Detailed information
Overview
| Name | hexA | Type | Machinery gene |
| Locus tag | Y1U_RS00340 | Genome accession | NC_017927 |
| Coordinates | 54391..56949 (+) | Length | 852 a.a. |
| NCBI ID | WP_014607836.1 | Uniprot ID | - |
| Organism | Streptococcus thermophilus MN-ZLW-002 | ||
| Function | DNA mismatch repair (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 49391..61949
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| Y1U_RS00320 (Y1U_C0045) | purB | 49603..50901 (+) | 1299 | WP_002948159.1 | adenylosuccinate lyase | - |
| Y1U_RS00325 (Y1U_C0047) | argS | 51765..53456 (-) | 1692 | WP_011226739.1 | arginine--tRNA ligase | - |
| Y1U_RS00330 (Y1U_C0048) | argR | 53611..54039 (+) | 429 | WP_024704313.1 | arginine repressor | - |
| Y1U_RS00335 (Y1U_C0049) | - | 54039..54398 (+) | 360 | WP_011225277.1 | YlbF family regulator | - |
| Y1U_RS00340 (Y1U_C0050) | hexA | 54391..56949 (+) | 2559 | WP_014607836.1 | DNA mismatch repair protein MutS | Machinery gene |
| Y1U_RS12115 (Y1U_Cp0001) | - | 56983..57438 (-) | 456 | Protein_42 | DUF3021 domain-containing protein | - |
| Y1U_RS00350 (Y1U_C0051) | - | 57435..57826 (-) | 392 | Protein_43 | LytTR family DNA-binding domain-containing protein | - |
| Y1U_RS00355 (Y1U_C0052) | - | 58050..58355 (+) | 306 | WP_002949050.1 | hypothetical protein | - |
| Y1U_RS00360 (Y1U_C0053) | hexB | 58407..60350 (+) | 1944 | WP_014607839.1 | DNA mismatch repair endonuclease MutL | Machinery gene |
| Y1U_RS00365 (Y1U_C0054) | - | 60480..60701 (+) | 222 | WP_002949052.1 | hypothetical protein | - |
| Y1U_RS00370 (Y1U_C0055) | ruvA | 60853..61443 (+) | 591 | WP_011680603.1 | Holliday junction branch migration protein RuvA | Machinery gene |
Sequence
Protein
Download Length: 852 a.a. Molecular weight: 95483.73 Da Isoelectric Point: 4.7412
>NTDB_id=43076 Y1U_RS00340 WP_014607836.1 54391..56949(+) (hexA) [Streptococcus thermophilus MN-ZLW-002]
MAKEKISPGMQQYLDIKKNYPDAFLLFRMGDFYELFYDDAVKAAQILEISLTSRNKNADNPIPMAGVPYHSAQAYIDVLV
EMGYKVAIAEQMEDPKQAVGVVKREVVQVITPGTVVDSSKPDSANNFLVAIDKVGSRFGLSYMDVSTGEFFATELDDFSS
VCSEIQNLKAREVVVGYDLLETDEQVLVNQLNLLLSKETEGYDDVHLIGNSLTDLESSVASKLLQYVHRTQMRELSHLQK
AQHYEIKDYLQMSYATKSSLDLLENARTGKKHGSLFWLLDKTKTAMGMRLLRTWIDRPLVNQASIIERQNIIQVFLDNFF
ERSDLTESLKGVYDIERLASRVSFGKANPKDLIQLGHTLAQVPVIKAILESFNDDTLSGLLQELDALPELESLIRSAIDP
