Transposon
Name: Tn5036
Family: Tn3        Group: Tn21
Evidence of Transposition: no
 Host     

Host Organism:Enterobacter
Place of Origin:Carpathia, Central Europe Date of Isolation:1997
Other Geographic Information:intestine of a yellow belly toad

 Map     



 Terminal Inverted Repeats (IR)     

IRL (Length: 38 bp)GGGGTCGTCTCAGAATTCGGAAAATAAAGCACGCTAAG
IRR (Length: 41 bp)GGGGTCGTCTCAGAAAACGGAAAATAAAGCACGCTAAGCCG

 Sequence     
DNA SequenceLength  8012 
--------10 --------20 --------30 --------40 --------50 --------60 --------70 --------80 --------90 -------100
GGGGTCGTCT CAGAATTCGG AAAATAAAGC ACGCTAAGGC GTAGTCACCC CGTGACTCCC CCGCGCCGAT GCAGCGAGCT TCGTTCCGTC TTGCAGTGAC 100
GCAATCAGCG GGCAGGAAAC GTTCCCTTTC CGCGCATGGC AGGCGCACAC CAGTTCAGAC AGCACGGCCT CCATGCGTGC CAAGTCGGCC ATCTTCTCGC 200
GCACATCCTT GAGCTTGTGC TCGGCCAGGC CGCTGGCTTC CTCGCAATGG GTGCCATCCT CCAGCCGCAG TAGCTCGGCG ATTTCGTCCA GGCTAAAGCC 300
CAGCCGCTGG GCCGATTTCA CGAACCGCAC TCGTGTTACA TCCGCCTCGC CATAGCGGCG AATGCTGCCA TAGGGCTTGT CTGGCTCCGG CAGCAGGCCC 400
TTGCGCTGGT AGAACCGGAT GGTCTCCACA TTGACCCCGG CCGCCTTGGC AAAAACGCCA ATGGTCAGAT TCTCAAAATT AATTTGCATA TCGCTTGACT 500
CCGTACATAA CTACGGAAGT AAGCTTAAGC TATCCAAACC AAATTTGAAA GGACAAGCGT ATGTCTGAAC CACAAAAGTC TGAACCACAA AAGTCTGAAC 600
CACAAAAGTC TGAACCACAA AACGGGCGCG GCGCGCTCTT CGCCGGTGGG CTGGCCGCCA TTCTTGCGTC GGCCTGCTGC CTGGGGCCGC TGGTTTTGAT 700
CGCCTTGGGG TTCAGCGGGG CATGGATCGG CAACCTGACG GTGCTGGAAC CCTATCGCCC GATCTTCATC GGCGCAGCGC TGGTCGCGCT GTTTTTCGCC 800
TGGCGGCGCA TCTACCGCCC GGCGCAAGCC TGCAAACCGG GTGAGGTCTG CGCGATTCCC CAAGTGCGAG CTACTTACAA GCTCATTTTC TGGATCGTGG 900
CCGCGCTGGT CCTGGTCTCG CTCGGATTTC CCTACGTCAT GCCATTTTTC TATTAATCAC AGGAGTTCAT CATGAAAAAA CTGTTTGCCG CCCTCGCCCT 1000
CGCTGCCGTT GTTGCCCCCG TGTGGGCCGC CACCCAGACC GTCACGCTGT CCGTGCCTGG CATGACCTGC GCCTCTTGCC CGATCACTGT CAAGCACGCG 1100
CTTTCCAAGG TTGAGGGCGT GAGCAAGACC GACGTAAGTT TCGACAAGCG CCAGGCCGTC GTCACCTTCG ACGATGCCAA GACCAACGTC CAGAAGTTGA 1200
