| Definition | Enterobacter sp. 638 plasmid pENTE01, complete sequence. |
|---|---|
| Accession | NC_009425 |
| Length | 157,749 |
Click here to switch to the map view.
The map label for this gene is traI [H]
Identifier: 146284635
GI number: 146284635
Start: 135196
End: 140619
Strand: Direct
Name: traI [H]
Synonym: Ent638_4309
Alternate gene names: 146284635
Gene position: 135196-140619 (Clockwise)
Preceding gene: 146284634
Following gene: 146284636
Centisome position: 85.7
GC content: 60.38
Gene sequence:
>5424_bases ATGTCAGTCGCCCCCGTAGCCTCAGCCGGCGGAGCCGCCGGCTACTACAGCAATGCCGATAACTACTATTTCCTCGGGAA TCTCCAGAGCCTGTGGCTGGGAGAAGGGGCGAAAGCCCTGGGTCTTGAGGGCAGCGTCCGGGGGGATGACCTCACGGCCG TCCTTGAGGGTCGTCTCCCTGATGGCTCGCGCCTGGGGAAAGAGATTAACGGCAACCACGTTCACCGTCCCGGTCATGAT CTGACGTTCTCTGCCCCTAAAAGTGTCTCCATTCTGGGGCTGATTGGCGGGGATAAAGCGATGGTGGAAGCCCATAACCA TGCCGTCCGGGTAGCGGCCGGTTATGTGGAGAAGCTTATCTCCGCGCGCGACACGAAAGACGGGGTCACTTCCATTGTTC ACACCGACAAAATGGTGGCCGCCGCGTTTACCCACGACACCTCGCGTAATCTCGATCCGCAGCTGCACACCCATTTACTC ATCGCCAACATGACTGAGCAGGACGGGAAATGGAAAGCGCTGGCCACCGACTATATCCATAACGCCGGCTTTATCGAGAC GGTGATGAAGATGCAGGTCACGCTCGGGAAAATCTACCGCAGCGCCTTGCGCCAGCACGTGGAGGCCCTCGGCCATGAGG TGGAGGAAGTCGGGAAACATGGCATGTGGGAAATTAAAGGCGTCCCGGAGGACGTTCGTGACGAATTTTCCTCCCGGGGC CGCGAAATTCAGGGGGCTATCGGTGCGGAGGCCACACTGCGCAGCCGGGATGTGGCGGCGAAAGATACCCGCCAGGCAAA GGTCGATCCGTCCCGCCTGCGTCTGATGGATCGCTGGCTCAATCAGATGAAAGACAAGGGCTATGATCTCAAAGCCTATC AGGAGAGCGTGGTGCCGCGTGATGCGGGTCCACGCGAAGCGGCGATGCCGCCTGAACGCGTTCCTCCTGCTGCCACGGTT CGTACCGTGCCTGAATCGCTCACCCCGGAGAAGACCCCCCTGACGGTAAAAGCCCCTGAGCCACAGGACGTGTCACCCGA ACGGGAAACCGCGAACAACCAGACAGAAGCACAATCGACTGACACTCTGAGTCAGCCGGTTCATGCCGGACCCGGAAAAA TGCCGTCAACTGGCACCTCTCTTCGGGAACCGCAGTTGCATACCGACGCCCCCCTGCCGGAGCTGGCTGAAGCTGTGCGT CTGGCCATCTCGCAGTTAAGTGACAGTAAAACCCGCTTTACCTTTGGTGAACTGATGCTGACCGCCGCCGAACTGAGCGA CACCCTGCCCGATATGAACCAGGTCCGTCAGGCGATCGACGTCTCGCTTAAGGAGGGCATGATAGTTCCGCTGGACAGTG AGAAAGGCGTGTTTACCTCCCGTATTCATCTGCTGGACGAACTCTCCATTCAGGCCCTGAGTCAGGAACACCTGAAATCC ACCGCCGTGGTCAGCTTCACCCGCCCGGAACAGTACGCGCCGCCGGCCCTGTCTGTCGTGGAAAAGGATGCCCTGGTGCT GATGAATGCCCCTTCCGGTGTGGCCGGCATCCGTGACCTGACCGCTCAGCTGACCGGTATTTCACTGGCGCAGGGCCGCG ACGTGCAGGTGCTTGCGAGCTCGGCCGAGCGTGCCCTTTCGCTTGAAAAATCCGACGCGCTCCGTGACCGGCTGGTCAGT CGCCAGCATGTCCTCAGCGGGGACTTTCATCTTAAACCCCAGAGCACGCTGATTATCGAAGGGGCGGAACGTCTGGGGCT GAAGGAGACTCTGGTCCTGCTGGGTGAGGCGAGGGCGCAGGATGCGCAGCTGGTTTTTCTCGACAGCGCAGGTCGACAGG CCAATGGCAATGCCATGTCGGTGCTGGAGTCTGCCGGCATTGCCCGGTCACGCCGGACCGAACCTGCACCGGGGCTGGAG GCTGAGGTGGTCAGCATTACGAACAAACGTGACCGTTACGAAGCGCTGGCTATCCGGTATGCCGATTTGAGCGGTGGGGC TGAGAATGTTACCGCTGTGGTGGTCGGGAAGCGCGAGCAAACGCACCTGACCGGGCTTATCCGGGATGCCCTTCAGAATG