Detailed information
Bioinformatically predicted
Overview
| Name | chiS | Type | Regulator |
| Locus tag | N7E60_RS09215 | Genome accession | NZ_CP114584 |
| Coordinates | 1924288..1927689 (+) | Length | 1133 a.a. |
| NCBI ID | WP_269597270.1 | Uniprot ID | - |
| Organism | Salinivibrio proteolyticus strain TGB10 | ||
| Function | chitin sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 1919288..1932689
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| N7E60_RS09205 (N7E60_09205) | rluC | 1919615..1920568 (-) | 954 | WP_269597268.1 | 23S rRNA pseudouridine(955/2504/2580) synthase RluC | - |
| N7E60_RS09210 (N7E60_09210) | rne | 1921135..1924050 (+) | 2916 | WP_269597269.1 | ribonuclease E | - |
| N7E60_RS09215 (N7E60_09215) | chiS | 1924288..1927689 (+) | 3402 | WP_269597270.1 | response regulator | Regulator |
| N7E60_RS09220 (N7E60_09220) | - | 1928480..1930168 (+) | 1689 | WP_269597272.1 | ABC transporter substrate-binding protein | - |
| N7E60_RS09225 (N7E60_09225) | - | 1930252..1931238 (+) | 987 | WP_046075428.1 | ABC transporter permease | - |
| N7E60_RS09230 (N7E60_09230) | - | 1931240..1932268 (+) | 1029 | WP_269597273.1 | ABC transporter permease | - |
Sequence
Protein
Download Length: 1133 a.a. Molecular weight: 126589.76 Da Isoelectric Point: 6.5109
>NTDB_id=766599 N7E60_RS09215 WP_269597270.1 1924288..1927689(+) (chiS) [Salinivibrio proteolyticus strain TGB10]
MRKLFIAPPFKRLHHTLMLAFLLLSLLPLILVALFFLNAHSKDLQEQSTAHLLSVRDSKQQQVRDYFDAKESEVLGFVAS
ELAYASGGHFYGLVNAFRSLGPDIDSARQYAQTRYHPGSGHAIKTPVSKGSPNYPGVERYRLLHKRYHRAYLALLARADF
DDLLLVDKQGNVTYSVKKHSNYGTNLLTGPYQDSELGRTFAALKRQDRQVKGKRDPHPNVVMSDFAQDPDGNAYAWLGAP
IIQQGYLHSYALFRLPNHALTALMTPSSSSDIQTLLVGDDLQVRGHSSTPETIANSLAVIEKALGNHTGVERYDNASGDT
MLAAFAPISTHGLHWALVAEVPIDIAFARVRQLEQLFIVAMLLAGFAVVAASNSMSNFITRPLLQLTWAAEKVSAGDLDT
KIHHTRRHDEIGRLAVSFSRMRRAIREKLQLIHQQNQTLEQSLATIQEQNQELQLANKLKDEFLATTSHELRTPLHGMIG
IADALIAGANGPISRDHQYQLSIIVNSGQRLAKLVDDLLDYHKMRYGQLSLENEAVDITSLARLVLSLAEHLKKDKPIRI
INQLPSSSLWVCADTQRLEQVMYNLIGNAVKFTDAGKIVLSAEKIDDRVRIQLVDTGQGIPPEQLNVIFEPLTQAVSDHY
HYQHGAGLGLSITRQLIELMGGQLYVSSQPQIGTTFSFTLPAIEAPDEPVAHLPNDEQPSPLWQPFTPQDVENKANATTA