CCAAGGCGAC CGAGGACGCG GGCTATCCGT CCAGCCTCAA ACGCTGATCC GTTAACCGAA CTCGGGAGCG ACACATGGGA CTCATCACGC GCATCGCTGG 1300
CAAAACCGGC GCGCTCGGCA GCGTCGTTTC CGCGATGGGC TGCGCCGCCT GTTTTCCTGC CATCGCCAGC TTTGGCGCGG CCATCGGACT GGGCTTCTTG 1400
AGCCAGTACG AGGGGCTATT CATTGGCATC CTGCTGCCGA TGTTCGCCGG CATCGCGTTA CTCGCCAATG CTATCGCTTG GCTCAATCAT CGACAGTGGC 1500
GACGCACGGC GCTCGGCACG ATAGGCCCGA TCTTGGTGCT GGCAGCGGTG TTTTTAATGC GGGCTTACGG CTGGCAGAGC GGTGGACTGC TCTATGTCGG 1600
CCTGGCCTTG ATGGTTGGGG TGTCGGTCTG GGATTTCATC TCGCCAGCAC ATCGCCGCTG CGGGCCGGAC AGCTGTGAAT TGCCAGAACA ACGTGGCTGA 1700
CGGCAACAGC CGTAGCCACC ACAGAAAAGG AAAAATACAT GACCACCCTG AAAATCACCG GGATGACCTG CGACTCGTGC GCGGCTCACG TCAAGGAAGC 1800
CTTGGAGAAA GTGCCCGGCG TGCAATCGGC GCTGGTGTCC TATCCGAAGG GCACAGCGCA ACTCGCCATT GAGGCGGGCA CGTCATCGGA TGCGCTGACT 1900
ACCGCCGTGG CCGGACTGGG CTACGAGGCA ACGCTTGCCG ATGCGCCACC GACGGACAAC CGCGCCGGCC TGCTCGACAA GATGCGCGGC TGGATAGGGG 2000
CCGCTGATAA GCCCAGTGGC AACGAACGCC CGTTGCAGGT CGTCGTCATT GGTAGCGGTG GAGCCGCGAT GGCGGCAGCA CTGAAGGCCG TCGAGCAAGG 2100
CGCGCAGGTC ACGCTGATTG AGCGCGGCAC CATCGGCGGC ACCTGCGTCA ACGTCGGTTG TGTGCCGTCC AAGATCATGA TCCGCGTCGC CCACATCGCC 2200
CATCTGCGCC GGGAAAGCCC ATTCGACGGC GGCATGCCAC CCACACCGCC GACGATCTTG CGCGAGCGGC TGCTGGCCCA GCAGCAGGCC CGTGTCGAAG 2300
AACTCCGTCA TGCCAAGTAC GAAGGCATCC TGGACGGCAA TTCAGCCATC ACCGTTCTGC ACGGTGAAGC GCGTTTCAAG GACGACCAGA GCCTTATCGT 2400
TAGTTTGAAC GAGGGTGGCG AGCGCGTCGT GATGTTCGAC CGCTGCCTGG TCGCCACGGG TGCCAGCCCG GCGGTCCCGC CGATTCCGGG CTTGAAAGAG 2500
TCACCCTACT GGACTTCCAC CGAGGCCCTG GCGAGCGACA CCATTCCCGA ACGCCTTGCC GTAATCGGCT CGTCGGTGGT GGCGCTGGAG CTGGCGCAAG 2600
CCTTTGCCCG GCTGGGCAGC AAGGTCACGG CCCTGGCGCG CAATACCTTG TTCTTCCGTG AAGACCCGGC CATCGGCGAG GCGGTGACAG CCGCTTTCCG 2700
TGCCGAGGGC ATCGAGGTGC TGGAGCACAC GCAAGCCAGC CAGGTCGCCC ATATGGACGG TGAATTCGTG CTGACCACCA CGCACGGTGA ATTGCGCGCC 2800
GACAAGCTGC TGGTCGCCAC CGGCCGGACA CCGAACACGC GCAGCCTGGC ATTGGAAGCG GCGGGGGTAG CCGTCAATGC GCAGGGGGCC ATCGTCATCG 2900
