Detailed information
Bioinformatically predicted
Overview
| Name | chiS | Type | Regulator |
| Locus tag | ACLRDL_RS04330 | Genome accession | NZ_CP178387 |
| Coordinates | 894650..898183 (-) | Length | 1177 a.a. |
| NCBI ID | WP_175295302.1 | Uniprot ID | - |
| Organism | Vibrio cholerae isolate CTMA_1842 | ||
| Function | chitin sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 889650..903183
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| ACLRDL_RS04315 (ACLRDL_04315) | - | 889886..890911 (-) | 1026 | WP_000646270.1 | ABC transporter permease | - |
| ACLRDL_RS04320 (ACLRDL_04320) | - | 890914..891900 (-) | 987 | WP_000540337.1 | ABC transporter permease | - |
| ACLRDL_RS04325 (ACLRDL_04325) | - | 892070..893740 (-) | 1671 | WP_000880698.1 | ABC transporter substrate-binding protein | - |
| ACLRDL_RS04330 (ACLRDL_04330) | chiS | 894650..898183 (-) | 3534 | WP_175295302.1 | two-component system sensor histidine kinase ChiS | Regulator |
| ACLRDL_RS04335 (ACLRDL_04335) | rsmC | 898247..899269 (-) | 1023 | WP_001183369.1 | 16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC | - |
| ACLRDL_RS04340 (ACLRDL_04340) | - | 899342..900427 (-) | 1086 | WP_001290814.1 | AI-2E family transporter | - |
| ACLRDL_RS04345 (ACLRDL_04345) | hemL | 900695..901993 (-) | 1299 | WP_000167257.1 | glutamate-1-semialdehyde 2,1-aminomutase | - |
| ACLRDL_RS04350 (ACLRDL_04350) | erpA | 902277..902618 (+) | 342 | WP_000005741.1 | iron-sulfur cluster insertion protein ErpA | - |
Sequence
Protein
Download Length: 1177 a.a. Molecular weight: 133162.36 Da Isoelectric Point: 6.8941
>NTDB_id=1089387 ACLRDL_RS04330 WP_175295302.1 894650..898183(-) (chiS) [Vibrio cholerae isolate CTMA_1842]
MRLCPRFSLDLLVKVKKLVNFVTLGFSCLSPTHAWRSPQSFTESNTLIMFRFYRKQKFKRLQNTLMAAFLALSIIPLTIT
ALFFLHSHSKDLEQQSTSYLVSVRDNKQQQVIDYMMAKESEVMGFVRSELAYASGGRFYGLVNAFQRLDVSIEAAREHAQ
QRYITGSGDQIKTSVLPQSSSYVGSERYRLLHKRYHWAYLELLKRSDFDDILLVDIDGNVVYSIYKYDNFGTNLLTGKYQ