TCDDGLLILVVDDEPTNQQVLTSFLQMEGYQVITASDGETALQQVEKERPALVLLDILMPGISGFEVCERLRQQYHHGAL
PIIMLTALNQPDDRIHGFNVGANDYLSKPFNKQELAARIATHLAACDAERRQQENQRLEAALAQSAERQASLLETQSWLI
SQLSLAPEAIIGAGSDGQIRFANASAAALFQQQDANLKRMHSHALIHEPDESQQLERYQGKLTVYIGDQHRDLEGMILRF
PAASEITTLYVMNTDTPVSLARIQSLESAIEALSGYAFRGDARQLDKLKAMGGEFEALVSQAQSQQEDKAQARRQLIVDA
MVAGLEYWEKTTGKSKFDFAEQSGLWRVYLDRSSLQTRTLDKYLLLETLPKTPRWRTVLSSIRYILDHCDKHNTDRTQLE
TYYRQLRQLLLED
MRKLFIAPPFKRLHHTLMLAFLLLSLLPLILVALFFLNAHSKDLQEQSTAHLLSVRDSKQQQVRDYFDAKESEVLGFVAS
ELAYASGGHFYGLVNAFRSLGPDIDSARQYAQTRYHPGSGHAIKTPVSKGSPNYPGVERYRLLHKRYHRAYLALLARADF
DDLLLVDKQGNVTYSVKKHSNYGTNLLTGPYQDSELGRTFAALKRQDRQVKGKRDPHPNVVMSDFAQDPDGNAYAWLGAP
IIQQGYLHSYALFRLPNHALTALMTPSSSSDIQTLLVGDDLQVRGHSSTPETIANSLAVIEKALGNHTGVERYDNASGDT
MLAAFAPISTHGLHWALVAEVPIDIAFARVRQLEQLFIVAMLLAGFAVVAASNSMSNFITRPLLQLTWAAEKVSAGDLDT
KIHHTRRHDEIGRLAVSFSRMRRAIREKLQLIHQQNQTLEQSLATIQEQNQELQLANKLKDEFLATTSHELRTPLHGMIG
IADALIAGANGPISRDHQYQLSIIVNSGQRLAKLVDDLLDYHKMRYGQLSLENEAVDITSLARLVLSLAEHLKKDKPIRI
INQLPSSSLWVCADTQRLEQVMYNLIGNAVKFTDAGKIVLSAEKIDDRVRIQLVDTGQGIPPEQLNVIFEPLTQAVSDHY
HYQHGAGLGLSITRQLIELMGGQLYVSSQPQIGTTFSFTLPAIEAPDEPVAHLPNDEQPSPLWQPFTPQDVENKANATTA
TCDDGLLILVVDDEPTNQQVLTSFLQMEGYQVITASDGETALQQVEKERPALVLLDILMPGISGFEVCERLRQQYHHGAL
PIIMLTALNQPDDRIHGFNVGANDYLSKPFNKQELAARIATHLAACDAERRQQENQRLEAALAQSAERQASLLETQSWLI
SQLSLAPEAIIGAGSDGQIRFANASAAALFQQQDANLKRMHSHALIHEPDESQQLERYQGKLTVYIGDQHRDLEGMILRF
PAASEITTLYVMNTDTPVSLARIQSLESAIEALSGYAFRGDARQLDKLKAMGGEFEALVSQAQSQQEDKAQARRQLIVDA
MVAGLEYWEKTTGKSKFDFAEQSGLWRVYLDRSSLQTRTLDKYLLLETLPKTPRWRTVLSSIRYILDHCDKHNTDRTQLE
TYYRQLRQLLLED
Nucleotide
Download Length: 3402 bp
>NTDB_id=766599 N7E60_RS09215 WP_269597270.1 1924288..1927689(+) (chiS) [Salinivibrio proteolyticus strain TGB10]
ATGAGAAAGCTGTTTATCGCTCCCCCGTTTAAGCGCCTTCATCACACCTTGATGTTGGCTTTTCTCCTGCTGAGCTTATT
GCCTCTGATTCTCGTGGCACTTTTTTTTCTCAATGCTCACAGCAAGGATTTGCAAGAGCAAAGCACCGCACACTTACTTT
CTGTACGCGATAGCAAACAACAACAAGTGCGTGATTACTTTGATGCTAAAGAATCTGAAGTGTTAGGGTTCGTCGCATCA
GAGCTCGCCTATGCCAGTGGCGGTCACTTTTATGGCTTAGTGAATGCCTTCCGCAGCCTAGGCCCTGATATTGATTCCGC
CCGGCAGTATGCACAAACTCGCTACCATCCCGGTTCAGGTCACGCGATAAAGACGCCCGTTAGCAAAGGCTCGCCGAATT
ACCCCGGTGTAGAACGCTACCGCTTACTGCACAAACGTTATCATCGCGCCTATTTGGCACTATTGGCACGCGCAGACTTT
