Detailed information
Bioinformatically predicted
Overview
| Name | chpA | Type | Regulator |
| Locus tag | SOI80_RS03485 | Genome accession | NZ_CP139270 |
| Coordinates | 706926..711431 (+) | Length | 1501 a.a. |
| NCBI ID | WP_032005989.1 | Uniprot ID | - |
| Organism | Acinetobacter pittii strain HCG62 | ||
| Function | regulation of type IV pilus assembly (predicted from homology) Competence regulation |
||
Related MGE
Note: This gene co-localizes with putative mobile genetic elements (MGEs) in the genome predicted by VRprofile2, as detailed below.
Gene-MGE association summary
| MGE type | MGE coordinates | Gene coordinates | Relative position | Distance (bp) |
|---|---|---|---|---|
| IS/Tn | 712101..713111 | 706926..711431 | flank | 670 |
Gene organization within MGE regions
Location: 706926..713111
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| SOI80_RS03485 (SOI80_03485) | chpA | 706926..711431 (+) | 4506 | WP_032005989.1 | hybrid sensor histidine kinase/response regulator | Regulator |
| SOI80_RS03490 (SOI80_03490) | - | 711431..711898 (+) | 468 | WP_032005987.1 | hypothetical protein | - |
| SOI80_RS03495 (SOI80_03495) | - | 712101..713069 (-) | 969 | WP_014538385.1 | IS30 family transposase | - |
Sequence
Protein
Download Length: 1501 a.a. Molecular weight: 171315.62 Da Isoelectric Point: 4.3937
>NTDB_id=908566 SOI80_RS03485 WP_032005989.1 706926..711431(+) (chpA) [Acinetobacter pittii strain HCG62]
MKEILKTLTEAMMLPEDSYSQQDDEFLEIFVEEIEEVFVELQSLIHEWMQSENVATLTEIRRHFHTLKGSGRMIGAKSSA
ELAWTVEDTLNRVINQSLGLTPNIQQYVQLVFKFYFFKLVDDFKSKKNHTLDFRPLILLGQQLQQQQSIEPALDELLLLS
DILTAETQTGLETYDLEPESTEVLTILTPEVAIETEQTLAETLILFMEEAEEHLATIDQFLEKEIHQHESYNALIRALHT
LRGSSAMAHVEPIFEASTKVEHLFKILLQEELSSHSEEVSLLRDYRQFIRNSLDLLAAHCSTEQLESDLQKFNQVWDAYM
EQHGEHSSPLMPPHGLVSQLLQLDVAELLDAELDFEKGIRTEFPHYLERLSEQADVLLQHTQSQAMIGLYEYTNQLKESY
DILLDRPDLLQSDYVFEIYQKAHQQLIQLFDALAAGQRVSIIEQHQNVLDELKLYTQYIPNLNSESLETHQDVVESLFNA
EVELTANDPLIENVFTDQVTIGQSVQLDRQFISSEHVNRHFDPDLLDIFLEEADELLEGMDTDLNLWVNDQENFAALNNL