DAPATITEGGIIRDGFDETLDKYRKVMSEGTSWIADIEAKEREASGITTLKIDYNRKDGYYFHVTNSNLSLVPDHFFRKA
TLKNSERFGTAELAKIEGEMLEAREKSSTLEYDIFMRVREQVERYIDRLQSLAKAIATVDVLQSLAVTAETNHYVRPVFN
DEHRIAIDRGRHAVVEKVMGVQEYIPNTITFDSQTNIQLITGPNMSGKSTYMRQLALSVVMAQMGAYVPADSVDLPVFDA
IYTRIGAADDLISGQSTFMVEMMEANQAIKRATPNSLIIFDELGRGTATYDGMALAQSIIEFIHDKVGAKTMFATHYHEL
TALSNSLIHLVNVHVATLEKDGEVTFLHKIVDGPADKSYGIHVAKIAGLPTDLLNRADTILTQLEGETVVIQPQEKVSSQ
EKPAIETHVNEQISLFDDFTENPVLQELRDLDIYNMTPMQVMMAVADLKQKL
MAKEKISPGMQQYLDIKKNYPDAFLLFRMGDFYELFYDDAVKAAQILEISLTSRNKNADNPIPMAGVPYHSAQAYIDVLV
EMGYKVAIAEQMEDPKQAVGVVKREVVQVITPGTVVDSSKPDSANNFLVAIDKVGSRFGLSYMDVSTGEFFATELDDFSS
VCSEIQNLKAREVVVGYDLLETDEQVLVNQLNLLLSKETEGYDDVHLIGNSLTDLESSVASKLLQYVHRTQMRELSHLQK
AQHYEIKDYLQMSYATKSSLDLLENARTGKKHGSLFWLLDKTKTAMGMRLLRTWIDRPLVNQASIIERQNIIQVFLDNFF
ERSDLTESLKGVYDIERLASRVSFGKANPKDLIQLGHTLAQVPVIKAILESFNDDTLSGLLQELDALPELESLIRSAIDP
DAPATITEGGIIRDGFDETLDKYRKVMSEGTSWIADIEAKEREASGITTLKIDYNRKDGYYFHVTNSNLSLVPDHFFRKA
TLKNSERFGTAELAKIEGEMLEAREKSSTLEYDIFMRVREQVERYIDRLQSLAKAIATVDVLQSLAVTAETNHYVRPVFN
DEHRIAIDRGRHAVVEKVMGVQEYIPNTITFDSQTNIQLITGPNMSGKSTYMRQLALSVVMAQMGAYVPADSVDLPVFDA
IYTRIGAADDLISGQSTFMVEMMEANQAIKRATPNSLIIFDELGRGTATYDGMALAQSIIEFIHDKVGAKTMFATHYHEL
TALSNSLIHLVNVHVATLEKDGEVTFLHKIVDGPADKSYGIHVAKIAGLPTDLLNRADTILTQLEGETVVIQPQEKVSSQ
EKPAIETHVNEQISLFDDFTENPVLQELRDLDIYNMTPMQVMMAVADLKQKL
Nucleotide
Download Length: 2559 bp
>NTDB_id=43076 Y1U_RS00340 WP_014607836.1 54391..56949(+) (hexA) [Streptococcus thermophilus MN-ZLW-002]
ATGGCTAAGGAAAAAATATCTCCAGGAATGCAGCAGTATTTGGATATCAAGAAAAATTATCCAGATGCTTTTTTGCTGTT
TCGGATGGGGGATTTTTACGAATTATTTTACGATGATGCTGTTAAGGCTGCCCAGATTTTGGAAATTAGCCTAACTAGCC
GTAATAAGAATGCAGATAATCCCATTCCTATGGCAGGTGTGCCTTATCATTCAGCTCAAGCATACATTGATGTTTTGGTT
GAGATGGGCTACAAGGTAGCCATTGCTGAGCAGATGGAGGATCCTAAGCAGGCTGTCGGTGTGGTAAAGCGTGAGGTTGT
TCAGGTTATCACACCAGGTACAGTGGTTGACAGCTCTAAACCTGATAGTGCCAACAATTTCTTGGTGGCCATTGACAAGG
TTGGAAGTCGTTTTGGTCTTTCCTATATGGATGTGTCAACGGGTGAATTTTTTGCGACAGAGTTGGATGATTTTAGTTCA
GTTTGTAGTGAAATTCAGAACCTTAAGGCACGTGAAGTAGTGGTTGGATATGATCTACTTGAAACTGACGAACAAGTTTT
AGTGAACCAACTTAACCTACTTCTCTCCAAGGAAACAGAAGGTTACGATGATGTTCACTTGATTGGTAATAGCTTGACAG
ATTTGGAAAGCAGTGTGGCAAGTAAACTTCTCCAGTATGTTCATCGCACTCAGATGCGTGAGCTCAGTCATTTACAAAAA
GCTCAGCACTATGAGATAAAGGATTACTTGCAGATGTCCTATGCGACCAAGTCAAGCTTGGATTTACTGGAAAATGCTAG
