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Recombination Sites | |
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Internal Transposable Elements | |
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Internal Repeats | |
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| Name: TnOtChr.1 (Synonyms: Tn7170) |
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| Family: Tn3 Group: Tn21 |
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| Evidence of Transposition: yes |
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| Host |
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| Host Organism: | Pseudomonas sp. Tik3 | | |
| Place of Origin: | Siberia, Russia | Date of Isolation: | 2011 |
| | Other Geographic Information: | 15,000-40,000-year-old permafrost |
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| Map |
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| Terminal Inverted Repeats (IR) |
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| IRL (Length: 38 bp) |  | GGGGTCGTCTCAGAAAACGGACCGCAAAGTACGCTAAG |
| IRR (Length: 38 bp) | | GGGGTCGTCTCAGAAAACGGACCGCAAAGTACGCTAAG |
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| Sequence |
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--------10 --------20 --------30 --------40 --------50 --------60 --------70 --------80 --------90 -------100
GGGGTCGTCT CAGAAAACGG ACCGCAAAGT ACGCTAAGCC GGACTACCCC GGCCCCTGCC GATGCTTGGC CAGCAGCCGC ACAACGGTGG AAGGATGGAC 100
TCGAAACAAG CGGGCAGCAT CAGCCCCCGT CTTCTGCCCC GACGTGATCA GGGCGACGAT CTCTTTTTGC TGTTGCTGCG TCAGCTTCGG ACGTCGGCCG 200
CCGACGCGCC CATCCTTGCG CGCAGCTTCC AGACCGTGCC GCGTGCGCTC GCGTAGCATC GCCCGCTCGA ACTCCGCGAA TGAACCGACG ATCTGCATCA 300
TCATTCGTCC AGCCGGTGTC GTGGTGTCGA TAGATTCAGT GAGACTCTGA AAGCCCGCGC CCGCTTCTTC AATCTTTTCC AAGGTCAGCA GCAGGTCTTT 400
CAAGGACCGG GACAAGCGAT CCAGTTTCCA TACCACCACC ACATCGGCCT TGCGCAGGTG GCCAAGCAAC CGATGCAGCT CCGGACGATC CCAGCGCCCA 500
CCAGAGGCCT TCTCCTGGAA GATCAACTCA CACCCTGCCG ATTGCAAGGC AGAGATTTGA GCTTGGTTGT CTTGCTCTTG GGTCGAAACG CGGGCGTAAC 600
CGATGCGCAT GATTGCTTAT TCCTATTGCC ATTTGTTTTT ATTTTGCAAT ACGTTTTAGC AACGCACAAC ACCTTATGGG TGTGCTGCCT CCATTGTGAT 700
TGCGCAAATG ACCGTTTTTG CAATCTACTC AAGACTTTAT TTTGTAGATC TTATCTCATT ATTGTAGTAA CATCTACGAA ATGAATTTGC TTTCGCTTAT 800
CCTTTCCTTG CCTACTGAAA ACGCGACCGT CCGGCAACGG ACGTGGCGTG CCCTCAAAGC CTCCGGCGCT GCGGTGCTGC GCGACGGCGT GTACCTGATG 900
CCCGACCGCG ACGAATGCCG CGCGGTGCTG GATAACTTGG CCTCCGATGT GCGTGAAGGC GGTGGGGTCG CTCATGTGCT GCGTATGGAA GACCCTGAAG 1000