MRYLHTLKGGANMIQATYIGLIAHELESIYERLIQKQLIVSSALIDFIRLVQDDLADRLQIVREQHLDYAASHTIQALKN
AGQVFDSHIKESKTEPETYVIPELNFEVLQQEAINNTELNLSELTSGSEQITESSNQLVEQTELQVLYADHDYTESIPDQ
DINTVVEQTFMEEAAELLEMADHLLKQWFEQRTNRSILLQLQRAVHSLKGGSRMLGLETVQAIAYQLENAFEQFALHHFS
SNIYDNLLESAIVWLKEAIFKQNYQHFDGLQQSLENIQFIETAIQIPSKLTRTDLFSTEPVMSFVQGDGTEPPPMMGEWE
QAQRLDQNNEMIRVSADLIEKMIDLSGENSINRSRIEMDLSQFGHTLAEMELAIQRLADQLRRMEGELETQIIAKHGIEN
SRYTEFDPLEMDQYSSLNQLSKSLAESASDLVDFKNTLSEKIRDTEGLLVQQSRIQAEIQEGLMRTRLVPFSRLLPRLQR
IVRQTSTALNRPAELFVNNTEGELDRTMLERLVTPLEHMLRNAIDHGLEDRAQREQAQKPETGRIELNIHRQGTDVVVTF
KDDGQGIDIEKVRQKALMSGLINPEQVLEHQDILQLIFHPGLSTADQVTQISGRGVGLDVVQSDIKALGGHVSVDSVYGQ
GTVFTIRVPTTVAVSDALMVKVADQQFAIPLAQIDRIVRVSPASLEQYFGSAQEFFEFENKRYPLRYLSEFVGNQPIPRL
SGMMYSLPVLMIKANNGQTVALLVDQLIGSRAQIVVKPIGQQFSSIGAIAGATILGDGQVCLILDGQNIARQIQSTRRHK
SLNETIYRQRESDERRLIMIVDDSVTVRKVTSRLLERQGYDVVTAKDGVDAIEQLENIKPDLMLLDIEMPRMDGFEVLNL
VRHHDLHQDLPVIMITSRTGEKHRERAFTLGVNQYMGKPFQEEDLLHNIDALFMTSEGGLA
MKEILKTLTEAMMLPEDSYSQQDDEFLEIFVEEIEEVFVELQSLIHEWMQSENVATLTEIRRHFHTLKGSGRMIGAKSSA
ELAWTVEDTLNRVINQSLGLTPNIQQYVQLVFKFYFFKLVDDFKSKKNHTLDFRPLILLGQQLQQQQSIEPALDELLLLS
DILTAETQTGLETYDLEPESTEVLTILTPEVAIETEQTLAETLILFMEEAEEHLATIDQFLEKEIHQHESYNALIRALHT
LRGSSAMAHVEPIFEASTKVEHLFKILLQEELSSHSEEVSLLRDYRQFIRNSLDLLAAHCSTEQLESDLQKFNQVWDAYM
EQHGEHSSPLMPPHGLVSQLLQLDVAELLDAELDFEKGIRTEFPHYLERLSEQADVLLQHTQSQAMIGLYEYTNQLKESY
DILLDRPDLLQSDYVFEIYQKAHQQLIQLFDALAAGQRVSIIEQHQNVLDELKLYTQYIPNLNSESLETHQDVVESLFNA
EVELTANDPLIENVFTDQVTIGQSVQLDRQFISSEHVNRHFDPDLLDIFLEEADELLEGMDTDLNLWVNDQENFAALNNL
MRYLHTLKGGANMIQATYIGLIAHELESIYERLIQKQLIVSSALIDFIRLVQDDLADRLQIVREQHLDYAASHTIQALKN
AGQVFDSHIKESKTEPETYVIPELNFEVLQQEAINNTELNLSELTSGSEQITESSNQLVEQTELQVLYADHDYTESIPDQ
DINTVVEQTFMEEAAELLEMADHLLKQWFEQRTNRSILLQLQRAVHSLKGGSRMLGLETVQAIAYQLENAFEQFALHHFS
SNIYDNLLESAIVWLKEAIFKQNYQHFDGLQQSLENIQFIETAIQIPSKLTRTDLFSTEPVMSFVQGDGTEPPPMMGEWE
QAQRLDQNNEMIRVSADLIEKMIDLSGENSINRSRIEMDLSQFGHTLAEMELAIQRLADQLRRMEGELETQIIAKHGIEN