CCGGGCAGCTGGCACGCGAAGGTGTGGAGATAGAGGCACGCCAGCCGGTCTGGCTTGATACCAAAACCCGCCGCATGTCC GGCTCTTACCGGCCTGGCATGGTGCTTGAGGACCGCAGCGATAAAAAAGAGCGTCATAGCTACGTTATCGATCGCGTCCA TGAGGACACCCGTATGCTGTCCCTGATTGACGGCGACGGGGTACTGACCCGCATGAAAATCAGTGAGGTCACCGCCGACT GGCGTCTGTATAACCGTGAAACCCTCAGCGTGGCCACGGGCGAACGTCTGATGTCGGTGGCCGGTGACCGCGAGCACAAC CTGAAAGCCAAAGACCGGCTGGAAGTGACGCAGATCAGCGAGAAAGGCATTGAGGTGAAAAGGGGGGATGACATCCTGAT GCTGCCGAAAGACCAGCCGCTTTACGTAACGCACGCATACGTCAGCGCCCCGGGTGGGCGCGATAACGACGCGGGCGTGG TGCTGGCTGCCCTCAACAGTCGGGATATTTCCACGCAAACCATGAACTCACTGGCACAGAGCGGCCATCGCGCCGAAGTG TTTACTGCCGAAGACCAGGACAGAGCTGAAGCCCGCCTGCAACGGATGAAAACAAATGCCTCCCCCGTGCAGCTGGTCCG CAGCCTCAGCGGGAAGGAGGATGTGAGCGAGGCAGTGGGCCGTCTCCATGACAGCGTGAGAACAGAGGCCGGGCTTGCCG TATGGCGTGCCATCAATGACCAGCGACATGTCACGTTCAGTGAACTGACGCTCGCGAGTGCGGCGGAAAAATATCACCCC GATTTTGACCAGATTGGCGATGAAATCTCGTCGATGGTGAAACGCGGCGACCTGCTGAAGGTATCGGCCGGGGGCGAACC CCTGCTGGTTGCCCGCTCGACCTGGGAGATGGAGAAAGCCATTTTGCGGGTCGTGGATGAGGGGAAAAACACGCAGCAGC CGTTACTCGACCAGGTGCCTTCGGCAGTGCTTAACGGGCTGACGGGGGGACAAAAACAGGCGACGTCGCTGGTTCTCGGC AGTACTGACCAGTTTACCGGTATTCAGGGGTATGCCGGCGTGGGGAAAACCACGCAGATGAAAGCAGTGGTGGCCGCCCT GGAGACGCTGCCGGCCGATGCGCGGCCTGCGCTGACGGGACTGGCCCCGACGCATCAGGCCGTGAAAGAGATGAGCGACG TGGGTGTGCGTGCCCAGACCATTAAATCCTTTATTGTTGAGCATGACCAGGCCACGGCGGCCGGTGAGAAACCTGACTAC AAGAGTCAGGTCTTCCTGATTGATGAATCCTCAATGGCCGGAAACCAGGACACGGCGGCGCTTTTCCAGGCCATTGCCGC CGGTGGTGGTCGTGCCGTCTCGATGGGCGACATTGACCAGTTTGAAGCCGTCGACTCCGGTGCGCCCTTTAAGCTGATGC AGGAGCGCAGCCCGATGGATGTCGCGATTATGAAAGAGATTGTGCGTCAGAAAGATGTGCAGCTGCGCGGGGCGGTTCAC GACATCATCGACAACCGTATCGATGCTGCCCTGAAACGCATTGAGGCGCAGCCGGTTGACCGCGTGGCCCGCGAAGCGGA TGCGACCCCGCCCGACAGTGCATTCCACGAAACGGAGACCCCGGTGGACGATATTGTGCGTGACTGGACGGGGCGCTCCC CCGAGGCGCGTGCCCGGACGCTCATCATCACGCAGCTCAACGCTGACCGCCAGTCGGTGAACGCCGGTATCCACAGGCAG CTGCGTGAGCGCGGTGAGCTGGGGAACATCGCCATCACCGTTCCGGTACTCGATAAAATCACCCACACGCGTCACGAGTT TAATAAAACGCAGGCCTGGACGGCAGGCATGGTGGTGAAACGGGGCGACCGCTACCAGGACGTTCTGGCCGTGGACCGCA ACGGCAACACGGTCACCGTGCGCAATGAGGAGGGGAAAATCGGACTGTACTCGCCGAGGGAGCTGATTACCGGGGACGTG CAGCTGTTTAAGCGCAACCAGATAGAAGTGCGGCAGGGCGACCTGCTGCGCTTCACGGCCACCGACCGCGAGCAGGGGCA GACGGCGAACCAGCGCTTTACCGTCGAGTCCGTCAGCGAGAAAGGGGACATTCGCCTGCGCGGGGAAAAAGGGATGGTCA CCATCAATCCGGACAGCGTCCGGGCGCAGCAGCATCTGGACTACGGCTGGGCCGTGACGGGCTACGGTGCGCAGGGGACG AGCACGGATTACGTTATCTCCCTGGAGGGAACAGAGGAAGGGCGCAAGGCGCTGGCCACGCGGCGGGCGTTTTATATTTC GGCTTCGCGTGCCAAAGAGCATGTTCAGATCTACACCGACGGCAAAGCAGACTGGACGAAAGCGGTGACCCGGCCTGAGC GCGACATCAAGACCGCGCATGATGCCCTTCACCCTGAAACCCAGCGCCAGCAGGCGAGGGCCATCTGGGCAATGGGGCAG CCTGTGAGTAAAACGGCGATTGGCCGGGCCTGGGTCCGTCATCAGGGCATGCAGGACACCTCCCTGACGGCGAAGATTAT TCCCGCAACACGCCGTTTTCCAGAGCCGGCGCTGGCGCTCCCGGTTTATGACAATAACGGGAAAAGTGCGGGTCTGGCCC