DTNLGHTFKRLEQTVNEQRKTNEDFTPVVISDFVQEDGKQYAWLGAPIIQQGYLHSYAMFRLPSNAITKLIAEGSSNPSM
QTILVGQDHRSRTLTSAEIAVEKSKAVVDLALSGKRAVGTYTNTDGEQIIAAYAPINLKNIHWALVVELPEKEAFARVRQ
LEKLFVFAMLTAIVLVVIASHYLSNFITSPLLKLTWAAERVSAGDLDEAMINTERKDEIGRLAVSFERMQRSIREKISLI
KSQNKELESNLLIIRKQNDELQLANKLKDEFLATTSHELRTPLHGMIGIAEALISGANGPISAAHKYQLDIIISSGQRLA
TLVDDLLDYHKMRYGALDIQRCAVDLSSATRLVLELSHHLLGKKTLRIINQVSEQPVWVSADPQRLEQVLYNLIGNAIKY
TSEGKIVISATYIDDKVRVQVVDTGQGIPAEQLEHIFEPLIQAGHDASRYRQGAGLGLSISRQLIELMHGTLYVSSQPMV
GTTFSFTLPLASEEEIAQARLTELPHFQAPEVLDTELPEQSNLPENEHGPLLLIADDEPVNLRVLDSFLRLEGYRVHTAQ
DGHQVLEAIKREKPELVLLDIMMPGMSGYQVCEKLRQTYDHAELPIIMLTALNQSDDRVRGFEAGANDYLSKPFNKQELA
ARIVAHLTASKAELRRIENAQLQKELKHRAMVEASLLETQGRLLEQLESAPEAILCVKEGNKVRFANEAAARLFRRTPEQ
LKRSNAEELIAPKFLNIEQEHYCGNIDVYVDDVRQHLSADVLRLPQGSGLQAMYIFNVGGSVNAARIHNLETAVEALSSY
AFEGDKDKLQKLKELGGEFTRLADKASGEYQSKQDLMRAVLVEAMTSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQ
TRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEMQRDKLQKLLTSE
MRLCPRFSLDLLVKVKKLVNFVTLGFSCLSPTHAWRSPQSFTESNTLIMFRFYRKQKFKRLQNTLMAAFLALSIIPLTIT
ALFFLHSHSKDLEQQSTSYLVSVRDNKQQQVIDYMMAKESEVMGFVRSELAYASGGRFYGLVNAFQRLDVSIEAAREHAQ
QRYITGSGDQIKTSVLPQSSSYVGSERYRLLHKRYHWAYLELLKRSDFDDILLVDIDGNVVYSIYKYDNFGTNLLTGKYQ
DTNLGHTFKRLEQTVNEQRKTNEDFTPVVISDFVQEDGKQYAWLGAPIIQQGYLHSYAMFRLPSNAITKLIAEGSSNPSM
QTILVGQDHRSRTLTSAEIAVEKSKAVVDLALSGKRAVGTYTNTDGEQIIAAYAPINLKNIHWALVVELPEKEAFARVRQ
LEKLFVFAMLTAIVLVVIASHYLSNFITSPLLKLTWAAERVSAGDLDEAMINTERKDEIGRLAVSFERMQRSIREKISLI
KSQNKELESNLLIIRKQNDELQLANKLKDEFLATTSHELRTPLHGMIGIAEALISGANGPISAAHKYQLDIIISSGQRLA
TLVDDLLDYHKMRYGALDIQRCAVDLSSATRLVLELSHHLLGKKTLRIINQVSEQPVWVSADPQRLEQVLYNLIGNAIKY
TSEGKIVISATYIDDKVRVQVVDTGQGIPAEQLEHIFEPLIQAGHDASRYRQGAGLGLSISRQLIELMHGTLYVSSQPMV
GTTFSFTLPLASEEEIAQARLTELPHFQAPEVLDTELPEQSNLPENEHGPLLLIADDEPVNLRVLDSFLRLEGYRVHTAQ
DGHQVLEAIKREKPELVLLDIMMPGMSGYQVCEKLRQTYDHAELPIIMLTALNQSDDRVRGFEAGANDYLSKPFNKQELA