SRYTEFDPLEMDQYSSLNQLSKSLAESASDLVDFKNTLSEKIRDTEGLLVQQSRIQAEIQEGLMRTRLVPFSRLLPRLQR
IVRQTSTALNRPAELFVNNTEGELDRTMLERLVTPLEHMLRNAIDHGLEDRAQREQAQKPETGRIELNIHRQGTDVVVTF
KDDGQGIDIEKVRQKALMSGLINPEQVLEHQDILQLIFHPGLSTADQVTQISGRGVGLDVVQSDIKALGGHVSVDSVYGQ
GTVFTIRVPTTVAVSDALMVKVADQQFAIPLAQIDRIVRVSPASLEQYFGSAQEFFEFENKRYPLRYLSEFVGNQPIPRL
SGMMYSLPVLMIKANNGQTVALLVDQLIGSRAQIVVKPIGQQFSSIGAIAGATILGDGQVCLILDGQNIARQIQSTRRHK
SLNETIYRQRESDERRLIMIVDDSVTVRKVTSRLLERQGYDVVTAKDGVDAIEQLENIKPDLMLLDIEMPRMDGFEVLNL
VRHHDLHQDLPVIMITSRTGEKHRERAFTLGVNQYMGKPFQEEDLLHNIDALFMTSEGGLA
Nucleotide
Download Length: 4506 bp
>NTDB_id=908566 SOI80_RS03485 WP_032005989.1 706926..711431(+) (chpA) [Acinetobacter pittii strain HCG62]
ATGAAAGAAATATTAAAAACTTTAACTGAAGCAATGATGCTACCGGAAGATAGCTACTCTCAACAAGACGATGAATTTCT
TGAAATATTTGTCGAAGAAATTGAAGAAGTTTTTGTTGAATTACAATCTTTGATTCACGAATGGATGCAATCTGAAAATG
TTGCTACGCTTACTGAAATCCGCCGTCATTTTCATACATTGAAAGGTTCAGGGCGAATGATTGGGGCCAAATCTTCTGCT
GAGCTTGCTTGGACTGTAGAAGATACGCTTAATCGGGTAATCAATCAGAGTCTCGGATTAACTCCTAACATCCAACAATA
TGTTCAGTTGGTATTTAAGTTCTATTTCTTTAAGTTAGTAGATGACTTCAAATCTAAAAAAAATCATACCCTAGACTTTA
GGCCCCTAATTTTATTGGGACAACAATTACAGCAACAGCAAAGTATAGAACCCGCGTTAGACGAACTTTTATTATTATCA
GATATTCTTACTGCTGAAACTCAAACTGGTTTAGAAACATATGACTTAGAACCAGAATCTACAGAAGTTTTAACTATTTT
GACTCCAGAAGTTGCTATAGAAACTGAACAGACTCTTGCTGAAACCTTAATTTTATTTATGGAAGAAGCAGAAGAGCACT
TAGCGACAATTGATCAGTTTTTGGAAAAAGAAATACATCAGCATGAAAGTTATAATGCTCTAATACGTGCGTTACATACA
TTACGTGGCAGCTCTGCCATGGCTCATGTAGAACCAATCTTTGAAGCCAGTACCAAAGTTGAGCATTTATTTAAAATACT
ATTACAAGAAGAGCTTTCTTCTCATTCAGAAGAAGTTTCATTACTCCGTGATTATCGTCAGTTTATTCGAAATAGTTTAG
ATCTATTGGCTGCACATTGCTCTACTGAGCAATTGGAATCTGATCTACAAAAATTTAATCAGGTTTGGGATGCTTACATG
GAGCAGCATGGTGAGCATTCGAGCCCACTCATGCCTCCACATGGTTTAGTGTCTCAGCTATTACAGCTAGATGTTGCTGA
ATTACTTGATGCGGAATTAGACTTTGAGAAGGGAATACGTACAGAGTTTCCTCATTATCTTGAACGTTTAAGTGAACAAG
CAGATGTTTTGCTGCAACATACTCAATCGCAGGCAATGATTGGTTTATATGAATATACTAACCAGTTGAAAGAAAGCTAC
GACATATTGCTTGATCGACCTGACTTATTGCAATCAGATTATGTTTTTGAAATTTATCAAAAAGCGCACCAACAATTAAT
