Detailed information
Bioinformatically predicted
Overview
| Name | chpA | Type | Regulator |
| Locus tag | ABUS13_RS03290 | Genome accession | NZ_CP169832 |
| Coordinates | 677941..682452 (+) | Length | 1503 a.a. |
| NCBI ID | WP_104889640.1 | Uniprot ID | - |
| Organism | Acinetobacter baumannii strain Lv648 | ||
| Function | regulation of type IV pilus assembly (predicted from homology) Competence regulation |
||
Genomic Context
Location: 672941..687452
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| ABUS13_RS03265 | - | 673382..674020 (-) | 639 | WP_002027721.1 | hypothetical protein | - |
| ABUS13_RS03270 | pilG | 674303..674686 (+) | 384 | WP_000389061.1 | twitching motility response regulator PilG | Regulator |
| ABUS13_RS03275 | - | 674710..675072 (+) | 363 | WP_000101096.1 | PleD family two-component system response regulator | - |
| ABUS13_RS03280 | - | 675133..675669 (+) | 537 | WP_000729759.1 | chemotaxis protein CheW | - |
| ABUS13_RS03285 | - | 675716..677794 (+) | 2079 | WP_000505934.1 | methyl-accepting chemotaxis protein | - |
| ABUS13_RS03290 | chpA | 677941..682452 (+) | 4512 | WP_104889640.1 | hybrid sensor histidine kinase/response regulator | Regulator |
| ABUS13_RS03295 | - | 682449..682913 (+) | 465 | WP_000678927.1 | hypothetical protein | - |
| ABUS13_RS03300 | - | 683169..683870 (+) | 702 | Protein_631 | radical SAM protein | - |
| ABUS13_RS03305 | - | 683877..684845 (-) | 969 | WP_014538385.1 | IS30 family transposase | - |
| ABUS13_RS03310 | - | 684958..685650 (+) | 693 | Protein_633 | radical SAM protein | - |
| ABUS13_RS03315 | - | 685658..686539 (+) | 882 | WP_000022126.1 | alpha/beta fold hydrolase | - |
Sequence
Protein
Download Length: 1503 a.a. Molecular weight: 171246.43 Da Isoelectric Point: 4.3506
>NTDB_id=1053481 ABUS13_RS03290 WP_104889640.1 677941..682452(+) (chpA) [Acinetobacter baumannii strain Lv648]
MKEILKTLTEAMTLPEDSYSEQDAEFLEIFIEEIFVDLQPLINKWMQSENIATLTEIRRHFHTLKGSGRMIGAKSSAELA
WTVEDTLNRVINQSLQLTPTIQSYVQLVFKFYFLKLVDNFKQKRAHTLDFRPLILLGQQLQQQQSLEPALEELLQLSNTL