GGGTCAACTT CGTCGCATTA TTCGACCGCA GCAACGATTT TGCTGCCTTG CTAGTCGATG TCCATCATCT CAGGCAGACG CTGACATTGG ATACCGTGCA 1100
AGACGTGCTG CGGCAGGTGC GTAAGCTTCG CAAATCCTTT ACTACGCTGG TTGAAATCGA CTTCTACCCC GGCGAGGCTC AGCGTCAAGC GGACAGTGCG 1200
TTGTGTGAAC TGGAACAAGC TTGCGCCCGC ACGCTGTCGC CGGACGAGCC GCACGCTGTA GAGGGGACTA TTACCCGCTT GGATCGTTTG GATTACCAGG 1300
CCCGTACCTG GGCCACTCGC GCACGTCCTT GGGTTGATCG GCTCGCCAGC GCATGGCTGA TCCGGCGCTT CATCGACCCG CAGGCGCGCA TCCTTTGGTT 1400
GGCAACCCCT GCGGACTGCC CGCCGGATGC GTTGGGCTTC GACTTCGATG GCGCGACGTT CAGCCATGTC GGCAGCCGTG TCACGTTCGA GGTCCTGGCG 1500
GCGAGCTTTG GGCTGGAACA GCCCGCCATC ACAAGGATTG GCCTTGTGGT GCATTACCTC GACGTGGGCG GCATCCAGCC GCCAGAGGCC ACTGGTATCG 1600
AAAGCGTACT GGCCGGTTTG CGGGAAACGG TTGACCACGA CGATCAACTA TTGGCCATCG CCTCCACTGT GTTCGATGGC TTACTGGCCA GCTTTGAAAA 1700
AGGGACCCTC ACCGTATGAC TCAAACCGTC GTAACCAAGG AGGCTGTGGC AGTGCCTCCC TCCCCACAAG TTGTCAGCTT TTGGCAAGCG TTTCGCCTGT 1800
GGTTAAAGAT CGGGTTCATA GGCTTCGGCG GCCCCGCCGG ACAGATCGCG ATCATGCACC GCGAATTGGT CGAACAGCGG CGCTGGATCA GCGAGCGTCG 1900
CTTTCTGCAT GCGCTCAACT TCTGCATGCT GCTTCCGGGC CCGGAGGGGC AGCAACTCGC CACATACATG GGCTGGCTAA TGCACCGAAC TTGGGGAGGC 2000
ATAGTTGCAG GTGTCCTGTT TGTGCTGCCT TCGCTCTTCT TTCTGATCGC GCTGTCGTGG ATTTACATTG CGTTCGGTGA CACGCCACTG GTTTCCGGCC 2100
TGTTCTACGG CATCAAACCT GCCATCACCG CGGTTGTCGT GCAGGCCGTG CATCGGATCG GCTCGCGTGC TCTCAAGAAC GGCCTGATGT GGGCGATTGC 2200
CGCTGGGGCA TTCGTCGCCA TCTTCGCGAT GAATGTGCCG TTTCCGGCCA TCGTCGCCGG GGCCGCGCTG ATAGGGTATA TCGGCGGTCG CGTTACCCCG 2300
GACAAATTCA GGGCCGGCGG CGCGCATCGT GCGGCCGATA AATCCTATGG CCCCGCGCTG ATCGATGACA ACACCCCCAT ACCGTCGCAC GCCCTGTTCC 2400
GCTGGTCTGG CTCGCTGCGG GTTGCCGCGA TGGGTTGCCT GTTGTGGCTG ATCCCCATGG CATTCCTTCT CGGCACCTAT GGCTGGGACC ACACCCTGAC 2500
CCAGATGGGC TGGTTCTTTA CGAAAGCCGC ATTACTGACC TTTGGGGGGG CCTATGCAGT ATTGCCGTAC ATCTATCAGG GTGCGGTCGG CCATTACAGT 2600
TGGCTCACCC CCACGCAGAT GGTCGATGGG TTGGCGCTCG GCGAGGCCAA TCCGGGGCCG CTCATTATGG TGGTGGCCTT CGTCGGCTTT GTGGGGGCCT 2700
ATGTACAGGC ACTATTCGGC CCCGACATGT TGTTCGTTGC CGGTGCGGTC GCAGCCGCGC TGGTGACCTG GTTCACTTTC CTGCCGTCCT TCATTTTCAT 2800
CCTCGCCGGA GGGCCGTTCG TAGAGTCGAC GCGCGGAGAT CTCCGGTTTA CCGCGCCGCT GACTGCGATA ACGGCAGCGG TGGTCGGTGT GATCCTGAAC 2900
CTGGCCGTGT TTTTCGCCTA TCACGTGCTC TGGCCCAAAG GCCTCGCCGG GCTCTTCGAC TGGGTGTCGG CACTGATCAC CATCGGTGCG GCAGTGGCCT 3000
TGTTCCGCTT CAAGCGAAAC GTGATTCACG TCATCGCGGC ATGTGCGGTG CTGGGCCTGA TATTGAAGAC CTTGATCTTG TGAGGTGACA CCATGTCCTT 3100
CGACATTAAA CCGCTGCCTT TCCCCGCAAG TACCCTAAAT GGTCTGTCCG AAAAGCTGAT CGCCAGCCAT CACGAAAACA ACTATTCCGG GGCCGTCAAA 3200
CGCCTGAACG CCATCCACAC CAAGCTCGGC ACCCTTGACT TCACGCAGGA AGCCGGCTTC CTGCTGAACG GTCTCAAACG CGAAGAACTG ATCGCCTACA 3300