TCAGTTATTTGATGCATTAGCCGCAGGACAAAGAGTAAGTATTATTGAGCAACACCAAAATGTCTTGGACGAGCTAAAAC
TATATACTCAATATATTCCAAATCTTAATTCCGAATCATTAGAAACTCATCAAGACGTTGTTGAATCATTGTTTAATGCT
GAAGTTGAACTAACAGCGAATGATCCTCTGATAGAAAATGTATTCACTGATCAGGTCACCATAGGGCAGAGTGTACAACT
AGATCGACAATTCATTTCATCTGAGCATGTAAACCGTCATTTTGATCCAGACCTTTTAGATATTTTTCTTGAAGAAGCCG
ATGAGTTGCTTGAGGGAATGGATACAGATCTTAATCTTTGGGTTAATGATCAAGAAAACTTTGCCGCTCTCAATAATCTG
ATGCGTTATTTGCATACCTTAAAAGGTGGGGCAAATATGATTCAGGCAACTTATATTGGTTTAATTGCACATGAGTTAGA
AAGTATTTATGAGCGTTTAATTCAAAAACAGTTGATAGTGTCGTCTGCTCTCATTGATTTTATTCGACTAGTTCAAGATG
ACTTGGCTGACCGTCTTCAAATAGTGCGTGAACAGCACCTAGATTATGCTGCTTCTCATACTATTCAAGCACTTAAAAAT
GCAGGTCAGGTATTTGATTCTCATATTAAAGAGAGCAAAACAGAACCTGAAACGTATGTTATACCTGAGTTAAATTTTGA
AGTATTACAACAAGAAGCGATAAATAATACGGAGTTAAACCTCAGTGAGTTAACTTCTGGTTCTGAGCAGATTACTGAGT
CCAGTAATCAACTTGTTGAGCAAACCGAATTACAAGTTCTTTATGCTGATCACGATTATACAGAGAGTATCCCAGATCAA
GATATTAATACTGTTGTCGAGCAGACATTCATGGAGGAAGCGGCCGAACTATTAGAAATGGCCGATCACTTATTAAAACA
ATGGTTCGAGCAACGTACTAACCGTAGTATCTTGCTTCAACTACAAAGGGCAGTGCACAGCTTGAAAGGCGGTTCCCGTA
TGTTGGGACTTGAAACCGTGCAAGCGATTGCTTATCAACTTGAGAATGCTTTTGAACAATTTGCGCTTCATCATTTCAGC
TCAAATATTTATGACAACTTATTAGAGAGTGCAATTGTCTGGTTAAAAGAGGCAATTTTTAAACAAAATTATCAACACTT
CGATGGTTTACAACAAAGTCTGGAAAATATCCAGTTCATTGAAACAGCAATTCAAATTCCTAGTAAGTTAACTAGAACTG
ATCTATTCAGCACGGAACCTGTAATGAGTTTTGTGCAAGGTGACGGTACAGAACCACCGCCAATGATGGGTGAGTGGGAA
CAAGCACAACGCCTTGATCAAAATAATGAGATGATTCGAGTCTCGGCAGATTTAATTGAAAAAATGATTGATCTGTCTGG
TGAAAATTCGATTAACCGTTCGCGAATTGAAATGGATTTAAGCCAATTTGGTCATACCTTAGCGGAAATGGAATTGGCTA
TTCAGCGACTTGCAGATCAGTTGCGTCGAATGGAAGGCGAATTAGAAACCCAAATTATTGCAAAACACGGTATTGAGAAC
TCGCGTTATACGGAATTTGATCCTTTAGAGATGGACCAATATTCTTCATTAAATCAGTTATCAAAGTCTCTGGCCGAGTC
TGCATCGGATTTAGTAGATTTTAAAAATACATTATCTGAAAAGATCAGAGACACTGAAGGTTTATTGGTACAGCAATCGC
GTATTCAGGCTGAAATTCAAGAAGGCCTTATGCGAACACGCTTAGTACCATTCTCTCGATTGTTGCCTCGTCTCCAAAGA
ATTGTGAGGCAGACTTCTACCGCGTTAAATCGACCAGCAGAGCTTTTCGTTAATAATACAGAAGGCGAGCTGGACCGGAC
AATGCTAGAACGTTTGGTTACGCCACTTGAGCACATGCTTAGAAATGCAATTGACCATGGATTAGAAGACCGTGCGCAAC