TAETVTGLELGYIEQDSLAEPIIQTTHTEIEINLDETLTLFMEEAEEHLATIHQFLDQELHQYDSYNALIRALHTLRGSS
AMAQVETIFEASTKVEHLFKILLQEELSSHSEEILLLQEYREFVRDSLELLSRYSSSEQLEARLQQFNQSWDAYVEQHGD
RTDPLMPSHGLVSQLLQLDVSELLDAELDFEKGIRNEFPDYLERLSEQANLLLQHTHSQAMLGLHEYTSQLKESYEVLLD
KPALLQSDYIFEIYQKAHQQLIQLFDALAAGQRVGVVKQHQSILEELKLYTQYTPDLSNDLPQQDSTSFEPISNIEPEPE
VVATVENFSDSADWAVLGQSVQQDRQYISSTQVNRNFDADLLDIFLEEAEELLEGIDTDLNIWVGEQENFAALNNLMRYL
HTLKGGANMVQATYLGLIAHELESIYERLIQKQLVATSDLIDFIRLVQDDLADRLQIMREQQLDYAAPYTINALKRAGQN
SNFQPLSVVDAFDTESEIFSEQEVISEVIIDEIPVELEPALAELEAHHDQVFDTAVTELATPVEVITSVTSQENRVAANE
QDIEAVVEQTFLEEATELLEMAESLLKQWFEQRTNRSILLQLQRAMHSLKGGARMVGLEAVQAIAYQLENAFEQFALHHF
NSNIYDHLLESAIAWLKDAIFNHNYQHFDGLQQSLENIQFFETTIQIPTKLTRADLFSSEPVMTFIQGDGTEPPPMMGAW
EQTERLDQNNEMIRVSADLIEKMIDLSGENSINRSRIEMDLSQFSHTLVEMELAIQRLADQLRRMEGELETQIIAKHGIE
HSRYTDFDPLEMDQYSSLNQLSKSLAESASDLVDFKNTLSDKIRDTESLLLQQSRIQAEIQEGLMRTRLVPFSRLLPRLQ
RIVRQTSTALNRPAELFVNNTEGELDRNILERLVIPLEHMLRNAIDHGLEDRAQRQQANKPETGRIELNIQRQGTDVVVV
FSDDGQGIDVEKVRQKALLAGLIKPEQDLEQQDILQLIFHPGLSTAEQVTQISGRGVGLDVVQSDIKSLGGHVSVESVYG
QGTTFMIRVPTTVAVSDALMVKVADQQFAIPLAQIDRIIRVSPASLEQYFESPQELFEYENRRYPLRYLSEFVGNQPIPR
LNGVMYSLPVLMIKANNGQTVALLVDQLIGSRAQIVVKPIGQQFSSIGAIAGATILGDGQVCLILDGQNIARQIQSTQRH
KQLSEAVYRHRESDERRLIMIVDDSVTVRKVTSRLLERQGYDVVTAKDGVDAIEQLENIKPDLMLLDIEMPRMDGFEVLN
LVRHHDIHQYMPIIMITSRTGEKHRERAFSLGVSQYMGKPFQEEELLENIDALLVASDSEVKS
MKEILKTLTEAMTLPEDSYSEQDAEFLEIFIEEIFVDLQPLINKWMQSENIATLTEIRRHFHTLKGSGRMIGAKSSAELA
WTVEDTLNRVINQSLQLTPTIQSYVQLVFKFYFLKLVDNFKQKRAHTLDFRPLILLGQQLQQQQSLEPALEELLQLSNTL
TAETVTGLELGYIEQDSLAEPIIQTTHTEIEINLDETLTLFMEEAEEHLATIHQFLDQELHQYDSYNALIRALHTLRGSS
AMAQVETIFEASTKVEHLFKILLQEELSSHSEEILLLQEYREFVRDSLELLSRYSSSEQLEARLQQFNQSWDAYVEQHGD
RTDPLMPSHGLVSQLLQLDVSELLDAELDFEKGIRNEFPDYLERLSEQANLLLQHTHSQAMLGLHEYTSQLKESYEVLLD
KPALLQSDYIFEIYQKAHQQLIQLFDALAAGQRVGVVKQHQSILEELKLYTQYTPDLSNDLPQQDSTSFEPISNIEPEPE
VVATVENFSDSADWAVLGQSVQQDRQYISSTQVNRNFDADLLDIFLEEAEELLEGIDTDLNIWVGEQENFAALNNLMRYL
HTLKGGANMVQATYLGLIAHELESIYERLIQKQLVATSDLIDFIRLVQDDLADRLQIMREQQLDYAAPYTINALKRAGQN
SNFQPLSVVDAFDTESEIFSEQEVISEVIIDEIPVELEPALAELEAHHDQVFDTAVTELATPVEVITSVTSQENRVAANE
