Detailed information
Bioinformatically predicted
Overview
| Name | recC | Type | Machinery gene |
| Locus tag | LPB402_RS04265 | Genome accession | NZ_CP079820 |
| Coordinates | 894068..897367 (-) | Length | 1099 a.a. |
| NCBI ID | WP_219089461.1 | Uniprot ID | - |
| Organism | Neisseria sicca ATCC 29256 | ||
| Function | homologous recombination (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 889068..902367
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| LPB402_RS04245 (LPB402_04250) | ilvE | 890718..891716 (-) | 999 | WP_219118057.1 | branched-chain-amino-acid transaminase | - |
| LPB402_RS04250 (LPB402_04255) | - | 891930..892253 (+) | 324 | WP_219118060.1 | lipopolysaccharide assembly LapA domain-containing protein | - |
| LPB402_RS04255 (LPB402_04260) | lapB | 892279..893448 (+) | 1170 | WP_003684462.1 | lipopolysaccharide assembly protein LapB | - |
| LPB402_RS04260 (LPB402_04265) | - | 893558..894064 (-) | 507 | WP_219118062.1 | thioredoxin family protein | - |
| LPB402_RS04265 (LPB402_04270) | recC | 894068..897367 (-) | 3300 | WP_219089461.1 | exodeoxyribonuclease V subunit gamma | Machinery gene |
| LPB402_RS04275 (LPB402_04280) | - | 897692..898573 (-) | 882 | WP_219089459.1 | lysophospholipid acyltransferase family protein | - |
| LPB402_RS04280 (LPB402_04285) | metK | 898966..900135 (+) | 1170 | WP_107768913.1 | methionine adenosyltransferase | - |
| LPB402_RS04285 (LPB402_04290) | - | 900245..900565 (+) | 321 | WP_003684455.1 | accessory factor UbiK family protein | - |
| LPB402_RS04290 (LPB402_04295) | comM | 900579..902075 (+) | 1497 | WP_107768914.1 | YifB family Mg chelatase-like AAA ATPase | Machinery gene |
Sequence
Protein
Download Length: 1099 a.a. Molecular weight: 124923.53 Da Isoelectric Point: 4.6387
>NTDB_id=589685 LPB402_RS04265 WP_219089461.1 894068..897367(-) (recC) [Neisseria sicca ATCC 29256]
MFYLYQSDRLEALAEMCAHIHQTLSLDSVLAQEEVVVQSQGMRRYLNVFFARKLGVAANLKFSLPAGLAWQLMRKLVPDV
PPLSPFSPEVMRWRLLDLFRSEAFQTAPEYENVRLKLESYLHSSASADYQLAGQMADIFDQYLVYRPDWIDAWQAGKLLG
LGDDEDWQARLWRYLDDGSQSAPHRVALWEKLLAQLDKSVLPQRLFVFGISTMAPMYLQLLHQISKHCDVFVFALNPSSQ
YWGEVIDEAQILKRGDEADLSQAGHPLLASLGKQGRDFFDFLSEVETEQDIQVYEEGKDDTLLHCLQNDIQNLIMPSERL
YQQEEGKAGGQQALVQVHDADGNPVCVEPDKLLNDGSVKIVAAHSPLRELQVLKEELSLVLQKNPDWQPHDIAVLTPNIE