GTGAGCAAGCGCAGAAACCAGAAACGGGACGTATTGAACTCAATATTCATCGTCAAGGTACAGATGTTGTAGTTACATTT
AAAGACGATGGACAAGGTATTGATATCGAAAAGGTTCGTCAAAAGGCGTTAATGTCTGGTTTGATTAATCCAGAGCAAGT
ATTAGAACATCAAGATATTTTACAGCTGATTTTCCATCCTGGTTTAAGTACAGCCGATCAAGTGACTCAGATCTCAGGTC
GTGGCGTAGGGCTGGATGTCGTGCAAAGTGATATTAAGGCCTTAGGTGGCCATGTGAGTGTCGACTCTGTATATGGGCAG
GGAACTGTCTTTACTATACGTGTTCCAACGACAGTAGCTGTTAGTGATGCTTTAATGGTTAAAGTTGCTGATCAGCAATT
TGCAATTCCATTGGCTCAGATTGATCGAATTGTACGAGTTTCACCAGCATCATTAGAACAATATTTCGGAAGTGCACAAG
AGTTCTTTGAATTTGAAAATAAGCGCTATCCATTACGTTATTTATCTGAGTTTGTTGGTAATCAACCAATTCCGCGCTTA
AGTGGAATGATGTATTCATTACCAGTATTAATGATTAAGGCAAATAATGGACAAACCGTCGCATTATTAGTTGACCAACT
GATTGGCTCACGCGCACAGATTGTAGTTAAGCCAATAGGACAACAATTCTCTAGCATTGGTGCGATTGCAGGAGCAACTA
TTTTAGGTGATGGCCAAGTTTGTCTAATTTTAGATGGACAAAATATTGCTCGCCAAATTCAATCTACTCGCCGACATAAA
TCGCTTAATGAAACTATCTATAGACAACGCGAGTCTGACGAGCGACGTCTTATCATGATTGTAGATGACTCGGTAACTGT
ACGTAAGGTGACGTCTCGCTTACTTGAACGTCAGGGCTATGATGTAGTCACAGCTAAAGATGGGGTTGATGCCATTGAGC
AATTGGAAAATATTAAACCAGATCTCATGTTACTTGATATTGAAATGCCACGAATGGATGGCTTTGAGGTACTTAACCTC
GTTCGACATCATGATCTACATCAAGATCTGCCAGTGATTATGATTACATCACGAACTGGTGAAAAACACCGTGAACGAGC
ATTTACTTTAGGTGTTAACCAATACATGGGTAAACCTTTCCAAGAAGAAGACTTACTTCACAATATTGATGCGTTATTCA
TGACATCTGAAGGGGGACTTGCCTAA
ATGAAAGAAATATTAAAAACTTTAACTGAAGCAATGATGCTACCGGAAGATAGCTACTCTCAACAAGACGATGAATTTCT
TGAAATATTTGTCGAAGAAATTGAAGAAGTTTTTGTTGAATTACAATCTTTGATTCACGAATGGATGCAATCTGAAAATG
TTGCTACGCTTACTGAAATCCGCCGTCATTTTCATACATTGAAAGGTTCAGGGCGAATGATTGGGGCCAAATCTTCTGCT
GAGCTTGCTTGGACTGTAGAAGATACGCTTAATCGGGTAATCAATCAGAGTCTCGGATTAACTCCTAACATCCAACAATA
TGTTCAGTTGGTATTTAAGTTCTATTTCTTTAAGTTAGTAGATGACTTCAAATCTAAAAAAAATCATACCCTAGACTTTA
GGCCCCTAATTTTATTGGGACAACAATTACAGCAACAGCAAAGTATAGAACCCGCGTTAGACGAACTTTTATTATTATCA
GATATTCTTACTGCTGAAACTCAAACTGGTTTAGAAACATATGACTTAGAACCAGAATCTACAGAAGTTTTAACTATTTT
GACTCCAGAAGTTGCTATAGAAACTGAACAGACTCTTGCTGAAACCTTAATTTTATTTATGGAAGAAGCAGAAGAGCACT
TAGCGACAATTGATCAGTTTTTGGAAAAAGAAATACATCAGCATGAAAGTTATAATGCTCTAATACGTGCGTTACATACA