QDIEAVVEQTFLEEATELLEMAESLLKQWFEQRTNRSILLQLQRAMHSLKGGARMVGLEAVQAIAYQLENAFEQFALHHF
NSNIYDHLLESAIAWLKDAIFNHNYQHFDGLQQSLENIQFFETTIQIPTKLTRADLFSSEPVMTFIQGDGTEPPPMMGAW
EQTERLDQNNEMIRVSADLIEKMIDLSGENSINRSRIEMDLSQFSHTLVEMELAIQRLADQLRRMEGELETQIIAKHGIE
HSRYTDFDPLEMDQYSSLNQLSKSLAESASDLVDFKNTLSDKIRDTESLLLQQSRIQAEIQEGLMRTRLVPFSRLLPRLQ
RIVRQTSTALNRPAELFVNNTEGELDRNILERLVIPLEHMLRNAIDHGLEDRAQRQQANKPETGRIELNIQRQGTDVVVV
FSDDGQGIDVEKVRQKALLAGLIKPEQDLEQQDILQLIFHPGLSTAEQVTQISGRGVGLDVVQSDIKSLGGHVSVESVYG
QGTTFMIRVPTTVAVSDALMVKVADQQFAIPLAQIDRIIRVSPASLEQYFESPQELFEYENRRYPLRYLSEFVGNQPIPR
LNGVMYSLPVLMIKANNGQTVALLVDQLIGSRAQIVVKPIGQQFSSIGAIAGATILGDGQVCLILDGQNIARQIQSTQRH
KQLSEAVYRHRESDERRLIMIVDDSVTVRKVTSRLLERQGYDVVTAKDGVDAIEQLENIKPDLMLLDIEMPRMDGFEVLN
LVRHHDIHQYMPIIMITSRTGEKHRERAFSLGVSQYMGKPFQEEELLENIDALLVASDSEVKS
Nucleotide
Download Length: 4512 bp
>NTDB_id=1053481 ABUS13_RS03290 WP_104889640.1 677941..682452(+) (chpA) [Acinetobacter baumannii strain Lv648]
ATGAAAGAAATATTAAAAACTTTAACTGAAGCAATGACGCTACCTGAAGATAGCTATTCTGAACAAGATGCTGAGTTTCT
TGAGATCTTCATTGAAGAGATTTTTGTTGATTTGCAACCTTTGATAAATAAATGGATGCAGTCTGAGAATATTGCTACGC
TCACTGAAATTCGTCGTCATTTCCATACCTTAAAAGGTTCCGGAAGAATGATTGGCGCTAAATCTTCAGCTGAGCTTGCG
TGGACAGTTGAAGATACACTCAACCGGGTAATCAACCAAAGCTTACAATTAACGCCAACTATCCAGAGCTATGTGCAGTT
AGTATTTAAGTTCTATTTCCTTAAATTAGTAGATAATTTTAAGCAAAAACGAGCACATACCTTAGATTTCAGACCTCTTA
TTTTATTAGGCCAACAACTACAACAACAGCAAAGTTTAGAACCAGCTTTAGAAGAGCTTTTACAACTTTCAAATACGCTT
ACGGCCGAAACAGTGACTGGTCTTGAGCTAGGTTATATCGAACAAGATTCGTTAGCCGAGCCAATCATTCAAACTACACA
TACTGAAATTGAAATAAATCTAGATGAAACCTTGACCTTATTTATGGAAGAGGCAGAAGAACATTTAGCCACGATCCATC
AATTCTTAGATCAAGAGTTACATCAGTACGACAGTTATAACGCTTTAATCCGCGCTTTACATACTTTGCGTGGTAGTTCT
GCAATGGCGCAGGTCGAAACAATTTTCGAGGCCAGTACCAAAGTTGAGCATTTATTTAAAATACTGCTGCAAGAAGAGTT
ATCTTCTCACTCTGAAGAAATTTTATTATTACAAGAATATCGTGAGTTTGTTCGAGATAGCTTGGAACTACTATCTAGAT
ATAGTTCAAGTGAACAGCTCGAAGCGAGATTGCAGCAATTTAATCAATCTTGGGATGCATATGTTGAGCAACATGGTGAC
CGAACAGATCCGTTAATGCCTTCTCATGGTTTGGTATCACAATTATTACAATTAGATGTTTCTGAATTACTGGATGCAGA