ACTCGATGCT GCTGCATGAG ATCTACTTCG ACTCGCTGGG CGGCAACGGC GTGTTGCCCG TAGGCCCGCT GTGCGAGGCG ATCGAGCGCG ACTTTGGCAG 3400
CGTCGAGCGC TGGCAGGCCG AATTCTCGGC GATGGGCAAG GCGCTCGGCG GCGGTTCCGG CTGGGTGCTG CTGGTCCAAT CAGCGCGCGA CGGCAAGTTG 3500
AGCAACCAGT GGGCCGCCGA TCACTGCCAC ACCTTGGCTG GCGCTTTGCC AATCCTGGCG CTTGATATGT ATGAACACGC GTATCACATC GACTATGGCG 3600
CCAAGGCCGG TGCCTATGTA GATGCATTCA TGGCCAACAT CGACTGGCAA CGAGCGGCTA TTCGCTGGGC TAGTCACCAA CCCTCAGGAG GACTCTCATG 3700
AAATGGATTA CCCGCGAACG CCCGAAGATC GATCGCATTG CCTGCCCGTG GATGGTGACG CGGTTCATCG ACACGCATGC CGAGTTCCTC TACGTCCCGG 3800
CAGGCGACGT GCTGCGCATC GCTCAGGAGA CCGGCGCGGT CCCGTATGAC ATTCCTGGAG TGGAACTTTC CCATGACGGT GAGCTTTGCA GCTTCGATGC 3900
CTTCCTGGCC AAGTACGCGA TGGATGACCC TGCCCTCAAA CAGCTCGCCG TGATTGTTCG CGGTGCCGAT ACATCCCGAC TTGACCTGAC GCCGCAGTCG 4000
ACAGGGTTGT ACGCGCTATC TCTTGGCTTG TCGCAGAACT TCAGCGACGA CCATGAAATG CTCAAGCACG GCATGGTGAT GTACGACGCG TTCTATGCAT 4100
GGTGCAAGCA CTGCCAGAGT GAGACGCATA ACTGGCCGCC GAAGATGTAA CCAAGCGAAT TCGAGAGGGA GTCGCCGGAC ATGCCGCGCC GTTCGATCCT 4200
GTCCGCCGCC GAGCGCGAGA GCCTGCTGGC GTTGCCGGAC ACCATGGAGG ACTTGATCCG CTACTACACG TTCAGCGAAT CCGACCTCTC GATCATCCGG 4300
CAACGGCGCG GTCCAGCCAA CCTCCTGGGC TTCGCCGTGC AGCTCTGCTA CATGCGCTAT CCCGGCATGA TGCTCGCGGT AGATACGGAG CCGTTTCCGC 4400
CGTTGCTGCG TCTGGTAGCC ACGCAACTGA AGGTGCCACC CGAAGCCTGG GCGGACTACG GCCAGCGCGC CGAGACGCGC CGCGAGCACC TGCTGGAACT 4500
GCAATCGATC TTTGGTTTCC AGGCCTTCGC AACGCGGCAC TATCGCCCCA GCGTGCACAG CCTGGATGAA CTGGCTTGGC AGACCGACAA AGGCATCGTG 4600
TTGGCGACGG AGTTGATCGA AGGGCTGCGA CAAAAGAGCG TGCTGCTCCC GTCACCGGGC GTCATTGAAC GCATCTGCGC CGAGGCCATT ACTCGCGCCA 4700
ACCGGCGCAT CTACGAAGCG CTGTCCGAGC CGCTGACAGA CCCCCACCGG CATCGCCTCG ATGATCTGCT CAAGCGCCGC GAGTTCGGCA AGACGACCTG 4800
GCTGGCCTGG CTGCGCCAGT CGCCCGTCAA GCCGAACTCG CGCCACATGC TCGAACACAT CGAGCGCCTG AAAGCCTGGC AAGCGCTCGA CCTGCCTACT 4900
GGCATCGAAC GGCTGCTTCA CCAGAACCGG CTGCTCAAGA TCGCCCGCGA GGGTGGCCAG ATGACGCCCG CTGATCTGGC CAAGTTCGAG CCGCAACGGC 5000
GCTACGCCAC CCTCGTCGCG CTGGCCATCG AGGGTATGGC CACCGTCATC GACGAAATCA TCGACCTGCA CGACCGCATT CTGGGCAAGC TGTTCAACGC 5100
CGCCAAACAC AAGCATCAGC AACAGTTCCA GGCGTCCGGC AAAGCGATCA ACGCCAAGGT GCGACTGTAC GGACGCATCG GCCAGGCGCT GATCGACGCC 5200
AAGCAGTCGG GCGGCAACCC GTTCGCCGCC ATCGAGGCCG TCATGTCCTG GGATGCCTTC GCCCAGAGCG TCACCGAGGC GCAGAAGCTC GCGCAGCCCG 5300
ATGACTTCGA TTTCCTGCAC CGCATCGGCG AGAGCTACGC TACCTTGCGC CGCTACGCGC CGGAATTCCT GGCCGTGCTC AAGCTGCGGG CCGCGCCCGC 5400
CGCCAAGGGC GTGCTCGACG CCGTCGACGT ACTGCGCGGC ATGAACACTG ACAACGTCCG CAAGGTGCCC ACTGATGCCC CGACCGACTT CATCAAGCCT 5500