TTACGTGGCAGCTCTGCCATGGCTCATGTAGAACCAATCTTTGAAGCCAGTACCAAAGTTGAGCATTTATTTAAAATACT
ATTACAAGAAGAGCTTTCTTCTCATTCAGAAGAAGTTTCATTACTCCGTGATTATCGTCAGTTTATTCGAAATAGTTTAG
ATCTATTGGCTGCACATTGCTCTACTGAGCAATTGGAATCTGATCTACAAAAATTTAATCAGGTTTGGGATGCTTACATG
GAGCAGCATGGTGAGCATTCGAGCCCACTCATGCCTCCACATGGTTTAGTGTCTCAGCTATTACAGCTAGATGTTGCTGA
ATTACTTGATGCGGAATTAGACTTTGAGAAGGGAATACGTACAGAGTTTCCTCATTATCTTGAACGTTTAAGTGAACAAG
CAGATGTTTTGCTGCAACATACTCAATCGCAGGCAATGATTGGTTTATATGAATATACTAACCAGTTGAAAGAAAGCTAC
GACATATTGCTTGATCGACCTGACTTATTGCAATCAGATTATGTTTTTGAAATTTATCAAAAAGCGCACCAACAATTAAT
TCAGTTATTTGATGCATTAGCCGCAGGACAAAGAGTAAGTATTATTGAGCAACACCAAAATGTCTTGGACGAGCTAAAAC
TATATACTCAATATATTCCAAATCTTAATTCCGAATCATTAGAAACTCATCAAGACGTTGTTGAATCATTGTTTAATGCT
GAAGTTGAACTAACAGCGAATGATCCTCTGATAGAAAATGTATTCACTGATCAGGTCACCATAGGGCAGAGTGTACAACT
AGATCGACAATTCATTTCATCTGAGCATGTAAACCGTCATTTTGATCCAGACCTTTTAGATATTTTTCTTGAAGAAGCCG
ATGAGTTGCTTGAGGGAATGGATACAGATCTTAATCTTTGGGTTAATGATCAAGAAAACTTTGCCGCTCTCAATAATCTG
ATGCGTTATTTGCATACCTTAAAAGGTGGGGCAAATATGATTCAGGCAACTTATATTGGTTTAATTGCACATGAGTTAGA
AAGTATTTATGAGCGTTTAATTCAAAAACAGTTGATAGTGTCGTCTGCTCTCATTGATTTTATTCGACTAGTTCAAGATG
ACTTGGCTGACCGTCTTCAAATAGTGCGTGAACAGCACCTAGATTATGCTGCTTCTCATACTATTCAAGCACTTAAAAAT
GCAGGTCAGGTATTTGATTCTCATATTAAAGAGAGCAAAACAGAACCTGAAACGTATGTTATACCTGAGTTAAATTTTGA
AGTATTACAACAAGAAGCGATAAATAATACGGAGTTAAACCTCAGTGAGTTAACTTCTGGTTCTGAGCAGATTACTGAGT
CCAGTAATCAACTTGTTGAGCAAACCGAATTACAAGTTCTTTATGCTGATCACGATTATACAGAGAGTATCCCAGATCAA
GATATTAATACTGTTGTCGAGCAGACATTCATGGAGGAAGCGGCCGAACTATTAGAAATGGCCGATCACTTATTAAAACA
ATGGTTCGAGCAACGTACTAACCGTAGTATCTTGCTTCAACTACAAAGGGCAGTGCACAGCTTGAAAGGCGGTTCCCGTA
TGTTGGGACTTGAAACCGTGCAAGCGATTGCTTATCAACTTGAGAATGCTTTTGAACAATTTGCGCTTCATCATTTCAGC
TCAAATATTTATGACAACTTATTAGAGAGTGCAATTGTCTGGTTAAAAGAGGCAATTTTTAAACAAAATTATCAACACTT
CGATGGTTTACAACAAAGTCTGGAAAATATCCAGTTCATTGAAACAGCAATTCAAATTCCTAGTAAGTTAACTAGAACTG
ATCTATTCAGCACGGAACCTGTAATGAGTTTTGTGCAAGGTGACGGTACAGAACCACCGCCAATGATGGGTGAGTGGGAA