ATTAGATTTTGAGAAGGGTATTCGTAATGAGTTTCCTGATTATCTTGAACGCCTAAGTGAACAGGCTAACTTATTACTGC
AACATACACATTCTCAAGCAATGCTGGGTTTACATGAATATACCAGCCAACTGAAAGAAAGTTATGAAGTACTGCTTGAT
AAACCTGCGTTATTACAATCAGACTATATATTTGAAATTTATCAAAAAGCACATCAACAGCTCATTCAATTATTTGATGC
TTTAGCTGCTGGTCAGCGAGTGGGTGTTGTTAAGCAACATCAAAGTATTTTAGAAGAATTAAAACTTTATACGCAGTACA
CTCCAGACCTATCAAATGACCTGCCTCAGCAGGATTCGACATCTTTTGAACCAATATCTAATATTGAACCAGAGCCAGAA
GTAGTAGCTACTGTAGAGAATTTCTCAGACTCTGCAGACTGGGCGGTATTAGGTCAAAGTGTGCAGCAAGATCGACAATA
TATTTCATCTACACAAGTGAATCGAAATTTTGATGCTGATCTTTTAGATATCTTTCTTGAGGAAGCTGAAGAATTACTTG
AGGGAATTGATACCGATCTTAATATTTGGGTAGGTGAGCAAGAAAACTTTGCAGCTCTGAACAATCTAATGCGTTATTTG
CATACCTTGAAAGGGGGCGCAAATATGGTTCAGGCAACGTATCTTGGTTTGATTGCCCATGAATTAGAAAGCATCTATGA
GCGTTTAATTCAAAAGCAATTAGTGGCAACTTCAGATTTAATTGATTTTATTCGTTTGGTTCAAGATGACTTGGCTGACC
GTTTACAAATCATGCGTGAACAACAACTAGATTATGCAGCCCCTTACACAATTAACGCATTAAAACGAGCGGGTCAAAAC
TCTAACTTCCAACCTTTATCAGTGGTTGACGCATTTGATACTGAAAGTGAGATATTCTCTGAGCAAGAGGTGATATCTGA
AGTAATAATAGATGAGATACCAGTAGAACTTGAGCCTGCTCTTGCAGAATTAGAAGCTCATCACGATCAGGTATTCGATA
CAGCGGTTACCGAGTTAGCTACTCCAGTTGAAGTGATTACCTCGGTTACATCGCAAGAGAATAGAGTTGCAGCTAATGAA
CAGGACATTGAGGCTGTTGTTGAACAGACGTTCCTAGAAGAAGCTACTGAATTGTTAGAAATGGCTGAGTCGCTATTAAA
ACAATGGTTTGAACAGCGTACAAACCGTAGTATTTTGCTTCAGCTACAAAGAGCCATGCACAGTTTGAAAGGTGGTGCAC
GAATGGTGGGTTTAGAAGCCGTACAAGCAATTGCCTACCAACTAGAAAATGCTTTTGAACAATTTGCGCTACATCACTTC
AATTCGAATATTTATGATCATTTATTAGAAAGTGCGATTGCATGGTTAAAAGATGCAATTTTCAACCACAATTATCAGCA
TTTCGATGGATTACAGCAAAGTTTAGAAAATATTCAATTCTTTGAAACTACAATCCAGATTCCGACTAAGTTAACTAGAG
CGGACTTGTTTAGCTCAGAACCAGTGATGACCTTTATACAAGGTGATGGTACAGAGCCTCCACCAATGATGGGTGCATGG
GAGCAAACAGAGCGTCTGGATCAGAATAATGAAATGATCCGTGTTTCAGCCGACTTAATCGAGAAAATGATTGATTTGTC
TGGTGAAAACTCCATTAACCGTTCACGAATTGAAATGGACCTAAGCCAGTTTAGCCATACACTAGTTGAAATGGAGTTGG
CGATTCAACGACTTGCCGATCAGTTACGACGAATGGAAGGTGAGTTAGAAACACAGATTATTGCTAAACATGGAATTGAA
CATTCTCGTTATACCGACTTTGATCCGTTAGAGATGGACCAGTATTCATCTTTAAATCAATTGTCGAAATCGCTTGCTGA
ATCTGCATCGGACTTGGTCGACTTTAAAAATACGTTATCTGACAAGATCAGAGATACCGAAAGTTTGCTTTTACAACAAT