ACAAGGGCAT GCGCACCAGT AGCCCGAACA TCTACGCGGC CGGCGACTGC ACCGACCAGC CGCAGTTCGT CTATGTGGCG GCAGCGGCCG GCACTCGTGC 3000
GGCGATCAAC ATGACTGGCG GCGATGCGGC CCTGGACCTG ACCGCAATGC CGGCCGTGGT GTTCACCGAC CCGCAGGTCG CCACCGTGGG CTACAGCGAG 3100
GCGGAAGCAC ATCACGACGG GATCGAGACC GACAGTCGCC TGCTAACACT GGATAACGTG CCGCGTGCGC TTGCCAACTT CGACACACGC GGCTTCATCA 3200
AGCTGGTCAT CGAGGAAGGT AGCGGACGGC TCATCGGCGT GCAAGCGGTG GCCCCGGAAG CGGGTGAACT GATCCAGACG GCGGTGCTCG CCATTCGCAA 3300
CCGTATGACC GTGCAGGAAC TGGCCGACCA GTTGTTCCCC TACCTGACCA TGGTCGAAGG GCTGAAGCTC GCGGCGCAGA CCTTCAGCAA GGACGTGAAG 3400
CAGCTTTCGT GCTGCGCCGG ATGAGGAAGA GGAGGTGTTC AATGAGCGCC TACACAGTGT CCCGGCTGGC CCTTGATGCC GGGGTGAGCG TGCATATCGT 3500
GCGCGACTAC CTGCTGCGCG GATTGCTACG GCCGGTCGCG TACACCACGG GCGGCTACGG CTTGTTCGAT GACACCGCGT TGCAACGCGT GCGCTTCGTA 3600
CGGGCTGCCT TCGAAGCGGG TATCGGCCTG GACGCACTGG CGCGGCTGTG CCGGGCGCTG GATGCTGCGG ACGGTGACGG TGCGTCTGCG CAGCTTGCCG 3700
TGTTGCGGCA ACTCGTCGAG CGTCGGCGCG AGGCCCTGGC CAGCCTCGAA ATGCAACTGG CCGCCATGCC AACCGAACCG GCACAGCACG CGGAGAGTCT 3800
GCCATGAACA GCCCAGAGCA CTTGCCGTCT GAGACGCACA AACCGATCAC CGGCTACTTG TGGGGCGCGC TGGCCGTGCT CACCTGTCCC TGCCATTTGC 3900
CGATTCTCGC CATTGTGCTA GCCGGCACGA CGGCCGGCGC GTTCATCGGG GAGCACTGGG GTATTGCAGC CCTCACGCTG ACCGGCTTGT TTGTCCTGTC 4000
TGTGACGCGG CTGCTGCGGG CCTTCAAGGG AAGATCATGA CCGCTTCCCA GCCAGCCGAG AGTGGGCAGC TTTGAGCTTC GCTACCAATC TGGAGGAGTA 4100
CCACCATGAA CGCAAACGCC CCGAACACTG CCAGTTGCAC CACCTGCTGC GTATGCTGCA AAGAAATTCC GCTCGATGCC GCCTTCACCC CGGAAGGCGC 4200
GGAATACGTC GAACATTTCT GCGGGCTGGA TTGCTATGAA CGCTTCCAGG CACGCGCCAA GGCCGCGACA GAATCTGACA TTGCGCCTGT CCCTGGCGGT 4300
TCGCAGCCGT CAGATTGAGG CATACCCTAA CTTGATGTCA GATGCCATGT GCAAACGATG TCAGATAGAG TTAAATTTCC TATTGATTGA CATATTCCGT 4400
CAAAGGTAAT AGATTTCATC CTGACACTTT TGCCTTTGGA GGCATCTTGC AAGGTCAACG CATCGGCTAT GTCCGCGTCA GCAGCTTCGA CCAGAACCCG 4500
GAACGGCAAT TGGAGGGTGT TCAGGTGGCG CGGGTGTTCA CCGACAAGGC TTGTGGCAAG GACACCCAGC GTCCCGAGCT TGAAAGGCTG CTGGCCTTCG 4600