TGGTCTCTCTGGTCTCCAGCCCGGAGGGGCGACTGACGCAGGGTGACACCCGGATGGTCATGACCGAAAGAGCACGCGGG GCGGTGCTTCAGCGCAGTCAGTCCGGTCATACCCATGTCGTCAGTGACCTCGGTGCCGCGCTCGAGGCGGTAAAAGCGAA TCCGAAAGACGGCGTGGTGTGGCAGACGGGCGAAGAATCACCCTCATCACATCTCATAAAAGTGACCGGCGGTGAACGAC AGGATGCGGAAGAGAGAGCGGCCATCAACGTCAGCCGGCGCGAAACGGACATTGTGCTGCCGGAAACTGAAAAACAGAAG CCGGAACAGGCCATGTCAGCAGACACCGAAAAAGCCCGTGAACAGGAGGCATTGCGCAGGATTGCTGAAGAAACTCTGCA AATTAAACCTGAGTTCACAGGCACTGAAGCAAGTCAAGAAAGCAACGAACCTGACCGATCTACACTCAAAAACATTGCCA GCTCTGAAGACATTGCGGCCAGTGATGCCGCGCGAAGACATTCTGAAAAGGCTGAGATTGTGCAGGACAGAACGCCTGAA GAGCGTGCCGGCGCATCGAGAGTTGTCAGCGAACTGGCGAACAGCGAGCGGGATATTGTTCGCCAGCCAGAGCCTGCAGA GCGCGGCCGTATGCCGGAGCGTGATGAACAGACCCTGACCCATACCATCCAGAAAGAACGCTAA
Upstream 100 bases:
>100_bases TGGCCCAGGAAGAAGAGAACATTTTACGTCACCGTGAGCCGGACGATCCGGGTTACAGCGATTACGACCAACACTACGAT GACAGAGAGCCAGACCTATG
Downstream 100 bases:
>100_bases ACCTTCCTATACTGACCTGAGAATTTCCTATGAAACCGACAGCATTAAGCTCTTTATTAGTTACAACATACATATTTTTT GTTTCGACTGCACACGCCTC
Product: conjugal transfer nickase/helicase TraI
Products: NA
Alternate protein names: DNA helicase I [H]
Number of amino acids: Translated: 1807; Mature: 1806
Protein sequence:
>1807_residues MSVAPVASAGGAAGYYSNADNYYFLGNLQSLWLGEGAKALGLEGSVRGDDLTAVLEGRLPDGSRLGKEINGNHVHRPGHD LTFSAPKSVSILGLIGGDKAMVEAHNHAVRVAAGYVEKLISARDTKDGVTSIVHTDKMVAAAFTHDTSRNLDPQLHTHLL IANMTEQDGKWKALATDYIHNAGFIETVMKMQVTLGKIYRSALRQHVEALGHEVEEVGKHGMWEIKGVPEDVRDEFSSRG REIQGAIGAEATLRSRDVAAKDTRQAKVDPSRLRLMDRWLNQMKDKGYDLKAYQESVVPRDAGPREAAMPPERVPPAATV RTVPESLTPEKTPLTVKAPEPQDVSPERETANNQTEAQSTDTLSQPVHAGPGKMPSTGTSLREPQLHTDAPLPELAEAVR LAISQLSDSKTRFTFGELMLTAAELSDTLPDMNQVRQAIDVSLKEGMIVPLDSEKGVFTSRIHLLDELSIQALSQEHLKS TAVVSFTRPEQYAPPALSVVEKDALVLMNAPSGVAGIRDLTAQLTGISLAQGRDVQVLASSAERALSLEKSDALRDRLVS RQHVLSGDFHLKPQSTLIIEGAERLGLKETLVLLGEARAQDAQLVFLDSAGRQANGNAMSVLESAGIARSRRTEPAPGLE AEVVSITNKRDRYEALAIRYADLSGGAENVTAVVVGKREQTHLTGLIRDALQNAGQLAREGVEIEARQPVWLDTKTRRMS GSYRPGMVLEDRSDKKERHSYVIDRVHEDTRMLSLIDGDGVLTRMKISEVTADWRLYNRETLSVATGERLMSVAGDREHN LKAKDRLEVTQISEKGIEVKRGDDILMLPKDQPLYVTHAYVSAPGGRDNDAGVVLAALNSRDISTQTMNSLAQSGHRAEV FTAEDQDRAEARLQRMKTNASPVQLVRSLSGKEDVSEAVGRLHDSVRTEAGLAVWRAINDQRHVTFSELTLASAAEKYHP DFDQIGDEISSMVKRGDLLKVSAGGEPLLVARSTWEMEKAILRVVDEGKNTQQPLLDQVPSAVLNGLTGGQKQATSLVLG STDQFTGIQGYAGVGKTTQMKAVVAALETLPADARPALTGLAPTHQAVKEMSDVGVRAQTIKSFIVEHDQATAAGEKPDY KSQVFLIDESSMAGNQDTAALFQAIAAGGGRAVSMGDIDQFEAVDSGAPFKLMQERSPMDVAIMKEIVRQKDVQLRGAVH DIIDNRIDAALKRIEAQPVDRVAREADATPPDSAFHETETPVDDIVRDWTGRSPEARARTLIITQLNADRQSVNAGIHRQ LRERGELGNIAITVPVLDKITHTRHEFNKTQAWTAGMVVKRGDRYQDVLAVDRNGNTVTVRNEEGKIGLYSPRELITGDV QLFKRNQIEVRQGDLLRFTATDREQGQTANQRFTVESVSEKGDIRLRGEKGMVTINPDSVRAQQHLDYGWAVTGYGAQGT STDYVISLEGTEEGRKALATRRAFYISASRAKEHVQIYTDGKADWTKAVTRPERDIKTAHDALHPETQRQQARAIWAMGQ PVSKTAIGRAWVRHQGMQDTSLTAKIIPATRRFPEPALALPVYDNNGKSAGLALVSLVSSPEGRLTQGDTRMVMTERARG AVLQRSQSGHTHVVSDLGAALEAVKANPKDGVVWQTGEESPSSHLIKVTGGERQDAEERAAINVSRRETDIVLPETEKQK PEQAMSADTEKAREQEALRRIAEETLQIKPEFTGTEASQESNEPDRSTLKNIASSEDIAASDAARRHSEKAEIVQDRTPE ERAGASRVVSELANSERDIVRQPEPAERGRMPERDEQTLTHTIQKER