AACGGGCAAGAAACACGGCTCTCTTTTCTGGCTCTTGGATAAAACCAAGACAGCCATGGGAATGCGTCTCTTGCGAACTT
GGATTGATCGTCCTTTAGTGAATCAAGCCAGCATCATAGAGCGTCAGAATATTATCCAAGTTTTCTTGGACAATTTCTTT
GAGCGTAGTGACTTGACCGAGAGTCTAAAAGGTGTTTACGATATTGAGCGTCTGGCCAGTCGTGTTTCCTTTGGCAAGGC
TAATCCTAAAGATTTAATTCAGCTAGGTCATACCTTAGCTCAGGTTCCGGTCATTAAGGCAATCTTGGAGTCCTTTAATG
ACGATACCTTGTCAGGTCTTTTACAAGAGTTAGATGCTTTGCCAGAATTAGAGAGTTTGATTCGTTCGGCTATTGATCCT
GATGCTCCAGCAACAATTACAGAAGGTGGTATTATTCGTGATGGTTTTGATGAGACCTTGGACAAGTATCGCAAAGTGAT
GAGCGAGGGGACGTCATGGATTGCGGATATCGAAGCAAAAGAACGCGAAGCGTCTGGTATTACAACACTAAAAATTGATT
ATAACCGTAAAGATGGTTATTACTTCCATGTGACCAACTCTAACCTTAGTTTGGTTCCTGACCATTTCTTCCGTAAGGCG
ACACTGAAAAATTCGGAGCGTTTTGGAACTGCTGAGTTGGCTAAGATTGAAGGTGAAATGCTAGAAGCACGTGAAAAATC
GTCAACCCTAGAGTATGATATTTTCATGCGTGTCCGTGAGCAGGTTGAACGCTATATCGACCGTTTGCAGTCTTTGGCTA
AGGCCATTGCAACAGTCGATGTGCTTCAGAGTTTGGCTGTTACAGCGGAGACAAATCATTATGTTCGTCCTGTTTTTAAT
GATGAGCATCGTATCGCTATTGATCGGGGCCGTCATGCGGTGGTTGAGAAGGTTATGGGCGTTCAGGAATACATTCCAAA
TACGATTACCTTTGACAGTCAGACCAATATTCAGCTCATCACAGGACCAAATATGAGTGGTAAATCTACCTATATGCGGC
AGTTAGCCTTGTCAGTAGTTATGGCTCAAATGGGGGCTTACGTACCAGCAGATAGTGTTGATTTACCTGTTTTTGACGCC
ATCTATACACGTATAGGTGCCGCAGATGACCTGATTTCAGGTCAGTCGACCTTCATGGTTGAGATGATGGAGGCTAATCA
GGCCATTAAGCGAGCGACACCTAATTCCTTGATTATTTTTGATGAGTTGGGGCGTGGGACAGCCACTTATGATGGTATGG
CTTTGGCCCAGTCTATTATTGAGTTTATTCATGACAAGGTTGGGGCTAAGACCATGTTTGCTACCCATTATCATGAGTTG
ACTGCGCTGTCAAACAGTTTGATACACCTTGTCAACGTCCATGTTGCGACACTTGAAAAGGATGGCGAAGTGACTTTCCT
CCACAAAATTGTCGATGGTCCAGCCGATAAATCGTATGGTATTCATGTAGCTAAAATTGCAGGTTTACCAACAGATTTAT
TGAACCGTGCTGACACCATATTGACACAATTAGAAGGAGAGACAGTTGTAATCCAACCTCAGGAAAAGGTATCGTCTCAA
GAAAAGCCTGCCATTGAAACGCATGTCAACGAGCAAATCTCTCTCTTTGATGACTTTACTGAAAATCCGGTTCTTCAAGA
GTTGCGTGATTTGGACATTTACAACATGACACCGATGCAAGTCATGATGGCTGTAGCAGATTTAAAACAGAAACTATAA
ATGGCTAAGGAAAAAATATCTCCAGGAATGCAGCAGTATTTGGATATCAAGAAAAATTATCCAGATGCTTTTTTGCTGTT
TCGGATGGGGGATTTTTACGAATTATTTTACGATGATGCTGTTAAGGCTGCCCAGATTTTGGAAATTAGCCTAACTAGCC
GTAATAAGAATGCAGATAATCCCATTCCTATGGCAGGTGTGCCTTATCATTCAGCTCAAGCATACATTGATGTTTTGGTT
GAGATGGGCTACAAGGTAGCCATTGCTGAGCAGATGGAGGATCCTAAGCAGGCTGTCGGTGTGGTAAAGCGTGAGGTTGT
TCAGGTTATCACACCAGGTACAGTGGTTGACAGCTCTAAACCTGATAGTGCCAACAATTTCTTGGTGGCCATTGACAAGG
TTGGAAGTCGTTTTGGTCTTTCCTATATGGATGTGTCAACGGGTGAATTTTTTGCGACAGAGTTGGATGATTTTAGTTCA