GACGATCTTCTACTCGTCGATAAACAAGGTAATGTCACCTATTCAGTCAAAAAGCATTCGAACTATGGGACCAATTTATT
GACGGGCCCTTACCAAGATAGCGAGCTGGGTCGCACCTTTGCCGCGCTAAAGCGCCAAGATAGGCAGGTGAAAGGTAAAC
GCGACCCTCACCCTAATGTCGTCATGTCAGACTTTGCCCAAGATCCGGATGGCAACGCCTATGCATGGCTCGGCGCTCCC
ATTATTCAGCAAGGCTACCTGCACAGTTATGCCTTGTTTCGGCTTCCCAATCACGCGCTGACCGCGTTAATGACCCCTTC
CTCTTCATCCGACATTCAAACCTTGTTAGTCGGAGACGATCTGCAAGTGCGCGGCCATTCATCGACCCCAGAGACGATTG
CCAACAGTCTGGCAGTGATTGAAAAGGCACTGGGCAATCACACAGGTGTTGAACGCTATGACAATGCATCCGGCGACACC
ATGCTGGCGGCCTTTGCGCCTATCTCAACCCATGGATTGCATTGGGCGCTTGTCGCTGAAGTGCCAATCGACATTGCGTT
TGCGAGAGTTCGCCAACTCGAACAGCTGTTTATTGTTGCGATGCTGTTGGCTGGCTTTGCCGTGGTGGCTGCATCGAACA
GTATGTCGAACTTTATTACTCGCCCTTTGTTGCAGCTGACATGGGCCGCAGAGAAAGTGAGTGCAGGCGATCTAGATACA
AAAATTCATCACACGCGTCGGCATGATGAAATCGGGCGGTTGGCGGTCAGCTTTTCTCGTATGCGGCGCGCTATCCGTGA
GAAGCTTCAGCTTATCCACCAGCAAAATCAAACACTTGAGCAAAGCTTGGCGACGATTCAAGAGCAAAACCAAGAGTTGC
AGTTGGCTAACAAGCTCAAAGACGAGTTTCTAGCTACCACTTCGCATGAGTTGCGCACGCCTTTGCATGGCATGATTGGG
ATTGCCGACGCCTTGATTGCTGGTGCGAATGGTCCAATTAGTCGTGATCATCAGTATCAACTTTCGATCATTGTCAACAG
CGGCCAACGGTTGGCGAAATTAGTCGATGATCTGCTCGATTATCATAAAATGCGTTATGGTCAGCTCTCGCTCGAAAACG
AAGCGGTCGATATCACCAGCCTAGCGCGTCTTGTCCTTTCTTTGGCTGAACATCTCAAAAAAGATAAGCCAATCCGTATC
ATCAATCAGCTCCCCTCGTCCTCTTTGTGGGTCTGTGCCGATACCCAGCGCCTTGAGCAAGTGATGTATAACCTGATTGG
TAATGCAGTGAAGTTTACTGATGCCGGTAAGATAGTGTTGAGTGCGGAAAAAATTGATGACAGGGTTCGTATTCAGTTAG
TCGATACCGGGCAAGGGATCCCGCCCGAACAACTGAACGTGATCTTTGAGCCACTCACTCAAGCGGTCAGCGATCACTAC
CACTATCAGCATGGTGCCGGGCTGGGCTTATCGATCACACGTCAGCTGATTGAGCTTATGGGCGGTCAGCTTTATGTAAG
CAGTCAGCCACAAATCGGTACCACATTTAGTTTTACCCTACCCGCGATCGAAGCGCCTGACGAACCGGTTGCTCATTTAC
CCAATGACGAACAGCCTTCTCCCCTCTGGCAACCCTTTACCCCACAGGACGTCGAGAATAAGGCGAACGCAACCACCGCC
ACTTGCGATGATGGCTTACTGATCTTGGTGGTTGATGACGAACCCACCAATCAACAAGTATTAACCAGCTTTTTGCAAAT
GGAGGGTTATCAGGTTATTACCGCTAGCGATGGCGAAACGGCGCTACAACAGGTCGAAAAAGAACGTCCTGCGCTGGTAT
TGCTCGATATACTCATGCCCGGGATAAGTGGCTTTGAAGTCTGTGAGCGATTACGCCAGCAGTATCATCATGGGGCGCTT
CCCATCATCATGCTCACTGCCCTTAATCAACCTGATGATCGCATTCATGGTTTTAACGTGGGTGCTAATGACTATTTGAG
TAAACCGTTCAATAAGCAAGAACTTGCCGCTCGTATTGCCACGCACCTTGCCGCCTGTGATGCCGAGCGACGTCAGCAAG
AAAATCAACGATTGGAAGCCGCATTAGCGCAAAGTGCAGAGCGACAGGCGAGTCTACTCGAAACCCAGTCATGGCTGATT