CACGAATTCAAGCGGAAATTCAAGAAGGTTTAATGCGGACACGTTTGGTCCCATTTTCGCGTTTATTGCCGCGTTTACAA
CGAATTGTTCGTCAGACATCTACAGCATTGAATAGACCTGCTGAGCTTTTCGTAAATAATACAGAGGGTGAGTTGGACCG
CAACATTTTAGAACGGTTAGTGATTCCGCTTGAGCATATGCTCAGAAACGCAATTGACCATGGTTTAGAGGACCGAGCGC
AGCGGCAACAAGCAAATAAACCGGAAACAGGGCGTATTGAACTTAATATTCAGCGTCAAGGTACGGATGTTGTGGTTGTC
TTTAGTGATGATGGTCAAGGCATTGATGTTGAAAAAGTACGTCAGAAAGCACTCCTTGCCGGATTGATCAAGCCAGAACA
AGACTTAGAACAGCAAGACATACTGCAACTCATTTTCCATCCGGGTTTAAGTACAGCAGAGCAAGTCACTCAGATTTCCG
GACGTGGTGTAGGTCTTGATGTCGTGCAGAGTGATATTAAGTCTTTGGGTGGACATGTCAGCGTTGAATCCGTCTATGGG
CAGGGAACAACATTTATGATTCGTGTACCGACTACAGTAGCGGTAAGTGATGCCTTAATGGTTAAAGTGGCAGATCAACA
ATTTGCGATTCCACTTGCTCAAATCGATCGAATTATTCGAGTGTCACCAGCCTCTTTAGAGCAGTATTTTGAAAGTCCTC
AAGAACTATTTGAGTATGAAAATAGACGTTATCCATTACGTTATCTTTCAGAATTTGTTGGCAACCAACCCATACCACGT
TTAAATGGTGTGATGTATTCATTACCTGTGTTAATGATTAAAGCCAATAATGGCCAAACTGTGGCATTACTTGTTGACCA
GTTAATTGGCTCTCGAGCACAAATTGTAGTGAAACCAATTGGTCAACAGTTCTCTAGCATTGGAGCAATTGCAGGCGCCA
CAATTTTAGGTGACGGACAGGTCTGCTTAATTTTAGATGGACAAAATATTGCGCGACAAATTCAGTCAACTCAGCGTCAT
AAACAACTTAGTGAAGCAGTGTATAGACACCGAGAGTCTGATGAACGCCGCCTCATCATGATTGTAGATGACTCAGTAAC
TGTACGTAAGGTCACGTCCCGATTGCTTGAACGTCAAGGCTATGATGTGGTTACGGCTAAAGATGGTGTTGACGCCATAG
AGCAGCTAGAAAATATTAAGCCAGATTTGATGCTACTTGATATTGAAATGCCACGTATGGATGGTTTTGAGGTTCTCAAT
CTTGTACGACATCATGATATTCATCAATACATGCCAATTATTATGATTACATCCAGAACAGGCGAAAAACATCGTGAACG
AGCATTCTCGTTAGGTGTAAGTCAATATATGGGTAAACCTTTCCAGGAAGAAGAGTTACTAGAGAATATCGATGCTTTAC
TTGTAGCGTCTGACAGTGAGGTCAAATCATGA
ATGAAAGAAATATTAAAAACTTTAACTGAAGCAATGACGCTACCTGAAGATAGCTATTCTGAACAAGATGCTGAGTTTCT
TGAGATCTTCATTGAAGAGATTTTTGTTGATTTGCAACCTTTGATAAATAAATGGATGCAGTCTGAGAATATTGCTACGC
TCACTGAAATTCGTCGTCATTTCCATACCTTAAAAGGTTCCGGAAGAATGATTGGCGCTAAATCTTCAGCTGAGCTTGCG
TGGACAGTTGAAGATACACTCAACCGGGTAATCAACCAAAGCTTACAATTAACGCCAACTATCCAGAGCTATGTGCAGTT
AGTATTTAAGTTCTATTTCCTTAAATTAGTAGATAATTTTAAGCAAAAACGAGCACATACCTTAGATTTCAGACCTCTTA
TTTTATTAGGCCAACAACTACAACAACAGCAAAGTTTAGAACCAGCTTTAGAAGAGCTTTTACAACTTTCAAATACGCTT
ACGGCCGAAACAGTGACTGGTCTTGAGCTAGGTTATATCGAACAAGATTCGTTAGCCGAGCCAATCATTCAAACTACACA