CAAGCACAACGCCTTGATCAAAATAATGAGATGATTCGAGTCTCGGCAGATTTAATTGAAAAAATGATTGATCTGTCTGG
TGAAAATTCGATTAACCGTTCGCGAATTGAAATGGATTTAAGCCAATTTGGTCATACCTTAGCGGAAATGGAATTGGCTA
TTCAGCGACTTGCAGATCAGTTGCGTCGAATGGAAGGCGAATTAGAAACCCAAATTATTGCAAAACACGGTATTGAGAAC
TCGCGTTATACGGAATTTGATCCTTTAGAGATGGACCAATATTCTTCATTAAATCAGTTATCAAAGTCTCTGGCCGAGTC
TGCATCGGATTTAGTAGATTTTAAAAATACATTATCTGAAAAGATCAGAGACACTGAAGGTTTATTGGTACAGCAATCGC
GTATTCAGGCTGAAATTCAAGAAGGCCTTATGCGAACACGCTTAGTACCATTCTCTCGATTGTTGCCTCGTCTCCAAAGA
ATTGTGAGGCAGACTTCTACCGCGTTAAATCGACCAGCAGAGCTTTTCGTTAATAATACAGAAGGCGAGCTGGACCGGAC
AATGCTAGAACGTTTGGTTACGCCACTTGAGCACATGCTTAGAAATGCAATTGACCATGGATTAGAAGACCGTGCGCAAC
GTGAGCAAGCGCAGAAACCAGAAACGGGACGTATTGAACTCAATATTCATCGTCAAGGTACAGATGTTGTAGTTACATTT
AAAGACGATGGACAAGGTATTGATATCGAAAAGGTTCGTCAAAAGGCGTTAATGTCTGGTTTGATTAATCCAGAGCAAGT
ATTAGAACATCAAGATATTTTACAGCTGATTTTCCATCCTGGTTTAAGTACAGCCGATCAAGTGACTCAGATCTCAGGTC
GTGGCGTAGGGCTGGATGTCGTGCAAAGTGATATTAAGGCCTTAGGTGGCCATGTGAGTGTCGACTCTGTATATGGGCAG
GGAACTGTCTTTACTATACGTGTTCCAACGACAGTAGCTGTTAGTGATGCTTTAATGGTTAAAGTTGCTGATCAGCAATT
TGCAATTCCATTGGCTCAGATTGATCGAATTGTACGAGTTTCACCAGCATCATTAGAACAATATTTCGGAAGTGCACAAG
AGTTCTTTGAATTTGAAAATAAGCGCTATCCATTACGTTATTTATCTGAGTTTGTTGGTAATCAACCAATTCCGCGCTTA
AGTGGAATGATGTATTCATTACCAGTATTAATGATTAAGGCAAATAATGGACAAACCGTCGCATTATTAGTTGACCAACT
GATTGGCTCACGCGCACAGATTGTAGTTAAGCCAATAGGACAACAATTCTCTAGCATTGGTGCGATTGCAGGAGCAACTA
TTTTAGGTGATGGCCAAGTTTGTCTAATTTTAGATGGACAAAATATTGCTCGCCAAATTCAATCTACTCGCCGACATAAA
TCGCTTAATGAAACTATCTATAGACAACGCGAGTCTGACGAGCGACGTCTTATCATGATTGTAGATGACTCGGTAACTGT
ACGTAAGGTGACGTCTCGCTTACTTGAACGTCAGGGCTATGATGTAGTCACAGCTAAAGATGGGGTTGATGCCATTGAGC
AATTGGAAAATATTAAACCAGATCTCATGTTACTTGATATTGAAATGCCACGAATGGATGGCTTTGAGGTACTTAACCTC
GTTCGACATCATGATCTACATCAAGATCTGCCAGTGATTATGATTACATCACGAACTGGTGAAAAACACCGTGAACGAGC
ATTTACTTTAGGTGTTAACCAATACATGGGTAAACCTTTCCAAGAAGAAGACTTACTTCACAATATTGATGCGTTATTCA
TGACATCTGAAGGGGGACTTGCCTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| chpA | Acinetobacter baumannii strain A118 |
79.881 |
100 |
0.804 |