Sequences:
>Translated_1807_residues MSVAPVASAGGAAGYYSNADNYYFLGNLQSLWLGEGAKALGLEGSVRGDDLTAVLEGRLPDGSRLGKEINGNHVHRPGHD LTFSAPKSVSILGLIGGDKAMVEAHNHAVRVAAGYVEKLISARDTKDGVTSIVHTDKMVAAAFTHDTSRNLDPQLHTHLL IANMTEQDGKWKALATDYIHNAGFIETVMKMQVTLGKIYRSALRQHVEALGHEVEEVGKHGMWEIKGVPEDVRDEFSSRG REIQGAIGAEATLRSRDVAAKDTRQAKVDPSRLRLMDRWLNQMKDKGYDLKAYQESVVPRDAGPREAAMPPERVPPAATV RTVPESLTPEKTPLTVKAPEPQDVSPERETANNQTEAQSTDTLSQPVHAGPGKMPSTGTSLREPQLHTDAPLPELAEAVR LAISQLSDSKTRFTFGELMLTAAELSDTLPDMNQVRQAIDVSLKEGMIVPLDSEKGVFTSRIHLLDELSIQALSQEHLKS TAVVSFTRPEQYAPPALSVVEKDALVLMNAPSGVAGIRDLTAQLTGISLAQGRDVQVLASSAERALSLEKSDALRDRLVS RQHVLSGDFHLKPQSTLIIEGAERLGLKETLVLLGEARAQDAQLVFLDSAGRQANGNAMSVLESAGIARSRRTEPAPGLE AEVVSITNKRDRYEALAIRYADLSGGAENVTAVVVGKREQTHLTGLIRDALQNAGQLAREGVEIEARQPVWLDTKTRRMS GSYRPGMVLEDRSDKKERHSYVIDRVHEDTRMLSLIDGDGVLTRMKISEVTADWRLYNRETLSVATGERLMSVAGDREHN LKAKDRLEVTQISEKGIEVKRGDDILMLPKDQPLYVTHAYVSAPGGRDNDAGVVLAALNSRDISTQTMNSLAQSGHRAEV FTAEDQDRAEARLQRMKTNASPVQLVRSLSGKEDVSEAVGRLHDSVRTEAGLAVWRAINDQRHVTFSELTLASAAEKYHP DFDQIGDEISSMVKRGDLLKVSAGGEPLLVARSTWEMEKAILRVVDEGKNTQQPLLDQVPSAVLNGLTGGQKQATSLVLG STDQFTGIQGYAGVGKTTQMKAVVAALETLPADARPALTGLAPTHQAVKEMSDVGVRAQTIKSFIVEHDQATAAGEKPDY KSQVFLIDESSMAGNQDTAALFQAIAAGGGRAVSMGDIDQFEAVDSGAPFKLMQERSPMDVAIMKEIVRQKDVQLRGAVH DIIDNRIDAALKRIEAQPVDRVAREADATPPDSAFHETETPVDDIVRDWTGRSPEARARTLIITQLNADRQSVNAGIHRQ LRERGELGNIAITVPVLDKITHTRHEFNKTQAWTAGMVVKRGDRYQDVLAVDRNGNTVTVRNEEGKIGLYSPRELITGDV QLFKRNQIEVRQGDLLRFTATDREQGQTANQRFTVESVSEKGDIRLRGEKGMVTINPDSVRAQQHLDYGWAVTGYGAQGT STDYVISLEGTEEGRKALATRRAFYISASRAKEHVQIYTDGKADWTKAVTRPERDIKTAHDALHPETQRQQARAIWAMGQ PVSKTAIGRAWVRHQGMQDTSLTAKIIPATRRFPEPALALPVYDNNGKSAGLALVSLVSSPEGRLTQGDTRMVMTERARG AVLQRSQSGHTHVVSDLGAALEAVKANPKDGVVWQTGEESPSSHLIKVTGGERQDAEERAAINVSRRETDIVLPETEKQK PEQAMSADTEKAREQEALRRIAEETLQIKPEFTGTEASQESNEPDRSTLKNIASSEDIAASDAARRHSEKAEIVQDRTPE ERAGASRVVSELANSERDIVRQPEPAERGRMPERDEQTLTHTIQKER >Mature_1806_residues SVAPVASAGGAAGYYSNADNYYFLGNLQSLWLGEGAKALGLEGSVRGDDLTAVLEGRLPDGSRLGKEINGNHVHRPGHDL TFSAPKSVSILGLIGGDKAMVEAHNHAVRVAAGYVEKLISARDTKDGVTSIVHTDKMVAAAFTHDTSRNLDPQLHTHLLI ANMTEQDGKWKALATDYIHNAGFIETVMKMQVTLGKIYRSALRQHVEALGHEVEEVGKHGMWEIKGVPEDVRDEFSSRGR EIQGAIGAEATLRSRDVAAKDTRQAKVDPSRLRLMDRWLNQMKDKGYDLKAYQESVVPRDAGPREAAMPPERVPPAATVR TVPESLTPEKTPLTVKAPEPQDVSPERETANNQTEAQSTDTLSQPVHAGPGKMPSTGTSLREPQLHTDAPLPELAEAVRL