ARIVAHLTASKAELRRIENAQLQKELKHRAMVEASLLETQGRLLEQLESAPEAILCVKEGNKVRFANEAAARLFRRTPEQ
LKRSNAEELIAPKFLNIEQEHYCGNIDVYVDDVRQHLSADVLRLPQGSGLQAMYIFNVGGSVNAARIHNLETAVEALSSY
AFEGDKDKLQKLKELGGEFTRLADKASGEYQSKQDLMRAVLVEAMTSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQ
TRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEMQRDKLQKLLTSE
Nucleotide
Download Length: 3534 bp
>NTDB_id=1089387 ACLRDL_RS04330 WP_175295302.1 894650..898183(-) (chiS) [Vibrio cholerae isolate CTMA_1842]
TTGCGTCTATGCCCACGCTTTAGCTTGGACTTACTTGTCAAAGTAAAAAAACTCGTTAATTTCGTTACTTTAGGTTTTTC
TTGTCTATCACCCACTCATGCTTGGCGATCGCCGCAGAGTTTCACCGAAAGTAACACCTTAATTATGTTTAGGTTCTATC
GAAAACAAAAATTCAAACGCCTGCAAAATACCTTGATGGCTGCATTTTTGGCCCTCAGCATTATTCCTTTGACCATTACT
GCGTTGTTTTTCCTACATTCACACAGTAAAGATTTGGAGCAGCAGAGTACCTCTTACCTCGTTTCTGTTCGGGATAATAA
ACAGCAACAGGTCATCGACTACATGATGGCCAAAGAGTCGGAAGTGATGGGTTTTGTTCGCTCCGAGCTGGCTTATGCCA
GTGGCGGGCGTTTTTATGGTCTGGTGAATGCTTTCCAGCGTTTAGACGTCAGTATTGAAGCGGCTCGTGAACATGCTCAG
CAGCGCTATATCACCGGATCGGGTGACCAAATAAAAACCTCGGTGCTGCCCCAATCAAGCAGTTACGTGGGCAGTGAACG
CTATCGACTGCTGCATAAACGCTACCACTGGGCTTACTTAGAACTGCTGAAACGGTCGGACTTTGATGACATTTTATTGG
TCGATATTGATGGCAACGTCGTTTATTCGATTTATAAATACGACAATTTTGGCACCAACTTATTAACGGGCAAATACCAA
GACACCAATCTAGGCCATACCTTCAAGCGTTTAGAACAAACGGTCAATGAACAGCGCAAAACCAACGAAGATTTCACCCC
TGTCGTGATTTCTGATTTCGTGCAAGAGGATGGCAAACAATACGCTTGGCTTGGCGCACCGATTATTCAGCAAGGCTACT
TGCATAGTTACGCGATGTTCCGCTTGCCAAGTAACGCGATCACCAAACTCATCGCAGAAGGCAGTAGCAATCCTTCAATG
CAAACCATTTTGGTGGGACAAGATCACCGCTCAAGAACCTTAACTTCCGCCGAAATTGCGGTTGAAAAAAGTAAAGCTGT
GGTCGATTTAGCCTTATCGGGCAAACGCGCCGTAGGCACTTACACCAATACCGATGGTGAACAGATCATCGCGGCCTACG
CACCGATCAATTTGAAAAATATCCATTGGGCTCTGGTGGTTGAACTGCCAGAGAAAGAAGCGTTTGCTCGCGTTCGTCAG
TTAGAAAAACTGTTTGTTTTTGCGATGTTGACGGCCATCGTCTTAGTGGTCATCGCCTCGCATTACCTTTCCAATTTCAT
TACCTCACCGCTTTTGAAGCTGACATGGGCAGCCGAACGTGTTTCGGCAGGCGATCTTGATGAAGCCATGATCAATACCG
AACGCAAAGATGAAATTGGTCGCTTGGCGGTAAGTTTTGAGCGTATGCAGCGTTCCATTCGCGAAAAAATATCGCTGATC