TCCGCGAGGG CGACACCGTG GTGGTGCATA GCATGGACAG GCTGGCACGC AACCTTGATG ACCTGCGCCG CATCGTCCAA GGGCTGACAC AACGGGGCGT 4700
GCGCATGGAG TTCGTCAAAG AAGGGCTGAA GTTCACCGGC GAGGACTCAC CGATGGCCAA TCTGATGCTG TCGGTCATGG GAGCCTTCGC TGAGTTCGAG 4800
CGCGCCCTGA TCCGCGAACG TCAGCGCGAG GGAATCGTGC TGGCCAAGCA GCGCGGTGCC TACCGGGGAC GAAAGAAATC GCTGAACAGC GAACAAATTG 4900
CCGAGTTGAA ACGGCGAGTT GCGGCAGGCG ACCAGAAAAC CTTGGTGGCC CGTGACTTCG GCATCAGCCG CGAAACTTTG TACCAGTACC TGCGGGAAGA 5000
CTGACCATGC CACGCCGCTC AATCCTGTCC GCCACCGAGC GCGAAAGCCT GCTGGCACTG CCAGATGCCA AAGACGAACT GATACGGCAC TACACGTTCA 5100
ACGAAACCGA CCTGTCGGTG ATCCGTCAGC GTCGCGGCGC CGCGAATCGA TTGGGCTTCG CTGTGCAGCT TTGCTACTTG CGATTCCCTG GCACCTTTTT 5200
GGGCGTCGAT GAGCCTCCGT TTCCGCCCCT GTCGCGCATG GTGGCCGCGC AACTCAAGAT GCCAGTGGAA AGTTGGAGCG AGTACGGCCA GCGCGAACAG 5300
ACACGGCGGG AGCACTTGGT CGAGCTGCAA ACGGTTTTTG GGTTCAAGCC CTTCACCATG AGCCACTATC GGCAAGCCGT GCATACATTG ACCGAGCTGG 5400
CCTTGCAGAC CGACAAAGGC ATCGTGCTGG CGAGCGCACT TGTCGAGAAT CTGCGGCGGC AGAGCATTAT CCTGCCCGCC ATGAATGCCA TCGAGCGCGC 5500
AAGCGCCGAG GCCATCACCC GTGCCAACCG ACGCATTTAC GCGGCGCTGA CCGATTCTTT GTTATCACCC CACCGTCAGC GCCTGGACGA ACTTCTCAAG 5600
CGCAAGGACG GCAGTAAAGT GACGTGGCTG GCATGGCTGC GCCAGTCGCC TGCCAAACCG AACTCTCGCC ACATGCTCGA ACATATTGAG CGCCTGAAAT 5700
CCTGGCAAGC ACTTGATCTG CCCGCAGGCA TCGAGCGGCA GGTTCACCAG AACCGCCTGC TCAAAATCGC TCGTGAAGGT GGCCAGATGA CGCCTGCTGA 5800
TCTGGCAAAG TTCGAGGTGC AACGACGCTA TGCCACGCTG GTAGCGCTGG CCATCGAAGG CATGGCCACC GTCACCGATG AAATCATCGA CCTTCACGAT 5900
CGCATCATCG GCAAGCTGTT CAACGCGGCC AAGAACAAGC ATCAGCAGCA GTTCCAGGCT TCCGGCAAGG CGATCAACGA CAAGGTGCGG ATGTATGGGC 6000
GCATCGGTCA AGCGTTGATT GAGGCCAAGC AAAGCGGCAG CGATCCGTTC GCCGCCATCG AGGCCGTTAT GCCCTGGGAC ACCTTCGCCG CCAGCGTCAC 6100
CGAAGCGCAA ACATTGGCGC GGCCTGCCGA CTTTGATTTC CTGCACCACA TCGGTGAAAG CTATGCCACG CTACGCCGCT ACGCGCCGCA GTTCCTGGGC 6200
GTGCTCAAAT TGCGGGCTGC GCCCGCCGCC AAGGGTGTGC TCGATGCCAT CGACATGCTG CGCGGCATGA ACAGCGACAG CGCGCGCAAG GTGCCCGCCG 6300