AISQLSDSKTRFTFGELMLTAAELSDTLPDMNQVRQAIDVSLKEGMIVPLDSEKGVFTSRIHLLDELSIQALSQEHLKST AVVSFTRPEQYAPPALSVVEKDALVLMNAPSGVAGIRDLTAQLTGISLAQGRDVQVLASSAERALSLEKSDALRDRLVSR QHVLSGDFHLKPQSTLIIEGAERLGLKETLVLLGEARAQDAQLVFLDSAGRQANGNAMSVLESAGIARSRRTEPAPGLEA EVVSITNKRDRYEALAIRYADLSGGAENVTAVVVGKREQTHLTGLIRDALQNAGQLAREGVEIEARQPVWLDTKTRRMSG SYRPGMVLEDRSDKKERHSYVIDRVHEDTRMLSLIDGDGVLTRMKISEVTADWRLYNRETLSVATGERLMSVAGDREHNL KAKDRLEVTQISEKGIEVKRGDDILMLPKDQPLYVTHAYVSAPGGRDNDAGVVLAALNSRDISTQTMNSLAQSGHRAEVF TAEDQDRAEARLQRMKTNASPVQLVRSLSGKEDVSEAVGRLHDSVRTEAGLAVWRAINDQRHVTFSELTLASAAEKYHPD FDQIGDEISSMVKRGDLLKVSAGGEPLLVARSTWEMEKAILRVVDEGKNTQQPLLDQVPSAVLNGLTGGQKQATSLVLGS TDQFTGIQGYAGVGKTTQMKAVVAALETLPADARPALTGLAPTHQAVKEMSDVGVRAQTIKSFIVEHDQATAAGEKPDYK SQVFLIDESSMAGNQDTAALFQAIAAGGGRAVSMGDIDQFEAVDSGAPFKLMQERSPMDVAIMKEIVRQKDVQLRGAVHD IIDNRIDAALKRIEAQPVDRVAREADATPPDSAFHETETPVDDIVRDWTGRSPEARARTLIITQLNADRQSVNAGIHRQL RERGELGNIAITVPVLDKITHTRHEFNKTQAWTAGMVVKRGDRYQDVLAVDRNGNTVTVRNEEGKIGLYSPRELITGDVQ LFKRNQIEVRQGDLLRFTATDREQGQTANQRFTVESVSEKGDIRLRGEKGMVTINPDSVRAQQHLDYGWAVTGYGAQGTS TDYVISLEGTEEGRKALATRRAFYISASRAKEHVQIYTDGKADWTKAVTRPERDIKTAHDALHPETQRQQARAIWAMGQP VSKTAIGRAWVRHQGMQDTSLTAKIIPATRRFPEPALALPVYDNNGKSAGLALVSLVSSPEGRLTQGDTRMVMTERARGA VLQRSQSGHTHVVSDLGAALEAVKANPKDGVVWQTGEESPSSHLIKVTGGERQDAEERAAINVSRRETDIVLPETEKQKP EQAMSADTEKAREQEALRRIAEETLQIKPEFTGTEASQESNEPDRSTLKNIASSEDIAASDAARRHSEKAEIVQDRTPEE RAGASRVVSELANSERDIVRQPEPAERGRMPERDEQTLTHTIQKER
Specific function: TraI has been identified as DNA helicase I and it also has an additional activity of site-specific nicking at oriT. DNA helicase I is a potent DNA-dependent ATPase [H]
COG id: COG0507
COG function: function code L; ATP-dependent exoDNAse (exonuclease V), alpha subunit - helicase superfamily I member
Gene ontology:
Cell location: Cytoplasm [C]
Metaboloic importance: Unknown [C]
Operon status: Not Known
Operon components: None
Similarity: To traI of plasmid IncFII R100 [H]
Homologues:
None
Paralogues:
None
Copy number: NA
Swissprot (AC and ID): NA
Other databases:
- InterPro: IPR014059 - InterPro: IPR014129 - InterPro: IPR009767 - InterPro: IPR014862 [H]
Pfam domain/function: PF07057 TraI; PF08751 TrwC [H]
EC number: =3.6.4.12 [H]
Molecular weight: Translated: 197595; Mature: 197464
Theoretical pI: Translated: 6.15; Mature: 6.15
Prosite motif: NA