TACTGAAATTGAAATAAATCTAGATGAAACCTTGACCTTATTTATGGAAGAGGCAGAAGAACATTTAGCCACGATCCATC
AATTCTTAGATCAAGAGTTACATCAGTACGACAGTTATAACGCTTTAATCCGCGCTTTACATACTTTGCGTGGTAGTTCT
GCAATGGCGCAGGTCGAAACAATTTTCGAGGCCAGTACCAAAGTTGAGCATTTATTTAAAATACTGCTGCAAGAAGAGTT
ATCTTCTCACTCTGAAGAAATTTTATTATTACAAGAATATCGTGAGTTTGTTCGAGATAGCTTGGAACTACTATCTAGAT
ATAGTTCAAGTGAACAGCTCGAAGCGAGATTGCAGCAATTTAATCAATCTTGGGATGCATATGTTGAGCAACATGGTGAC
CGAACAGATCCGTTAATGCCTTCTCATGGTTTGGTATCACAATTATTACAATTAGATGTTTCTGAATTACTGGATGCAGA
ATTAGATTTTGAGAAGGGTATTCGTAATGAGTTTCCTGATTATCTTGAACGCCTAAGTGAACAGGCTAACTTATTACTGC
AACATACACATTCTCAAGCAATGCTGGGTTTACATGAATATACCAGCCAACTGAAAGAAAGTTATGAAGTACTGCTTGAT
AAACCTGCGTTATTACAATCAGACTATATATTTGAAATTTATCAAAAAGCACATCAACAGCTCATTCAATTATTTGATGC
TTTAGCTGCTGGTCAGCGAGTGGGTGTTGTTAAGCAACATCAAAGTATTTTAGAAGAATTAAAACTTTATACGCAGTACA
CTCCAGACCTATCAAATGACCTGCCTCAGCAGGATTCGACATCTTTTGAACCAATATCTAATATTGAACCAGAGCCAGAA
GTAGTAGCTACTGTAGAGAATTTCTCAGACTCTGCAGACTGGGCGGTATTAGGTCAAAGTGTGCAGCAAGATCGACAATA
TATTTCATCTACACAAGTGAATCGAAATTTTGATGCTGATCTTTTAGATATCTTTCTTGAGGAAGCTGAAGAATTACTTG
AGGGAATTGATACCGATCTTAATATTTGGGTAGGTGAGCAAGAAAACTTTGCAGCTCTGAACAATCTAATGCGTTATTTG
CATACCTTGAAAGGGGGCGCAAATATGGTTCAGGCAACGTATCTTGGTTTGATTGCCCATGAATTAGAAAGCATCTATGA
GCGTTTAATTCAAAAGCAATTAGTGGCAACTTCAGATTTAATTGATTTTATTCGTTTGGTTCAAGATGACTTGGCTGACC
GTTTACAAATCATGCGTGAACAACAACTAGATTATGCAGCCCCTTACACAATTAACGCATTAAAACGAGCGGGTCAAAAC
TCTAACTTCCAACCTTTATCAGTGGTTGACGCATTTGATACTGAAAGTGAGATATTCTCTGAGCAAGAGGTGATATCTGA
AGTAATAATAGATGAGATACCAGTAGAACTTGAGCCTGCTCTTGCAGAATTAGAAGCTCATCACGATCAGGTATTCGATA
CAGCGGTTACCGAGTTAGCTACTCCAGTTGAAGTGATTACCTCGGTTACATCGCAAGAGAATAGAGTTGCAGCTAATGAA
CAGGACATTGAGGCTGTTGTTGAACAGACGTTCCTAGAAGAAGCTACTGAATTGTTAGAAATGGCTGAGTCGCTATTAAA
ACAATGGTTTGAACAGCGTACAAACCGTAGTATTTTGCTTCAGCTACAAAGAGCCATGCACAGTTTGAAAGGTGGTGCAC
GAATGGTGGGTTTAGAAGCCGTACAAGCAATTGCCTACCAACTAGAAAATGCTTTTGAACAATTTGCGCTACATCACTTC
AATTCGAATATTTATGATCATTTATTAGAAAGTGCGATTGCATGGTTAAAAGATGCAATTTTCAACCACAATTATCAGCA
TTTCGATGGATTACAGCAAAGTTTAGAAAATATTCAATTCTTTGAAACTACAATCCAGATTCCGACTAAGTTAACTAGAG
CGGACTTGTTTAGCTCAGAACCAGTGATGACCTTTATACAAGGTGATGGTACAGAGCCTCCACCAATGATGGGTGCATGG