TCACAATTATCCCTCGCCCCTGAAGCGATTATCGGGGCAGGCAGCGATGGTCAAATCCGGTTTGCCAATGCGTCTGCCGC
TGCGTTATTTCAACAGCAAGATGCCAACCTCAAGCGTATGCATAGTCATGCCCTGATCCACGAGCCGGATGAGAGCCAAC
AGCTCGAGCGCTATCAAGGTAAGTTGACTGTTTATATCGGCGACCAGCATCGTGATCTAGAAGGCATGATTTTGCGTTTC
CCGGCGGCTTCTGAGATAACCACCTTATATGTGATGAACACTGATACGCCCGTCTCGCTAGCGCGGATCCAAAGTTTAGA
AAGTGCGATTGAGGCTTTGTCTGGCTATGCATTCCGCGGTGATGCGCGCCAACTGGATAAATTAAAAGCCATGGGCGGTG
AGTTTGAAGCCTTAGTGAGCCAAGCCCAGAGCCAGCAAGAGGATAAAGCGCAAGCGCGCCGACAACTCATTGTCGATGCG
ATGGTGGCTGGACTCGAATATTGGGAAAAAACGACGGGCAAAAGTAAGTTCGATTTTGCCGAACAAAGCGGGCTTTGGCG
GGTCTACCTCGACCGCAGTAGCCTACAAACCCGCACATTGGATAAGTACTTACTGCTGGAAACCTTACCCAAAACACCAA
GGTGGCGCACAGTACTCAGCTCTATTCGCTATATTCTTGACCACTGTGACAAACACAATACCGATCGTACTCAGTTAGAA
ACCTACTACCGACAGCTGCGTCAGCTGCTGCTCGAAGACTAA
ATGAGAAAGCTGTTTATCGCTCCCCCGTTTAAGCGCCTTCATCACACCTTGATGTTGGCTTTTCTCCTGCTGAGCTTATT
GCCTCTGATTCTCGTGGCACTTTTTTTTCTCAATGCTCACAGCAAGGATTTGCAAGAGCAAAGCACCGCACACTTACTTT
CTGTACGCGATAGCAAACAACAACAAGTGCGTGATTACTTTGATGCTAAAGAATCTGAAGTGTTAGGGTTCGTCGCATCA
GAGCTCGCCTATGCCAGTGGCGGTCACTTTTATGGCTTAGTGAATGCCTTCCGCAGCCTAGGCCCTGATATTGATTCCGC
CCGGCAGTATGCACAAACTCGCTACCATCCCGGTTCAGGTCACGCGATAAAGACGCCCGTTAGCAAAGGCTCGCCGAATT
ACCCCGGTGTAGAACGCTACCGCTTACTGCACAAACGTTATCATCGCGCCTATTTGGCACTATTGGCACGCGCAGACTTT
GACGATCTTCTACTCGTCGATAAACAAGGTAATGTCACCTATTCAGTCAAAAAGCATTCGAACTATGGGACCAATTTATT
GACGGGCCCTTACCAAGATAGCGAGCTGGGTCGCACCTTTGCCGCGCTAAAGCGCCAAGATAGGCAGGTGAAAGGTAAAC
GCGACCCTCACCCTAATGTCGTCATGTCAGACTTTGCCCAAGATCCGGATGGCAACGCCTATGCATGGCTCGGCGCTCCC
ATTATTCAGCAAGGCTACCTGCACAGTTATGCCTTGTTTCGGCTTCCCAATCACGCGCTGACCGCGTTAATGACCCCTTC
CTCTTCATCCGACATTCAAACCTTGTTAGTCGGAGACGATCTGCAAGTGCGCGGCCATTCATCGACCCCAGAGACGATTG
CCAACAGTCTGGCAGTGATTGAAAAGGCACTGGGCAATCACACAGGTGTTGAACGCTATGACAATGCATCCGGCGACACC
ATGCTGGCGGCCTTTGCGCCTATCTCAACCCATGGATTGCATTGGGCGCTTGTCGCTGAAGTGCCAATCGACATTGCGTT
TGCGAGAGTTCGCCAACTCGAACAGCTGTTTATTGTTGCGATGCTGTTGGCTGGCTTTGCCGTGGTGGCTGCATCGAACA
GTATGTCGAACTTTATTACTCGCCCTTTGTTGCAGCTGACATGGGCCGCAGAGAAAGTGAGTGCAGGCGATCTAGATACA
AAAATTCATCACACGCGTCGGCATGATGAAATCGGGCGGTTGGCGGTCAGCTTTTCTCGTATGCGGCGCGCTATCCGTGA
GAAGCTTCAGCTTATCCACCAGCAAAATCAAACACTTGAGCAAAGCTTGGCGACGATTCAAGAGCAAAACCAAGAGTTGC