CGTTGGCAGA AGCTGGTGAT GACCGACGCC GGCATCGACC GGCGCTACTA TGAACTGTGC GCGCTGTCGG AACTCAAGAA CTCGCTGCGC TCGGGCGACA 5600
TCTGGGTGCA GGGCTCGCGT CAGTTCAAGG ATTTCGAGGA TTACCTGGTG CCGCACGAGA AGTTCGCCAG CCTCAAGCAG GGCAGCGAAT TGCCGCTGGA 5700
CGTGGCCACC GACTGCGACC AGTACCTGTA CGAGCGGCTG ACACTGCTAG AAGCGCAGCT TGCCACCGTC AACCGCATGG CGGCGGCCAA CGACTTGCCG 5800
GATGCCATCA TCACCGAGTC GGGCCTGAAG ATCACGCCGC TGGACGCGGC GGTGCCCGAC ACCGCGCAGG CGCTGATCGA CCAGACAGCA ATGATCCTGC 5900
CGCACGTCAA GATCACCGAA CTACTGCTCG AAGTCGATGA GTGGACGGGC TTCACCCGGT ACTTCACGCA CTTGAAATCC GGCGACCTGG CCAAGGACAA 6000
GAACCTGCTG CTGACCACGA TCCTGGCCGA TGCGATCAAC CTGGGCTTGA GCAAGATGGC CGAGTCCTGC CCCGGCACGA CCTACGCCAA GCTGGCCTGG 6100
CTGCAAGCCT GGCACATCCG CGACGAGACC TATTCAACGG CGCTGGCAGA ACTGGTCAAC ACCCAGTTCC GGCATCCCTT CGCCTGTCAC TGGGGCGACG 6200
GCACCACGTC ATCGTCGGAC GGTCAGAACT TCCGAACAGG CAGCAAGGCC AAAAGCACCG GCCATATCAA CCCGAAGTAT GGCAGCAGCC CAGGACGGAC 6300
TTTCTACACC CACATCTCTG ACCAGTACGC GCCGTTCCAC GCCAAGGTGG TCAACGTCGG CGTGCGCGAC TCGACCTACG TGCTCGACGG CCTCCTTTAC 6400
CACGAATCCG ACCTGCGGAT CGAGGAGCAC TACACCGACA CGGCGGGCTT TACCGATCAC GTCTTCGCGC TCATGCACCT GCTGGGCTTC CGCTTCGCGC 6500
CGCGCATCCG CGACCTGGGC GACACTAAGC TCTACCTCCC TAAGGGCGAT ACCGCCTATG AGGCGCTCAA GCCGATGGTC GGCGGCACGC TCAACATCAA 6600
GCATGTCCGT GCCCATTGGG ATGAAATCCT GCGGCTGGCT ACCTCGATCA AACATGGCAC GGTGACGGCC TCACTAATGC TGCGCAAGCT CGGCAGCTAT 6700
CCACGCCAGA ACGGCCTGGC CGTCGCCCTG CGTGAGCTGG GACGCATCGA GCGCACGCTG TTCATCCTCG ACTGGCTGCA AAGCGTGGAG CTGCGCCGCC 6800
GTGTCCACGC CGGACTCAAC AAGGGGGAAG CGCGGAACGC GTTGGCCCGC GCCGTGTTCT TCAACCGGCT GGGTGAAATT CGCGACCGCA GTTTCGAGCA 6900
GCAGCGCTAC CGGGCCAGCG GCCTAAACTT GGTGACGGCG GCTGTCGTGT TATGGAACAC GGTCTACCTG GAGCGCGCAG CGCATGCGCT GCGTGGAAAC 7000
GGTCTCGGCA TCGATGATGC GCTGTTGCAG TACCTGTCGC CGCTGGGCTG GGAGCACATC AACCTGACCG GCGATTACCT CTGGCGCAGC AGCGCCAAGA 7100
TCGGAGCTGG CAAATTCAGG CCCCTACGAC CGCTGCAGCC GCCTTAGCGT ACTTTGCGGT CCGTTTTCTG AGACGACCCC
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| ORFs |
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| Gene Name |
Associated TE |
Coordinates |
Class |
Sub Class |
Orientation |
| tnpR |
TnOtChr.1 |
44-610 |
Accessory Gene |
Resolvase |
- |
| chrB |
TnOtChr.1 |
781-1719 |
Passenger Gene |
Heavy Metal Resistance |
+ |
| chrA |
TnOtChr.1 |
1716-3083 |
Passenger Gene |
Heavy Metal Resistance |
+ |
| chrC |
TnOtChr.1 |
3093-3701 |
Passenger Gene |
Heavy Metal Resistance |
+ |
| chrF |
TnOtChr.1 |
3698-4150 |
Passenger Gene |
Heavy Metal Resistance |
+ |
| tnpA |
TnOtChr.1 |
4181-7147 |
Transposase |