GAGCAAACAGAGCGTCTGGATCAGAATAATGAAATGATCCGTGTTTCAGCCGACTTAATCGAGAAAATGATTGATTTGTC
TGGTGAAAACTCCATTAACCGTTCACGAATTGAAATGGACCTAAGCCAGTTTAGCCATACACTAGTTGAAATGGAGTTGG
CGATTCAACGACTTGCCGATCAGTTACGACGAATGGAAGGTGAGTTAGAAACACAGATTATTGCTAAACATGGAATTGAA
CATTCTCGTTATACCGACTTTGATCCGTTAGAGATGGACCAGTATTCATCTTTAAATCAATTGTCGAAATCGCTTGCTGA
ATCTGCATCGGACTTGGTCGACTTTAAAAATACGTTATCTGACAAGATCAGAGATACCGAAAGTTTGCTTTTACAACAAT
CACGAATTCAAGCGGAAATTCAAGAAGGTTTAATGCGGACACGTTTGGTCCCATTTTCGCGTTTATTGCCGCGTTTACAA
CGAATTGTTCGTCAGACATCTACAGCATTGAATAGACCTGCTGAGCTTTTCGTAAATAATACAGAGGGTGAGTTGGACCG
CAACATTTTAGAACGGTTAGTGATTCCGCTTGAGCATATGCTCAGAAACGCAATTGACCATGGTTTAGAGGACCGAGCGC
AGCGGCAACAAGCAAATAAACCGGAAACAGGGCGTATTGAACTTAATATTCAGCGTCAAGGTACGGATGTTGTGGTTGTC
TTTAGTGATGATGGTCAAGGCATTGATGTTGAAAAAGTACGTCAGAAAGCACTCCTTGCCGGATTGATCAAGCCAGAACA
AGACTTAGAACAGCAAGACATACTGCAACTCATTTTCCATCCGGGTTTAAGTACAGCAGAGCAAGTCACTCAGATTTCCG
GACGTGGTGTAGGTCTTGATGTCGTGCAGAGTGATATTAAGTCTTTGGGTGGACATGTCAGCGTTGAATCCGTCTATGGG
CAGGGAACAACATTTATGATTCGTGTACCGACTACAGTAGCGGTAAGTGATGCCTTAATGGTTAAAGTGGCAGATCAACA
ATTTGCGATTCCACTTGCTCAAATCGATCGAATTATTCGAGTGTCACCAGCCTCTTTAGAGCAGTATTTTGAAAGTCCTC
AAGAACTATTTGAGTATGAAAATAGACGTTATCCATTACGTTATCTTTCAGAATTTGTTGGCAACCAACCCATACCACGT
TTAAATGGTGTGATGTATTCATTACCTGTGTTAATGATTAAAGCCAATAATGGCCAAACTGTGGCATTACTTGTTGACCA
GTTAATTGGCTCTCGAGCACAAATTGTAGTGAAACCAATTGGTCAACAGTTCTCTAGCATTGGAGCAATTGCAGGCGCCA
CAATTTTAGGTGACGGACAGGTCTGCTTAATTTTAGATGGACAAAATATTGCGCGACAAATTCAGTCAACTCAGCGTCAT
AAACAACTTAGTGAAGCAGTGTATAGACACCGAGAGTCTGATGAACGCCGCCTCATCATGATTGTAGATGACTCAGTAAC
TGTACGTAAGGTCACGTCCCGATTGCTTGAACGTCAAGGCTATGATGTGGTTACGGCTAAAGATGGTGTTGACGCCATAG
AGCAGCTAGAAAATATTAAGCCAGATTTGATGCTACTTGATATTGAAATGCCACGTATGGATGGTTTTGAGGTTCTCAAT
CTTGTACGACATCATGATATTCATCAATACATGCCAATTATTATGATTACATCCAGAACAGGCGAAAAACATCGTGAACG
AGCATTCTCGTTAGGTGTAAGTCAATATATGGGTAAACCTTTCCAGGAAGAAGAGTTACTAGAGAATATCGATGCTTTAC
TTGTAGCGTCTGACAGTGAGGTCAAATCATGA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| chpA | Acinetobacter baumannii strain A118 |
98.008 |
100 |
0.982 |