AAATCGCAAAATAAAGAGTTAGAAAGCAATTTACTGATCATTCGTAAGCAAAACGATGAGTTACAGCTAGCGAATAAGCT
AAAAGATGAGTTCCTCGCGACCACATCACATGAATTACGCACCCCATTGCATGGCATGATTGGTATTGCCGAAGCCCTGA
TCTCGGGGGCAAATGGCCCGATTTCAGCAGCGCACAAGTATCAACTCGACATCATTATCAGCAGTGGGCAGCGCTTGGCG
ACTCTGGTTGATGATCTACTCGATTACCACAAAATGCGCTATGGCGCGCTGGATATTCAAAGGTGTGCCGTCGATTTATC
GAGCGCTACACGCTTGGTCTTGGAGCTTTCTCACCATTTACTTGGCAAGAAAACGCTGCGCATTATTAATCAAGTCTCAG
AACAACCAGTCTGGGTTTCTGCGGATCCTCAACGCTTAGAGCAAGTCCTGTATAACTTGATCGGCAATGCCATTAAGTAC
ACTTCCGAAGGCAAAATTGTTATCTCCGCAACCTATATTGACGATAAAGTGCGAGTGCAGGTGGTGGATACAGGTCAAGG
GATTCCGGCAGAACAACTGGAGCACATCTTTGAGCCATTAATTCAAGCGGGCCACGATGCGAGTCGCTATCGCCAAGGCG
CAGGACTCGGGCTTTCCATCAGTCGTCAGTTAATCGAATTGATGCACGGCACTCTCTACGTAAGTAGTCAGCCGATGGTT
GGCACTACCTTTAGCTTCACGCTGCCTCTGGCGAGCGAAGAAGAGATTGCTCAAGCGCGCTTGACCGAGCTCCCTCATTT
CCAAGCACCGGAAGTGTTGGATACTGAACTGCCTGAGCAAAGCAACTTACCCGAAAATGAACATGGTCCACTTCTGTTGA
TCGCCGATGATGAGCCAGTCAACCTGCGTGTGCTGGACAGCTTTTTACGTCTTGAAGGTTATCGCGTACATACCGCGCAA
GATGGCCATCAAGTACTTGAAGCAATTAAACGTGAAAAACCTGAATTGGTGTTACTCGACATCATGATGCCAGGCATGAG
CGGTTATCAAGTGTGTGAAAAACTTCGACAAACTTACGACCATGCTGAACTGCCTATTATTATGCTGACGGCTCTCAACC
AGTCTGATGACCGGGTACGAGGGTTTGAAGCTGGAGCCAATGACTACTTATCCAAACCATTCAACAAACAAGAGCTGGCC
GCACGCATTGTCGCTCACCTCACGGCGAGCAAAGCCGAACTGCGCCGAATTGAGAATGCCCAACTGCAAAAAGAGTTGAA
GCATCGCGCTATGGTAGAAGCGAGCCTATTGGAAACCCAAGGCCGATTATTGGAGCAGTTAGAATCTGCACCAGAAGCGA
TTTTGTGCGTCAAAGAGGGTAATAAAGTACGTTTTGCTAACGAAGCAGCAGCACGTTTATTTAGACGTACCCCTGAGCAG
CTCAAACGCTCCAACGCCGAAGAACTGATTGCTCCTAAATTCTTGAATATTGAGCAAGAGCATTACTGCGGCAATATTGA
TGTTTACGTCGATGATGTGCGCCAGCACCTCTCTGCCGATGTCCTTCGCTTGCCGCAAGGTTCTGGCTTACAAGCGATGT
ACATTTTTAATGTCGGAGGCAGCGTCAATGCCGCGCGGATTCATAACCTCGAAACCGCGGTAGAAGCTCTGTCTAGCTAT
GCCTTCGAAGGCGATAAAGACAAGCTGCAAAAACTCAAGGAACTGGGTGGTGAGTTTACTCGTCTTGCAGATAAAGCCTC
GGGCGAGTATCAATCGAAACAAGATTTGATGCGTGCCGTGTTAGTCGAAGCCATGACCAGTGCCTTGAACTATTGGGAAC
GAGTCTCAGGACAAAGCAAGTTCACGTTTGCCGAACAAAGTGGCTTATGGCGCGTTTATCTTGACCGCAGCACCCTACAA