ATGCGCCAAC CGCATTCATC AAGCCGCGCT GGGCAAAGCT GGTTCTGACC GACGACGGCA TCGACCGGCG TTACTACGAG TTATGCGCCC TGTCGGAGCT 6400
GAAGAACGCG CTGCGCTCCG GTGATGTCTG GGTGCAGGGT TCTCGCCAGT TCAAGGACTT CGACGAATAC CTGGTGCCGG TCGAGAAGTT CGCCACTTTG 6500
AAGCTGGCCA GCGAATTGCC GCTGGCAGTG GCCACCGACT GCGACCAATA CCTGCATGAC CGGTTGGAAT TGTTGGAGGC GCAACTCGCC ACAGTCAACC 6600
GCATGGCTTC GGCCAACGAC TTACCGGATG CCATCATCAC CACCGCGTCA GGCCTGAAGA TCACGCCGCT GGACGCGGCA GTACCAGACG CCGCGCAAGC 6700
CATGATCGAC CAGACAGCTA TGCTGCTGCC GCACCTCAAA ATCACCGAGT TGCTGATGGA GGTCGATGAA TGGACGGGCT TCACCCGCCA CTTCACACAC 6800
CTGAAGACCA GCGACACGGC CAAGGACAAA ACCTTGCTGT TGACGACGAT CCTGGCCGAC GCGATCAACC TGGGTCTGAC CAAAATGGCC GAGTCCTGCC 6900
CTGGCACCAC CTACGCCAAG CTGTCTTGGC TGCAAGCCTG GCACATCCGC GATGAAACCT ATTCGACGGC GCTGGCCGAG CTGGTGAATG CGCAGTTTCG 7000
GCAACCCTTC GCCGGCAACT GGGGTGACGG CACCACGTCA TCGTCGGACG GCCAGAACTT CAGAACCGGC AGCAAAGCAG AAAGCACTGG TCATATCAAC 7100
CCGAAGTATG GAAGCAGTCC AGGACGGACT TTCTACACCC ATATCTCCGA CCAGTACGCG CCCTTCAGTG CCAAGGTGGT CAACGTGGGC ATTCGTGATT 7200
CAACTTACGT GCTTGATGGC CTGCTGTACC ACGAGTCGGA CTTGCGCATC GAGGAACACT ACACCGACAC GGCAGGCTTC ACCGATCACG TGTTTGGCTT 7300
GATGCATTTG TTGGGATTTC GCTTCGCGCC GCGTATCCGT GACTTGGGCG AAACCAAGCT ATTCATCCCC AAGGGCGATG CCGCCTATGA CGCGCTCAAG 7400
CCGATGATTA GCAGCGACAG GCTGAACATC AAGCAAATAC GCGCCCATTG GGATGAAATT CTGCGGCTGG CCACCTCCAT CAAGCAAGGC ACGGTAACGG 7500
CTTCGCTGAT GCTGCGCAAA CTCGGCAGCT ACCCGCGCCA GAACGGCTTG GCCGTGGCGT TGCGCGAGCT GGGGCGCATC GAGCGCACGC TGTTCATTTT 7600
GGATTGGCTG CAAAGCGTGG AGCTGCGCCG CCGCGTCCAT GCGGGGCTGA ATAAGGGCGA GGCGCGCAAC GCGCTGGCCA GGGCGGTCTT CTTCTACCGA 7700
TTGGGTGAAA TCCGCGACCG CAGTTTTGAG CAGCAGCGCT ACCGGGCCAG CGGCCTCAAT CTGGTGACGG CGGCCATCGT GTTGTGGAAC ACGGTATATC 7800
TGGAGCGTGC CACCAGTGCT TTGCGTGGCA ACGGCACGGC GCTGGACGAC ACATTGTTGC AATATCTGTC GCCGCTGGGG TGGGAGCACA TCAACCTGAC 7900
CGGCGATTAC CTATGGCGCA GCAGCGCCAA GGTCGGTGCG GGGAAGTTTA GGCCATTGCG ACCGCTGCCA CCGGCTTAGC GTGCTTTATT TTCCGTTTTC 8000
TGAGACGACC CC