PYSPFIEAVFGQEQAGSQALPYSISDVKLSRRQPLLYALAQTLDLLESRFEVDKVLPLLESRLVLQRFGLSEEDVPLLHE
TVAGLNVHWGLDQTMREGKDNLFTWQQAVERLALGWMLPEGGNGMWQGVSAWHSNVNQLDVFSGFAEFIRTLADMAAQWQ
EPANVESWVQRCRDLLEKLFAPDTDDQYAKQQFEQSLAKWQEEAQLAEFDGLLPCKTVIRHIRRFLDSESQAGFLSGGIT
FCSMVPMRSLPFKMVCLLGLNDGDFPRNTKAAVFDLIAKHPKKGDRARRDDDRYLFLEALISAREMLYLSYIGHDIRNDA
EFAPSSLISELLDTIAAMTGKSGRELSEKWVKHHPLQAFSRRYFQKDALSDGLFSTRQDYADALNQPPAEAQPFFIEALS
QEEPGKTIQQGELISFWRNPVKVWLKKNLSWEQPYLDGAWESAEPFEPQHEGRIADAYLDARRKGEDFEDTAIQLNAESL
MPVGELGGLWQKQYQISAKNVDAELIRSNKRPSEPYEESFDDLVLQGTIGNLYECGRIVFLNQKDNAPNRIARLLEHLIF
CAVAPKSVANRQTYIVSLGETETYAAIEQQTAKELLKEWLVYFRIGQNTPLPFFAKTSLAAAEEYNKKEDWDTALRKAHE
VFNGNKMSKGQKEYTEVKLVFGHSDESPLDEPLFENLIVNLLVPLLTGVAGKTDTTEQE
MFYLYQSDRLEALAEMCAHIHQTLSLDSVLAQEEVVVQSQGMRRYLNVFFARKLGVAANLKFSLPAGLAWQLMRKLVPDV
PPLSPFSPEVMRWRLLDLFRSEAFQTAPEYENVRLKLESYLHSSASADYQLAGQMADIFDQYLVYRPDWIDAWQAGKLLG
LGDDEDWQARLWRYLDDGSQSAPHRVALWEKLLAQLDKSVLPQRLFVFGISTMAPMYLQLLHQISKHCDVFVFALNPSSQ
YWGEVIDEAQILKRGDEADLSQAGHPLLASLGKQGRDFFDFLSEVETEQDIQVYEEGKDDTLLHCLQNDIQNLIMPSERL
YQQEEGKAGGQQALVQVHDADGNPVCVEPDKLLNDGSVKIVAAHSPLRELQVLKEELSLVLQKNPDWQPHDIAVLTPNIE
PYSPFIEAVFGQEQAGSQALPYSISDVKLSRRQPLLYALAQTLDLLESRFEVDKVLPLLESRLVLQRFGLSEEDVPLLHE
TVAGLNVHWGLDQTMREGKDNLFTWQQAVERLALGWMLPEGGNGMWQGVSAWHSNVNQLDVFSGFAEFIRTLADMAAQWQ
EPANVESWVQRCRDLLEKLFAPDTDDQYAKQQFEQSLAKWQEEAQLAEFDGLLPCKTVIRHIRRFLDSESQAGFLSGGIT
FCSMVPMRSLPFKMVCLLGLNDGDFPRNTKAAVFDLIAKHPKKGDRARRDDDRYLFLEALISAREMLYLSYIGHDIRNDA
EFAPSSLISELLDTIAAMTGKSGRELSEKWVKHHPLQAFSRRYFQKDALSDGLFSTRQDYADALNQPPAEAQPFFIEALS
QEEPGKTIQQGELISFWRNPVKVWLKKNLSWEQPYLDGAWESAEPFEPQHEGRIADAYLDARRKGEDFEDTAIQLNAESL
MPVGELGGLWQKQYQISAKNVDAELIRSNKRPSEPYEESFDDLVLQGTIGNLYECGRIVFLNQKDNAPNRIARLLEHLIF
CAVAPKSVANRQTYIVSLGETETYAAIEQQTAKELLKEWLVYFRIGQNTPLPFFAKTSLAAAEEYNKKEDWDTALRKAHE
VFNGNKMSKGQKEYTEVKLVFGHSDESPLDEPLFENLIVNLLVPLLTGVAGKTDTTEQE
Nucleotide
Download Length: 3300 bp
>NTDB_id=589685 LPB402_RS04265 WP_219089461.1 894068..897367(-) (recC) [Neisseria sicca ATCC 29256]
ATGTTTTATCTTTATCAGTCCGACCGTTTGGAAGCGCTTGCCGAAATGTGCGCGCATATTCATCAGACCTTGTCCTTGGA
TTCTGTATTGGCGCAGGAAGAAGTGGTGGTGCAGAGCCAGGGGATGCGGCGATATCTGAATGTGTTTTTTGCGCGCAAAC
TCGGCGTGGCGGCGAATTTGAAGTTCAGCCTGCCGGCCGGTTTGGCGTGGCAGCTGATGCGTAAATTGGTTCCCGATGTG