ACTCGTACCCTAGACAAATACCTACGAATTGAGACACTGCCTAAAACACCGCGTTGGCGAACCGTACTGAACTCGCTCGA
CTACATTCTTGAGCATTGCAAAGAAGCAGGCCCTGAGCGCACTCACATCGAAATGCAACGCGATAAATTGCAAAAACTCC
TGACCAGTGAATAA
TTGCGTCTATGCCCACGCTTTAGCTTGGACTTACTTGTCAAAGTAAAAAAACTCGTTAATTTCGTTACTTTAGGTTTTTC
TTGTCTATCACCCACTCATGCTTGGCGATCGCCGCAGAGTTTCACCGAAAGTAACACCTTAATTATGTTTAGGTTCTATC
GAAAACAAAAATTCAAACGCCTGCAAAATACCTTGATGGCTGCATTTTTGGCCCTCAGCATTATTCCTTTGACCATTACT
GCGTTGTTTTTCCTACATTCACACAGTAAAGATTTGGAGCAGCAGAGTACCTCTTACCTCGTTTCTGTTCGGGATAATAA
ACAGCAACAGGTCATCGACTACATGATGGCCAAAGAGTCGGAAGTGATGGGTTTTGTTCGCTCCGAGCTGGCTTATGCCA
GTGGCGGGCGTTTTTATGGTCTGGTGAATGCTTTCCAGCGTTTAGACGTCAGTATTGAAGCGGCTCGTGAACATGCTCAG
CAGCGCTATATCACCGGATCGGGTGACCAAATAAAAACCTCGGTGCTGCCCCAATCAAGCAGTTACGTGGGCAGTGAACG
CTATCGACTGCTGCATAAACGCTACCACTGGGCTTACTTAGAACTGCTGAAACGGTCGGACTTTGATGACATTTTATTGG
TCGATATTGATGGCAACGTCGTTTATTCGATTTATAAATACGACAATTTTGGCACCAACTTATTAACGGGCAAATACCAA
GACACCAATCTAGGCCATACCTTCAAGCGTTTAGAACAAACGGTCAATGAACAGCGCAAAACCAACGAAGATTTCACCCC
TGTCGTGATTTCTGATTTCGTGCAAGAGGATGGCAAACAATACGCTTGGCTTGGCGCACCGATTATTCAGCAAGGCTACT
TGCATAGTTACGCGATGTTCCGCTTGCCAAGTAACGCGATCACCAAACTCATCGCAGAAGGCAGTAGCAATCCTTCAATG
CAAACCATTTTGGTGGGACAAGATCACCGCTCAAGAACCTTAACTTCCGCCGAAATTGCGGTTGAAAAAAGTAAAGCTGT
GGTCGATTTAGCCTTATCGGGCAAACGCGCCGTAGGCACTTACACCAATACCGATGGTGAACAGATCATCGCGGCCTACG
CACCGATCAATTTGAAAAATATCCATTGGGCTCTGGTGGTTGAACTGCCAGAGAAAGAAGCGTTTGCTCGCGTTCGTCAG
TTAGAAAAACTGTTTGTTTTTGCGATGTTGACGGCCATCGTCTTAGTGGTCATCGCCTCGCATTACCTTTCCAATTTCAT
TACCTCACCGCTTTTGAAGCTGACATGGGCAGCCGAACGTGTTTCGGCAGGCGATCTTGATGAAGCCATGATCAATACCG
AACGCAAAGATGAAATTGGTCGCTTGGCGGTAAGTTTTGAGCGTATGCAGCGTTCCATTCGCGAAAAAATATCGCTGATC
AAATCGCAAAATAAAGAGTTAGAAAGCAATTTACTGATCATTCGTAAGCAAAACGATGAGTTACAGCTAGCGAATAAGCT
AAAAGATGAGTTCCTCGCGACCACATCACATGAATTACGCACCCCATTGCATGGCATGATTGGTATTGCCGAAGCCCTGA
TCTCGGGGGCAAATGGCCCGATTTCAGCAGCGCACAAGTATCAACTCGACATCATTATCAGCAGTGGGCAGCGCTTGGCG
ACTCTGGTTGATGATCTACTCGATTACCACAAAATGCGCTATGGCGCGCTGGATATTCAAAGGTGTGCCGTCGATTTATC