 Recombination Sites     

Name Coordinates Gene Sequence
res 4308-4426 119 CGTCAGATTG AGGCATACCC TAACTTGATG TCAGATGCCA TGTGCAAACG ATGTCAGATA
GAGTTAAATT TCCTATTGAT TGACATATTC CGTCAAAGGT AATAGATTTC ATCCTGACA
res_site_I 4308-4338 31 CGTCAGATTG AGGCATACCC TAACTTGATG T
res_site_II 4359-4391 33 TGTCAGATAG AGTTAAATTT CCTATTGATT GAC
res_site_III 4395-4426 32 TTCCGTCAAA GGTAATAGAT TTCATCCTGA CA

 ORFs     
ORF Summary
Gene Name Associated TE Coordinates Class Sub Class Orientation
merR Tn5036 34-489 Passenger Gene Heavy Metal Resistance -
merT Tn5036 594-956 Passenger Gene Heavy Metal Resistance +
merP Tn5036 972-1247 Passenger Gene Heavy Metal Resistance +
merC Tn5036 1275-1700 Passenger Gene Heavy Metal Resistance +
merA Tn5036 1739-3424 Passenger Gene Heavy Metal Resistance +
merD Tn5036 3442-3807 Passenger Gene Heavy Metal Resistance +
merE Tn5036 3804-4040 Passenger Gene Heavy Metal Resistance +
urf-2Y Tn5036 4106-4318 Passenger Gene Heavy Metal Resistance +
tnpR Tn5036 4447-5004 Accessory Gene Resolvase +
tnpA Tn5036 5007-7979 Transposase   +

ORF Details
Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merR MerR Tn5036 456 34-489 -
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
MQINFENLTI GVFAKAAGVN VETIRFYQRK GLLPEPDKPY GSIRRYGEAD VTRVRFVKSA QRLGFSLDEI AELLRLEDGT HCEEASGLAE HKLKDVREKM
ADLARMEAVL SELVCACHAR KGNVSCPLIA SLQDGTKLAA SARGSHGVTT P

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merT MerT Tn5036 363 594-956 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
SEPQKSEPQN GRGALFAGGL AAILASACCL GPLVLIALGF SGAWIGNLTV LEPYRPIFIG AALVALFFAW RRIYRPAQAC KPGEVCAIPQ VRATYKLIFW
IVAALVLVSL GFPYVMPFFY

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merP MerP Tn5036 276 972-1247 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
MKKLFAALAL AAVVAPVWAA TQTVTLSVPG MTCASCPITV KHALSKVEGV SKTDVSFDKR QAVVTFDDAK TNVQKLTKAT EDAGYPSSLK R

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merC MerC Tn5036 426 1275-1700 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
MGLITRIAGK TGALGSVVSA MGCAACFPAI ASFGAAIGLG FLSQYEGLFI GILLPMFAGI ALLANAIAWL NHRQWRRTAL GTIGPILVLA AVFLMRAYGW
QSGGLLYVGL ALMVGVSVWD FISPAHRRCG PDSCELPEQR G

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merA MerA Tn5036 1686 1739-3424 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
MTTLKITGMT CDSCAAHVKE ALEKVPGVQS ALVSYPKGTA QLAIEAGTSS DALTTAVAGL GYEATLADAP PTDNRAGLLD KMRGWIGAAD KPSGNERPLQ
VVVIGSGGAA MAAALKAVEQ GAQVTLIERG TIGGTCVNVG CVPSKIMIRV AHIAHLRRES PFDGGMPPTP PTILRERLLA QQQARVEELR HAKYEGILDG
NSAITVLHGE ARFKDDQSLI VSLNEGGERV VMFDRCLVAT GASPAVPPIP GLKESPYWTS TEALASDTIP ERLAVIGSSV VALELAQAFA RLGSKVTALA
RNTLFFREDP AIGEAVTAAF RAEGIEVLEH TQASQVAHMD GEFVLTTTHG ELRADKLLVA TGRTPNTRSL ALEAAGVAVN AQGAIVIDKG MRTSSPNIYA
AGDCTDQPQF VYVAAAAGTR AAINMTGGDA ALDLTAMPAV VFTDPQVATV GYSEAEAHHD GIETDSRLLT LDNVPRALAN FDTRGFIKLV IEEGSGRLIG
VQAVAPEAGE LIQTAVLAIR NRMTVQELAD QLFPYLTMVE GLKLAAQTFS KDVKQLSCCA G

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merD MerD Tn5036 366 3442-3807 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
MSAYTVSRLA LDAGVSVHIV RDYLLRGLLR PVAYTTGGYG LFDDTALQRV RFVRAAFEAG IGLDALARLC RALDAADGDG ASAQLAVLRQ LVERRREALA
SLEMQLAAMP TEPAQHAESL P

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
merE MerE Tn5036 237 3804-4040 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Target:   Mercury
Protein Sequence:  
MNSPEHLPSE THKPITGYLW GALAVLTCPC HLPILAIVLA GTTAGAFIGE HWGIAALTLT GLFVLSVTRL LRAFKGRS