AGTTGGCTAACAAGCTCAAAGACGAGTTTCTAGCTACCACTTCGCATGAGTTGCGCACGCCTTTGCATGGCATGATTGGG
ATTGCCGACGCCTTGATTGCTGGTGCGAATGGTCCAATTAGTCGTGATCATCAGTATCAACTTTCGATCATTGTCAACAG
CGGCCAACGGTTGGCGAAATTAGTCGATGATCTGCTCGATTATCATAAAATGCGTTATGGTCAGCTCTCGCTCGAAAACG
AAGCGGTCGATATCACCAGCCTAGCGCGTCTTGTCCTTTCTTTGGCTGAACATCTCAAAAAAGATAAGCCAATCCGTATC
ATCAATCAGCTCCCCTCGTCCTCTTTGTGGGTCTGTGCCGATACCCAGCGCCTTGAGCAAGTGATGTATAACCTGATTGG
TAATGCAGTGAAGTTTACTGATGCCGGTAAGATAGTGTTGAGTGCGGAAAAAATTGATGACAGGGTTCGTATTCAGTTAG
TCGATACCGGGCAAGGGATCCCGCCCGAACAACTGAACGTGATCTTTGAGCCACTCACTCAAGCGGTCAGCGATCACTAC
CACTATCAGCATGGTGCCGGGCTGGGCTTATCGATCACACGTCAGCTGATTGAGCTTATGGGCGGTCAGCTTTATGTAAG
CAGTCAGCCACAAATCGGTACCACATTTAGTTTTACCCTACCCGCGATCGAAGCGCCTGACGAACCGGTTGCTCATTTAC
CCAATGACGAACAGCCTTCTCCCCTCTGGCAACCCTTTACCCCACAGGACGTCGAGAATAAGGCGAACGCAACCACCGCC
ACTTGCGATGATGGCTTACTGATCTTGGTGGTTGATGACGAACCCACCAATCAACAAGTATTAACCAGCTTTTTGCAAAT
GGAGGGTTATCAGGTTATTACCGCTAGCGATGGCGAAACGGCGCTACAACAGGTCGAAAAAGAACGTCCTGCGCTGGTAT
TGCTCGATATACTCATGCCCGGGATAAGTGGCTTTGAAGTCTGTGAGCGATTACGCCAGCAGTATCATCATGGGGCGCTT
CCCATCATCATGCTCACTGCCCTTAATCAACCTGATGATCGCATTCATGGTTTTAACGTGGGTGCTAATGACTATTTGAG
TAAACCGTTCAATAAGCAAGAACTTGCCGCTCGTATTGCCACGCACCTTGCCGCCTGTGATGCCGAGCGACGTCAGCAAG
AAAATCAACGATTGGAAGCCGCATTAGCGCAAAGTGCAGAGCGACAGGCGAGTCTACTCGAAACCCAGTCATGGCTGATT
TCACAATTATCCCTCGCCCCTGAAGCGATTATCGGGGCAGGCAGCGATGGTCAAATCCGGTTTGCCAATGCGTCTGCCGC
TGCGTTATTTCAACAGCAAGATGCCAACCTCAAGCGTATGCATAGTCATGCCCTGATCCACGAGCCGGATGAGAGCCAAC
AGCTCGAGCGCTATCAAGGTAAGTTGACTGTTTATATCGGCGACCAGCATCGTGATCTAGAAGGCATGATTTTGCGTTTC
CCGGCGGCTTCTGAGATAACCACCTTATATGTGATGAACACTGATACGCCCGTCTCGCTAGCGCGGATCCAAAGTTTAGA
AAGTGCGATTGAGGCTTTGTCTGGCTATGCATTCCGCGGTGATGCGCGCCAACTGGATAAATTAAAAGCCATGGGCGGTG
AGTTTGAAGCCTTAGTGAGCCAAGCCCAGAGCCAGCAAGAGGATAAAGCGCAAGCGCGCCGACAACTCATTGTCGATGCG
ATGGTGGCTGGACTCGAATATTGGGAAAAAACGACGGGCAAAAGTAAGTTCGATTTTGCCGAACAAAGCGGGCTTTGGCG
GGTCTACCTCGACCGCAGTAGCCTACAAACCCGCACATTGGATAAGTACTTACTGCTGGAAACCTTACCCAAAACACCAA
GGTGGCGCACAGTACTCAGCTCTATTCGCTATATTCTTGACCACTGTGACAAACACAATACCGATCGTACTCAGTTAGAA
ACCTACTACCGACAGCTGCGTCAGCTGCTGCTCGAAGACTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| chiS | Vibrio cholerae strain A1552 |
58.487 |
100 |
0.587 |