GTTTGTAGTGAAATTCAGAACCTTAAGGCACGTGAAGTAGTGGTTGGATATGATCTACTTGAAACTGACGAACAAGTTTT
AGTGAACCAACTTAACCTACTTCTCTCCAAGGAAACAGAAGGTTACGATGATGTTCACTTGATTGGTAATAGCTTGACAG
ATTTGGAAAGCAGTGTGGCAAGTAAACTTCTCCAGTATGTTCATCGCACTCAGATGCGTGAGCTCAGTCATTTACAAAAA
GCTCAGCACTATGAGATAAAGGATTACTTGCAGATGTCCTATGCGACCAAGTCAAGCTTGGATTTACTGGAAAATGCTAG
AACGGGCAAGAAACACGGCTCTCTTTTCTGGCTCTTGGATAAAACCAAGACAGCCATGGGAATGCGTCTCTTGCGAACTT
GGATTGATCGTCCTTTAGTGAATCAAGCCAGCATCATAGAGCGTCAGAATATTATCCAAGTTTTCTTGGACAATTTCTTT
GAGCGTAGTGACTTGACCGAGAGTCTAAAAGGTGTTTACGATATTGAGCGTCTGGCCAGTCGTGTTTCCTTTGGCAAGGC
TAATCCTAAAGATTTAATTCAGCTAGGTCATACCTTAGCTCAGGTTCCGGTCATTAAGGCAATCTTGGAGTCCTTTAATG
ACGATACCTTGTCAGGTCTTTTACAAGAGTTAGATGCTTTGCCAGAATTAGAGAGTTTGATTCGTTCGGCTATTGATCCT
GATGCTCCAGCAACAATTACAGAAGGTGGTATTATTCGTGATGGTTTTGATGAGACCTTGGACAAGTATCGCAAAGTGAT
GAGCGAGGGGACGTCATGGATTGCGGATATCGAAGCAAAAGAACGCGAAGCGTCTGGTATTACAACACTAAAAATTGATT
ATAACCGTAAAGATGGTTATTACTTCCATGTGACCAACTCTAACCTTAGTTTGGTTCCTGACCATTTCTTCCGTAAGGCG
ACACTGAAAAATTCGGAGCGTTTTGGAACTGCTGAGTTGGCTAAGATTGAAGGTGAAATGCTAGAAGCACGTGAAAAATC
GTCAACCCTAGAGTATGATATTTTCATGCGTGTCCGTGAGCAGGTTGAACGCTATATCGACCGTTTGCAGTCTTTGGCTA
AGGCCATTGCAACAGTCGATGTGCTTCAGAGTTTGGCTGTTACAGCGGAGACAAATCATTATGTTCGTCCTGTTTTTAAT
GATGAGCATCGTATCGCTATTGATCGGGGCCGTCATGCGGTGGTTGAGAAGGTTATGGGCGTTCAGGAATACATTCCAAA
TACGATTACCTTTGACAGTCAGACCAATATTCAGCTCATCACAGGACCAAATATGAGTGGTAAATCTACCTATATGCGGC
AGTTAGCCTTGTCAGTAGTTATGGCTCAAATGGGGGCTTACGTACCAGCAGATAGTGTTGATTTACCTGTTTTTGACGCC
ATCTATACACGTATAGGTGCCGCAGATGACCTGATTTCAGGTCAGTCGACCTTCATGGTTGAGATGATGGAGGCTAATCA
GGCCATTAAGCGAGCGACACCTAATTCCTTGATTATTTTTGATGAGTTGGGGCGTGGGACAGCCACTTATGATGGTATGG
CTTTGGCCCAGTCTATTATTGAGTTTATTCATGACAAGGTTGGGGCTAAGACCATGTTTGCTACCCATTATCATGAGTTG
ACTGCGCTGTCAAACAGTTTGATACACCTTGTCAACGTCCATGTTGCGACACTTGAAAAGGATGGCGAAGTGACTTTCCT
CCACAAAATTGTCGATGGTCCAGCCGATAAATCGTATGGTATTCATGTAGCTAAAATTGCAGGTTTACCAACAGATTTAT
TGAACCGTGCTGACACCATATTGACACAATTAGAAGGAGAGACAGTTGTAATCCAACCTCAGGAAAAGGTATCGTCTCAA
GAAAAGCCTGCCATTGAAACGCATGTCAACGAGCAAATCTCTCTCTTTGATGACTTTACTGAAAATCCGGTTCTTCAAGA
GTTGCGTGATTTGGACATTTACAACATGACACCGATGCAAGTCATGATGGCTGTAGCAGATTTAAAACAGAAACTATAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| hexA | Streptococcus pneumoniae R6 |
74.061 |
100 |
0.741 |
| mutS | Pseudomonas stutzeri strain ATCC 17587 |
35.788 |
100 |
0.365 |