GAGCGCTACACGCTTGGTCTTGGAGCTTTCTCACCATTTACTTGGCAAGAAAACGCTGCGCATTATTAATCAAGTCTCAG
AACAACCAGTCTGGGTTTCTGCGGATCCTCAACGCTTAGAGCAAGTCCTGTATAACTTGATCGGCAATGCCATTAAGTAC
ACTTCCGAAGGCAAAATTGTTATCTCCGCAACCTATATTGACGATAAAGTGCGAGTGCAGGTGGTGGATACAGGTCAAGG
GATTCCGGCAGAACAACTGGAGCACATCTTTGAGCCATTAATTCAAGCGGGCCACGATGCGAGTCGCTATCGCCAAGGCG
CAGGACTCGGGCTTTCCATCAGTCGTCAGTTAATCGAATTGATGCACGGCACTCTCTACGTAAGTAGTCAGCCGATGGTT
GGCACTACCTTTAGCTTCACGCTGCCTCTGGCGAGCGAAGAAGAGATTGCTCAAGCGCGCTTGACCGAGCTCCCTCATTT
CCAAGCACCGGAAGTGTTGGATACTGAACTGCCTGAGCAAAGCAACTTACCCGAAAATGAACATGGTCCACTTCTGTTGA
TCGCCGATGATGAGCCAGTCAACCTGCGTGTGCTGGACAGCTTTTTACGTCTTGAAGGTTATCGCGTACATACCGCGCAA
GATGGCCATCAAGTACTTGAAGCAATTAAACGTGAAAAACCTGAATTGGTGTTACTCGACATCATGATGCCAGGCATGAG
CGGTTATCAAGTGTGTGAAAAACTTCGACAAACTTACGACCATGCTGAACTGCCTATTATTATGCTGACGGCTCTCAACC
AGTCTGATGACCGGGTACGAGGGTTTGAAGCTGGAGCCAATGACTACTTATCCAAACCATTCAACAAACAAGAGCTGGCC
GCACGCATTGTCGCTCACCTCACGGCGAGCAAAGCCGAACTGCGCCGAATTGAGAATGCCCAACTGCAAAAAGAGTTGAA
GCATCGCGCTATGGTAGAAGCGAGCCTATTGGAAACCCAAGGCCGATTATTGGAGCAGTTAGAATCTGCACCAGAAGCGA
TTTTGTGCGTCAAAGAGGGTAATAAAGTACGTTTTGCTAACGAAGCAGCAGCACGTTTATTTAGACGTACCCCTGAGCAG
CTCAAACGCTCCAACGCCGAAGAACTGATTGCTCCTAAATTCTTGAATATTGAGCAAGAGCATTACTGCGGCAATATTGA
TGTTTACGTCGATGATGTGCGCCAGCACCTCTCTGCCGATGTCCTTCGCTTGCCGCAAGGTTCTGGCTTACAAGCGATGT
ACATTTTTAATGTCGGAGGCAGCGTCAATGCCGCGCGGATTCATAACCTCGAAACCGCGGTAGAAGCTCTGTCTAGCTAT
GCCTTCGAAGGCGATAAAGACAAGCTGCAAAAACTCAAGGAACTGGGTGGTGAGTTTACTCGTCTTGCAGATAAAGCCTC
GGGCGAGTATCAATCGAAACAAGATTTGATGCGTGCCGTGTTAGTCGAAGCCATGACCAGTGCCTTGAACTATTGGGAAC
GAGTCTCAGGACAAAGCAAGTTCACGTTTGCCGAACAAAGTGGCTTATGGCGCGTTTATCTTGACCGCAGCACCCTACAA
ACTCGTACCCTAGACAAATACCTACGAATTGAGACACTGCCTAAAACACCGCGTTGGCGAACCGTACTGAACTCGCTCGA
CTACATTCTTGAGCATTGCAAAGAAGCAGGCCCTGAGCGCACTCACATCGAAATGCAACGCGATAAATTGCAAAAACTCC
TGACCAGTGAATAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| chiS | Vibrio cholerae strain A1552 |
99.83 |
100 |
0.998 |