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| Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
| tnpR |
TnpR |
TnOtChr.1 |
567 |
44-610 |
- |
| Class: | Accessory Gene |
| Sub Class: | Resolvase |
| Transpoase Chemistry: | Serine |
| Sequence Family: | Serine Site-Specific Recombinase |
Protein Sequence:
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MRIGYARVST QEQDNQAQIS ALQSAGCELI FQEKASGGRW DRPELHRLLG HLRKADVVVV WKLDRLSRSL KDLLLTLEKI EEAGAGFQSL TESIDTTTPA
GRMMMQIVGS FAEFERAMLR ERTRHGLEAA RKDGRVGGRR PKLTQQQQKE IVALITSGQK TGADAARLFR VHPSTVVRLL AKHRQGPG
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| Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
| chrB |
ChrB |
TnOtChr.1 |
939 |
781-1719 |
+ |
| Class: | Passenger Gene |
| Sub Class: | Heavy Metal Resistance |
| Target: | Chromate |
| Comment: | chromate-sensitive regulator of chrBACF operon exclusively activated by Cr(VI) |
Protein Sequence:
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MNLLSLILSL PTENATVRQR TWRALKASGA AVLRDGVYLM PDRDECRAVL DNLASDVREG GGVAHVLRME DPEGVNFVAL FDRSNDFAAL LVDVHHLRQT
LTLDTVQDVL RQVRKLRKSF TTLVEIDFYP GEAQRQADSA LCELEQACAR TLSPDEPHAV EGTITRLDRL DYQARTWATR ARPWVDRLAS AWLIRRFIDP
QARILWLATP ADCPPDALGF DFDGATFSHV GSRVTFEVLA ASFGLEQPAI TRIGLVVHYL DVGGIQPPEA TGIESVLAGL RETVDHDDQL LAIASTVFDG
LLASFEKGTL TV
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| Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
| chrA |
ChrA |
TnOtChr.1 |
1368 |
1716-3083 |
+ |
| Class: | Passenger Gene |
| Sub Class: | Heavy Metal Resistance |
| Target: | Chromate |
| Comment: | chromate efflux pump |
Protein Sequence:
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MTQTVVTKEA VAVPPSPQVV SFWQAFRLWL KIGFIGFGGP AGQIAIMHRE LVEQRRWISE RRFLHALNFC MLLPGPEGQQ LATYMGWLMH RTWGGIVAGV
LFVLPSLFFL IALSWIYIAF GDTPLVSGLF YGIKPAITAV VVQAVHRIGS RALKNGLMWA IAAGAFVAIF AMNVPFPAIV AGAALIGYIG GRVTPDKFRA
GGAHRAADKS YGPALIDDNT PIPSHALFRW SGSLRVAAMG CLLWLIPMAF LLGTYGWDHT LTQMGWFFTK AALLTFGGAY AVLPYIYQGA VGHYSWLTPT
QMVDGLALGE ANPGPLIMVV AFVGFVGAYV QALFGPDMLF VAGAVAAALV TWFTFLPSFI FILAGGPFVE STRGDLRFTA PLTAITAAVV GVILNLAVFF
AYHVLWPKGL AGLFDWVSAL ITIGAAVALF RFKRNVIHVI AACAVLGLIL KTLIL
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| Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
| chrC |
ChrC |
TnOtChr.1 |
609 |
3093-3701 |
+ |
| Class: | Passenger Gene |
| Sub Class: | Heavy Metal Resistance |
| Target: | Chromate |
| Comment: | superoxide dismutase unkown function |
Protein Sequence:
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MSFDIKPLPF PASTLNGLSE KLIASHHENN YSGAVKRLNA IHTKLGTLDF TQEAGFLLNG LKREELIAYN SMLLHEIYFD SLGGNGVLPV GPLCEAIERD
FGSVERWQAE FSAMGKALGG GSGWVLLVQS ARDGKLSNQW AADHCHTLAG ALPILALDMY EHAYHIDYGA KAGAYVDAFM ANIDWQRAAI RWASHQPSGG
LS
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| Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
| chrF |
ChrF |
TnOtChr.1 |
453 |
3698-4150 |
+ |
| Class: | Passenger Gene |
| Sub Class: | Heavy Metal Resistance |
| Target: | Chromate |
Protein Sequence:
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MKWITRERPK IDRIACPWMV TRFIDTHAEF LYVPAGDVLR IAQETGAVPY DIPGVELSHD GELCSFDAFL AKYAMDDPAL KQLAVIVRGA DTSRLDLTPQ
STGLYALSLG LSQNFSDDHE MLKHGMVMYD AFYAWCKHCQ SETHNWPPKM
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| Gene Name |
Protein Name |
Associated TE |
Gene Length |
Coordinates |
Strand |
| tnpA |
TnpA |
TnOtChr.1 |
2967 |
4181-7147 |
+ |
| Class: | Transposase |
| Transpoase Chemistry: | DDE |
Protein Sequence:
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MPRRSILSAA ERESLLALPD TMEDLIRYYT FSESDLSIIR QRRGPANLLG FAVQLCYMRY PGMMLAVDTE PFPPLLRLVA TQLKVPPEAW ADYGQRAETR
REHLLELQSI FGFQAFATRH YRPSVHSLDE LAWQTDKGIV LATELIEGLR QKSVLLPSPG VIERICAEAI TRANRRIYEA LSEPLTDPHR HRLDDLLKRR
EFGKTTWLAW LRQSPVKPNS RHMLEHIERL KAWQALDLPT GIERLLHQNR LLKIAREGGQ MTPADLAKFE PQRRYATLVA LAIEGMATVI DEIIDLHDRI
LGKLFNAAKH KHQQQFQASG KAINAKVRLY GRIGQALIDA KQSGGNPFAA IEAVMSWDAF AQSVTEAQKL AQPDDFDFLH RIGESYATLR RYAPEFLAVL
KLRAAPAAKG VLDAVDVLRG MNTDNVRKVP TDAPTDFIKP RWQKLVMTDA GIDRRYYELC ALSELKNSLR SGDIWVQGSR QFKDFEDYLV PHEKFASLKQ
GSELPLDVAT DCDQYLYERL TLLEAQLATV NRMAAANDLP DAIITESGLK ITPLDAAVPD TAQALIDQTA MILPHVKITE LLLEVDEWTG FTRYFTHLKS
GDLAKDKNLL LTTILADAIN LGLSKMAESC PGTTYAKLAW LQAWHIRDET YSTALAELVN TQFRHPFACH WGDGTTSSSD GQNFRTGSKA KSTGHINPKY
GSSPGRTFYT HISDQYAPFH AKVVNVGVRD STYVLDGLLY HESDLRIEEH YTDTAGFTDH VFALMHLLGF RFAPRIRDLG DTKLYLPKGD TAYEALKPMV
GGTLNIKHVR AHWDEILRLA TSIKHGTVTA SLMLRKLGSY PRQNGLAVAL RELGRIERTL FILDWLQSVE LRRRVHAGLN KGEARNALAR AVFFNRLGEI
RDRSFEQQRY RASGLNLVTA AVVLWNTVYL ERAAHALRGN GLGIDDALLQ YLSPLGWEHI NLTGDYLWRS SAKIGAGKFR PLRPLQPP
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| References |
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Petrova M, Gorlenko Z, Mindlin S. Tn5045, a novel integron-containing antibiotic and chromate resistance transposon isolated from a permafrost bacterium. Res Microbiol. 2011 Apr;162(3):337-45. doi: 10.1016/j.resmic.2011.01.003. Epub 2011 Jan 22. PubMed ID: 21262357
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