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.0 %Cys (Translated Protein) 2.3 %Met (Translated Protein) 2.3 %Cys+Met (Translated Protein) 0.0 %Cys (Mature Protein) 2.2 %Met (Mature Protein) 2.2 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MSVAPVASAGGAAGYYSNADNYYFLGNLQSLWLGEGAKALGLEGSVRGDDLTAVLEGRLP CCCCCCCCCCCCCCCCCCCCCEEEECCCHHHHHCCCCCEECCCCCCCCCCEEEEEECCCC DGSRLGKEINGNHVHRPGHDLTFSAPKSVSILGLIGGDKAMVEAHNHAVRVAAGYVEKLI CHHHHCCCCCCCCCCCCCCCCEECCCCCEEEEEEECCCHHEEECCCCEEEHHHHHHHHHH SARDTKDGVTSIVHTDKMVAAAFTHDTSRNLDPQLHTHLLIANMTEQDGKWKALATDYIH HCCCCCHHHHHHHHHHHHHHHHEECCCCCCCCHHHHHEEEEEECCCCCCCEEEEHHHHHH NAGFIETVMKMQVTLGKIYRSALRQHVEALGHEVEEVGKHGMWEIKGVPEDVRDEFSSRG CCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEECCCCHHHHHHHHHCC REIQGAIGAEATLRSRDVAAKDTRQAKVDPSRLRLMDRWLNQMKDKGYDLKAYQESVVPR CEEECCCCCCHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHCCCCHHHHHHHCCCC DAGPREAAMPPERVPPAATVRTVPESLTPEKTPLTVKAPEPQDVSPERETANNQTEAQST CCCCCCCCCCCCCCCCCCHHHHCCCCCCCCCCCEEEECCCCCCCCCCHHHCCCCCHHCCC DTLSQPVHAGPGKMPSTGTSLREPQLHTDAPLPELAEAVRLAISQLSDSKTRFTFGELML HHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHCCCCCEEEHHHHHH TAAELSDTLPDMNQVRQAIDVSLKEGMIVPLDSEKGVFTSRIHLLDELSIQALSQEHLKS HHHHHHHCCCCHHHHHHHHHHHHHCCEEEEECCCCCCHHHHHHHHHHHHHHHHHHHHHCC TAVVSFTRPEQYAPPALSVVEKDALVLMNAPSGVAGIRDLTAQLTGISLAQGRDVQVLAS EEEEEECCCCCCCCCHHHHHCCCCEEEEECCCCCHHHHHHHHHHHCEEECCCCCHHHHHH SAERALSLEKSDALRDRLVSRQHVLSGDFHLKPQSTLIIEGAERLGLKETLVLLGEARAQ HHHHHHHCHHHHHHHHHHHHHHHHHCCCEEECCCCEEEEECHHHCCHHHHHHHHHCCCCC DAQLVFLDSAGRQANGNAMSVLESAGIARSRRTEPAPGLEAEVVSITNKRDRYEALAIRY CCEEEEEECCCCCCCCHHHHHHHHHCCHHHCCCCCCCCCCEEEEEECCCCHHEEEEEEEE ADLSGGAENVTAVVVGKREQTHLTGLIRDALQNAGQLAREGVEIEARQPVWLDTKTRRMS ECCCCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCCCEECCCCEEECCHHHHCC GSYRPGMVLEDRSDKKERHSYVIDRVHEDTRMLSLIDGDGVLTRMKISEVTADWRLYNRE CCCCCCEEEECCCCHHHHHHHHHHHHHCCCCEEEEECCCCCEEEEEHHHHHHHHEEECCC TLSVATGERLMSVAGDREHNLKAKDRLEVTQISEKGIEVKRGDDILMLPKDQPLYVTHAY EEEHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHCCCEEECCCCEEEECCCCCEEEEEEE VSAPGGRDNDAGVVLAALNSRDISTQTMNSLAQSGHRAEVFTAEDQDRAEARLQRMKTNA EECCCCCCCCCCEEEEEECCCCCHHHHHHHHHHCCCCEEEEECCCHHHHHHHHHHHHCCC SPVQLVRSLSGKEDVSEAVGRLHDSVRTEAGLAVWRAINDQRHVTFSELTLASAAEKYHP CHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEHHHHHHHHHHHHHCC DFDQIGDEISSMVKRGDLLKVSAGGEPLLVARSTWEMEKAILRVVDEGKNTQQPLLDQVP CHHHHHHHHHHHHHCCCEEEEECCCCEEEEECCHHHHHHHHHHHHHCCCCCCCHHHHHHH SAVLNGLTGGQKQATSLVLGSTDQFTGIQGYAGVGKTTQMKAVVAALETLPADARPALTG HHHHHCCCCCCHHHHEEEECCCCCCCCCCCCCCCCCCHHHHHHHHHHHHCCCCCCCCCCC LAPTHQAVKEMSDVGVRAQTIKSFIVEHDQATAAGEKPDYKSQVFLIDESSMAGNQDTAA CCCHHHHHHHHHHCCHHHHHHHHHHHHCCCHHCCCCCCCCCCEEEEEECCCCCCCCHHHH LFQAIAAGGGRAVSMGDIDQFEAVDSGAPFKLMQERSPMDVAIMKEIVRQKDVQLRGAVH HHHHHHCCCCCEEECCCCHHHHHCCCCCCHHHHHCCCCCCHHHHHHHHHHHCCHHHHHHH DIIDNRIDAALKRIEAQPVDRVAREADATPPDSAFHETETPVDDIVRDWTGRSPEARART HHHHHHHHHHHHHHCCCHHHHHHHHCCCCCCCCCCCCCCCCHHHHHHHHCCCCCCCCCEE LIITQLNADRQSVNAGIHRQLRERGELGNIAITVPVLDKITHTRHEFNKTQAWTAGMVVK