARTVAKVLY GGALTSTSTH TIERWLIGNQ TGDATLRAGF PKDWVVGEKT GTCANGGRND IGFFKAQERD YAVAVYTTAP KLSAVERDEL VASVGQVITQ LILSTDK
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Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
blaGES-5 |
AssociatedElement = TnPfu1.2; Class = Passenger Gene; Subclass = Antibiotic Resistance; SequenceFamily = bla GES-5 beta-lactamase (ARO:3000066); Target = cephalosporin (ARO:0000032)||penam (ARO:3000008)||carbapenem (ARO:0000020); LibraryName = bla GES-5 (TnPfu1); OtherInformation = ; Capture = yes |
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864 |
6952-7815 |
+ |
Function: | antibiotic inactivation (ARO:0001004) |
Protein Sequence:
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MRFIHALLLA GIAHSAYASE KLTFKTDLEK LEREKAAQIG VAIVDPQGEI VAGHRTAQRF AMCSTFKFPL AALVFERIDS GTERGDRKLS YGPDMIVEWS PATERFLASG HMTVLEAAQA AVQLSDNGAT NLLLREIGGP AAMTQYFRKI GDSVSRLDRK EPEMSDNTPG DLRDTTTPIA MARTVAKVLY GGALTSTSTH TIERWLIGNQ TGDATLRAGF PKDWVVGEKT GTCANGGRND IGFFKAQERD YAVAVYTTAP KLSAVERDEL VASVGQVITQ LILSTDK
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Internal Repeat Elements |
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Name |
Associated Mobile Element |
Coordinates |
Sequence (Top Strand) |
repeat t1 |
TnPfu1.2 |
9-27 |
TCAGAAGACG ACTGCACCA |
repeat t2 |
TnPfu1.2 |
49-67 |
AACACGTCGG TCGAGGACT |
repeat t3 |
TnPfu1.2 |
78-97 |
TCAGAAGTGA TCTGCACCAA |
repeat t4 |
TnPfu1.2 |
110-128 |
TCAATACTCG TGTGCACCA |
repeat i3 |
TnPfu1.2 |
7885-7904 |
ACGACGGGCG GTAACGTACT |
repeat i2 |
TnPfu1.2 |
7925-7943 |
ATCACGTCAG CCGAAGACT |
IRi |
TnPfu1.2 |
7942-7974 |
CTGCAAGTCA CGTCGGCGGA AGACTTTTGC TGT |
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