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
urf-2Y Urf-2Y Tn5036 213 4106-4318 +
Class:   Passenger Gene
Sub Class:   Heavy Metal Resistance
Function:   response to mercury ion (GO:0046689)
Target:   Mercury
Comment:   belongs to the mer operon || ProteinID:ACE81802.1
Protein Sequence:  
MNANAPNTAS CTTCCVCCKE IPLDAAFTPE GAEYVEHFCG LDCYERFQAR AKAATESDIA PVPGGSQPSD

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
tnpR TnpR Tn5036 558 4447-5004 +
Class:   Accessory Gene
Sub Class:   Resolvase
Transpoase Chemistry:   Serine
Sequence Family:  Serine Site-Specific Recombinase
Protein Sequence:  
MQGQRIGYVR VSSFDQNPER QLEGVQVARV FTDKACGKDT QRPELERLLA FVREGDTVVV HSMDRLARNL DDLRRIVQGL TQRGVRMEFV KEGLKFTGED
SPMANLMLSV MGAFAEFERA LIRERQREGI VLAKQRGAYR GRKKSLNSEQ IAELKRRVAA GDQKTLVARD FGISRETLYQ YLRED

Gene Name Protein Name Associated TE Gene Length Coordinates Strand
tnpA TnpA Tn5036 2973 5007-7979 +
Class:   Transposase
Transpoase Chemistry:   DDE
Protein Sequence:  
MPRRSILSAT ERESLLALPD AKDELIRHYT FNETDLSVIR QRRGAANRLG FAVQLCYLRF PGTFLGVDEP PFPPLSRMVA AQLKMPVESW SEYGQREQTR
REHLVELQTV FGFKPFTMSH YRQAVHTLTE LALQTDKGIV LASALVENLR RQSIILPAMN AIERASAEAI TRANRRIYAA LTDSLLSPHR QRLDELLKRK
DGSKVTWLAW LRQSPAKPNS RHMLEHIERL KSWQALDLPA GIERQVHQNR LLKIAREGGQ MTPADLAKFE VQRRYATLVA LAIEGMATVT DEIIDLHDRI
IGKLFNAAKN KHQQQFQASG KAINDKVRMY GRIGQALIEA KQSGSDPFAA IEAVMPWDTF AASVTEAQTL ARPADFDFLH HIGESYATLR RYAPQFLGVL
KLRAAPAAKG VLDAIDMLRG MNSDSARKVP ADAPTAFIKP RWAKLVLTDD GIDRRYYELC ALSELKNALR SGDVWVQGSR QFKDFDEYLV PVEKFATLKL
ASELPLAVAT DCDQYLHDRL ELLEAQLATV NRMASANDLP DAIITTASGL KITPLDAAVP DAAQAMIDQT AMLLPHLKIT ELLMEVDEWT GFTRHFTHLK
TSDTAKDKTL LLTTILADAI NLGLTKMAES CPGTTYAKLS WLQAWHIRDE TYSTALAELV NAQFRQPFAG NWGDGTTSSS DGQNFRTGSK AESTGHINPK
YGSSPGRTFY THISDQYAPF SAKVVNVGIR DSTYVLDGLL YHESDLRIEE HYTDTAGFTD HVFGLMHLLG FRFAPRIRDL GETKLFIPKG DAAYDALKPM
ISSDRLNIKQ IRAHWDEILR LATSIKQGTV TASLMLRKLG SYPRQNGLAV ALRELGRIER TLFILDWLQS VELRRRVHAG LNKGEARNAL ARAVFFYRLG
EIRDRSFEQQ RYRASGLNLV TAAIVLWNTV YLERATSALR GNGTALDDTL LQYLSPLGWE HINLTGDYLW RSSAKVGAGK FRPLRPLPPA

 References     

Yurieva O, Kholodii G, Minakhin L, Gorlenko Z, Kalyaeva E, Mindlin S, Nikiforov V. Intercontinental spread of promiscuous mercury-resistance transposons in environmental bacteria. Mol Microbiol. 1997 Apr;24(2):321-9. doi: 10.1046/j.1365-2958.1997.3261688.x. PubMed ID: 9159519