EEEEECCCCHHHHHHHHHHHHHHCCCCCCEEEEEEHHHHHHHHHHHHCCHHHHHHHHHEE RGDRYQDVLAVDRNGNTVTVRNEEGKIGLYSPRELITGDVQLFKRNQIEVRQGDLLRFTA CCCCCEEEEEEECCCCEEEEECCCCCEECCCCHHHHHCCHHHHCCCCEEEECCCEEEEEE TDREQGQTANQRFTVESVSEKGDIRLRGEKGMVTINPDSVRAQQHLDYGWAVTGYGAQGT CCCCCCCCCCCEEEEEECCCCCCEEEECCCCEEEECCHHHHHHHHCCCCCEEECCCCCCC STDYVISLEGTEEGRKALATRRAFYISASRAKEHVQIYTDGKADWTKAVTRPERDIKTAH CCCEEEEECCCHHHHHHHHHHHHEEEECCCCCCEEEEEECCCCHHHHHHCCCHHHHHHHH DALHPETQRQQARAIWAMGQPVSKTAIGRAWVRHQGMQDTSLTAKIIPATRRFPEPALAL HHCCCHHHHHHHHHHHHCCCCHHHHHHHHHHHHHCCCCCCCCEEEEECHHCCCCCCCEEE PVYDNNGKSAGLALVSLVSSPEGRLTQGDTRMVMTERARGAVLQRSQSGHTHVVSDLGAA EEECCCCCHHHHHHHHHHCCCCCCCCCCCCEEEEHHHHHHHHHHCCCCCCHHHHHHHHHH LEAVKANPKDGVVWQTGEESPSSHLIKVTGGERQDAEERAAINVSRRETDIVLPETEKQK HHHHHCCCCCCEEECCCCCCCCCCEEEEECCCCCCCHHHHHEEECCCCCEEECCCCCCCC PEQAMSADTEKAREQEALRRIAEETLQIKPEFTGTEASQESNEPDRSTLKNIASSEDIAA HHHHHHCCHHHHHHHHHHHHHHHHHHEECCCCCCCCCCCCCCCCHHHHHHHHCCCCCHHH SDAARRHSEKAEIVQDRTPEERAGASRVVSELANSERDIVRQPEPAERGRMPERDEQTLT HHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHHCCCHHHCCCCCCHHHCCCCCCHHHHHH HTIQKER HHHHCCC >Mature Secondary Structure SVAPVASAGGAAGYYSNADNYYFLGNLQSLWLGEGAKALGLEGSVRGDDLTAVLEGRLP CCCCCCCCCCCCCCCCCCCCEEEECCCHHHHHCCCCCEECCCCCCCCCCEEEEEECCCC DGSRLGKEINGNHVHRPGHDLTFSAPKSVSILGLIGGDKAMVEAHNHAVRVAAGYVEKLI CHHHHCCCCCCCCCCCCCCCCEECCCCCEEEEEEECCCHHEEECCCCEEEHHHHHHHHHH SARDTKDGVTSIVHTDKMVAAAFTHDTSRNLDPQLHTHLLIANMTEQDGKWKALATDYIH HCCCCCHHHHHHHHHHHHHHHHEECCCCCCCCHHHHHEEEEEECCCCCCCEEEEHHHHHH NAGFIETVMKMQVTLGKIYRSALRQHVEALGHEVEEVGKHGMWEIKGVPEDVRDEFSSRG CCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEECCCCHHHHHHHHHCC REIQGAIGAEATLRSRDVAAKDTRQAKVDPSRLRLMDRWLNQMKDKGYDLKAYQESVVPR CEEECCCCCCHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHCCCCHHHHHHHCCCC DAGPREAAMPPERVPPAATVRTVPESLTPEKTPLTVKAPEPQDVSPERETANNQTEAQST CCCCCCCCCCCCCCCCCCHHHHCCCCCCCCCCCEEEECCCCCCCCCCHHHCCCCCHHCCC DTLSQPVHAGPGKMPSTGTSLREPQLHTDAPLPELAEAVRLAISQLSDSKTRFTFGELML HHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHCCCCCEEEHHHHHH TAAELSDTLPDMNQVRQAIDVSLKEGMIVPLDSEKGVFTSRIHLLDELSIQALSQEHLKS HHHHHHHCCCCHHHHHHHHHHHHHCCEEEEECCCCCCHHHHHHHHHHHHHHHHHHHHHCC TAVVSFTRPEQYAPPALSVVEKDALVLMNAPSGVAGIRDLTAQLTGISLAQGRDVQVLAS EEEEEECCCCCCCCCHHHHHCCCCEEEEECCCCCHHHHHHHHHHHCEEECCCCCHHHHHH SAERALSLEKSDALRDRLVSRQHVLSGDFHLKPQSTLIIEGAERLGLKETLVLLGEARAQ HHHHHHHCHHHHHHHHHHHHHHHHHCCCEEECCCCEEEEECHHHCCHHHHHHHHHCCCCC DAQLVFLDSAGRQANGNAMSVLESAGIARSRRTEPAPGLEAEVVSITNKRDRYEALAIRY CCEEEEEECCCCCCCCHHHHHHHHHCCHHHCCCCCCCCCCEEEEEECCCCHHEEEEEEEE ADLSGGAENVTAVVVGKREQTHLTGLIRDALQNAGQLAREGVEIEARQPVWLDTKTRRMS ECCCCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCCCEECCCCEEECCHHHHCC GSYRPGMVLEDRSDKKERHSYVIDRVHEDTRMLSLIDGDGVLTRMKISEVTADWRLYNRE CCCCCCEEEECCCCHHHHHHHHHHHHHCCCCEEEEECCCCCEEEEEHHHHHHHHEEECCC TLSVATGERLMSVAGDREHNLKAKDRLEVTQISEKGIEVKRGDDILMLPKDQPLYVTHAY EEEHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHCCCEEECCCCEEEECCCCCEEEEEEE VSAPGGRDNDAGVVLAALNSRDISTQTMNSLAQSGHRAEVFTAEDQDRAEARLQRMKTNA EECCCCCCCCCCEEEEEECCCCCHHHHHHHHHHCCCCEEEEECCCHHHHHHHHHHHHCCC SPVQLVRSLSGKEDVSEAVGRLHDSVRTEAGLAVWRAINDQRHVTFSELTLASAAEKYHP CHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEHHHHHHHHHHHHHCC DFDQIGDEISSMVKRGDLLKVSAGGEPLLVARSTWEMEKAILRVVDEGKNTQQPLLDQVP CHHHHHHHHHHHHHCCCEEEEECCCCEEEEECCHHHHHHHHHHHHHCCCCCCCHHHHHHH SAVLNGLTGGQKQATSLVLGSTDQFTGIQGYAGVGKTTQMKAVVAALETLPADARPALTG HHHHHCCCCCCHHHHEEEECCCCCCCCCCCCCCCCCCHHHHHHHHHHHHCCCCCCCCCCC LAPTHQAVKEMSDVGVRAQTIKSFIVEHDQATAAGEKPDYKSQVFLIDESSMAGNQDTAA CCCHHHHHHHHHHCCHHHHHHHHHHHHCCCHHCCCCCCCCCCEEEEEECCCCCCCCHHHH LFQAIAAGGGRAVSMGDIDQFEAVDSGAPFKLMQERSPMDVAIMKEIVRQKDVQLRGAVH HHHHHHCCCCCEEECCCCHHHHHCCCCCCHHHHHCCCCCCHHHHHHHHHHHCCHHHHHHH DIIDNRIDAALKRIEAQPVDRVAREADATPPDSAFHETETPVDDIVRDWTGRSPEARART HHHHHHHHHHHHHHCCCHHHHHHHHCCCCCCCCCCCCCCCCHHHHHHHHCCCCCCCCCEE LIITQLNADRQSVNAGIHRQLRERGELGNIAITVPVLDKITHTRHEFNKTQAWTAGMVVK EEEEECCCCHHHHHHHHHHHHHHCCCCCCEEEEEEHHHHHHHHHHHHCCHHHHHHHHHEE RGDRYQDVLAVDRNGNTVTVRNEEGKIGLYSPRELITGDVQLFKRNQIEVRQGDLLRFTA CCCCCEEEEEEECCCCEEEEECCCCCEECCCCHHHHHCCHHHHCCCCEEEECCCEEEEEE TDREQGQTANQRFTVESVSEKGDIRLRGEKGMVTINPDSVRAQQHLDYGWAVTGYGAQGT CCCCCCCCCCCEEEEEECCCCCCEEEECCCCEEEECCHHHHHHHHCCCCCEEECCCCCCC STDYVISLEGTEEGRKALATRRAFYISASRAKEHVQIYTDGKADWTKAVTRPERDIKTAH CCCEEEEECCCHHHHHHHHHHHHEEEECCCCCCEEEEEECCCCHHHHHHCCCHHHHHHHH DALHPETQRQQARAIWAMGQPVSKTAIGRAWVRHQGMQDTSLTAKIIPATRRFPEPALAL HHCCCHHHHHHHHHHHHCCCCHHHHHHHHHHHHHCCCCCCCCEEEEECHHCCCCCCCEEE PVYDNNGKSAGLALVSLVSSPEGRLTQGDTRMVMTERARGAVLQRSQSGHTHVVSDLGAA EEECCCCCHHHHHHHHHHCCCCCCCCCCCCEEEEHHHHHHHHHHCCCCCCHHHHHHHHHH LEAVKANPKDGVVWQTGEESPSSHLIKVTGGERQDAEERAAINVSRRETDIVLPETEKQK HHHHHCCCCCCEEECCCCCCCCCCEEEEECCCCCCCHHHHHEEECCCCCEEECCCCCCCC PEQAMSADTEKAREQEALRRIAEETLQIKPEFTGTEASQESNEPDRSTLKNIASSEDIAA HHHHHHCCHHHHHHHHHHHHHHHHHHEECCCCCCCCCCCCCCCCHHHHHHHHCCCCCHHH SDAARRHSEKAEIVQDRTPEERAGASRVVSELANSERDIVRQPEPAERGRMPERDEQTLT HHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHHCCCHHHCCCCCCHHHCCCCCCHHHHHH HTIQKER HHHHCCC
PDB accession: NA
Resolution: NA
Structure class: Alpha Beta
Cofactors: NA
Metal ions: NA
Kcat value (1/min): NA
Specific activity: NA
Km value (mM): NA
Substrates: NA
Specific reaction: NA
General reaction: NA
Inhibitor: NA
Structure determination priority: 9.0
TargetDB status: NA
Availability: NA
References: 2163400; 7915817; 2680768; 2164585; 8736534 [H]