CCGCCGCTCAGTCCGTTTTCGCCTGAAGTCATGCGTTGGCGTTTGCTGGATTTGTTCCGCAGTGAAGCGTTTCAGACGGC
CCCGGAATACGAAAACGTGCGCCTGAAGCTGGAAAGTTATTTGCACAGCTCGGCATCGGCGGATTATCAGCTTGCCGGAC
AAATGGCGGATATTTTCGACCAATATTTGGTGTACCGCCCAGATTGGATTGATGCGTGGCAGGCTGGGAAGCTGCTGGGT
TTGGGCGATGATGAGGATTGGCAGGCACGGCTGTGGCGTTATTTGGACGATGGCAGCCAATCTGCGCCGCACCGCGTGGC
CTTGTGGGAAAAGCTCTTGGCGCAGTTGGATAAATCGGTCTTGCCGCAAAGGTTGTTTGTATTCGGCATTTCGACAATGG
CGCCGATGTATCTGCAATTGCTGCACCAAATTTCCAAGCATTGCGATGTATTTGTGTTTGCGCTCAATCCGAGCAGCCAA
TATTGGGGCGAGGTCATCGACGAGGCGCAGATTTTGAAAAGGGGCGATGAGGCGGATTTGTCGCAGGCAGGGCATCCGCT
GTTGGCTTCTTTGGGCAAGCAGGGGCGCGATTTCTTTGATTTTCTGTCGGAAGTGGAAACCGAGCAGGATATTCAGGTTT
ATGAAGAGGGAAAAGACGATACCTTATTGCATTGCCTGCAAAACGATATCCAAAACTTAATCATGCCGTCTGAACGCTTA
TATCAACAGGAAGAAGGCAAAGCAGGCGGGCAACAGGCTTTGGTTCAGGTTCACGATGCGGACGGCAATCCAGTGTGTGT
CGAGCCGGACAAGCTGTTGAATGACGGCTCGGTCAAAATTGTTGCGGCACACAGCCCTTTGCGCGAACTGCAGGTTTTGA
AAGAAGAGCTGTCGCTGGTGTTGCAAAAAAATCCCGACTGGCAGCCGCACGATATTGCCGTTTTGACGCCGAACATCGAG
CCGTACAGCCCGTTTATCGAAGCCGTTTTTGGACAGGAGCAGGCAGGCAGCCAGGCTTTACCATATTCGATTTCGGATGT
GAAACTCAGCCGCCGCCAGCCGTTGCTGTATGCTTTGGCGCAAACTTTGGACTTGCTGGAAAGCCGATTTGAAGTGGACA
AGGTTTTGCCTTTGCTGGAAAGCCGGTTGGTGCTGCAACGCTTCGGTTTGAGCGAGGAAGATGTGCCGCTGCTGCATGAG
ACTGTTGCCGGATTGAATGTGCATTGGGGTTTGGACCAAACCATGCGCGAGGGCAAAGACAACCTCTTTACTTGGCAGCA
GGCGGTAGAGCGTTTGGCCTTGGGCTGGATGCTGCCCGAAGGTGGCAACGGCATGTGGCAGGGAGTGAGCGCGTGGCATA
GCAATGTCAACCAGTTGGACGTGTTCAGCGGTTTTGCCGAATTTATCCGTACTTTGGCCGATATGGCGGCGCAATGGCAA
GAGCCTGCCAATGTGGAAAGCTGGGTGCAGCGTTGCCGCGATTTGCTGGAGAAACTGTTTGCTCCGGATACGGACGACCA
ATACGCCAAGCAGCAGTTTGAGCAGTCTTTGGCGAAATGGCAGGAAGAGGCGCAGTTGGCTGAATTTGACGGATTATTGC
CGTGTAAAACCGTTATCCGCCATATCCGCCGCTTTTTGGACAGTGAAAGCCAAGCCGGATTTTTGAGCGGCGGCATCACT
TTTTGCAGTATGGTGCCAATGCGCAGCCTGCCGTTTAAAATGGTTTGCCTGTTGGGTTTGAATGACGGCGATTTTCCGCG
CAATACCAAAGCGGCGGTGTTCGACCTGATTGCCAAACATCCGAAAAAAGGCGATCGCGCCCGCCGCGACGATGACCGTT
ATCTCTTCCTCGAAGCCTTAATCAGCGCGCGAGAAATGCTGTATTTGTCTTACATCGGCCACGATATACGCAATGATGCC
GAGTTTGCGCCGTCTTCGTTAATCAGCGAGCTGCTGGATACCATTGCCGCCATGACAGGGAAAAGCGGGCGCGAGTTGTC
GGAGAAATGGGTGAAACATCATCCGTTGCAGGCGTTTTCACGCCGTTATTTCCAAAAGGACGCGCTTTCAGACGGCCTCT
TCAGTACGCGCCAAGATTACGCCGATGCGTTGAACCAACCGCCAGCGGAAGCGCAGCCGTTTTTCATTGAGGCTTTAAGT
CAGGAAGAGCCGGGCAAAACCATTCAGCAGGGCGAGCTCATCAGTTTTTGGCGCAACCCTGTCAAAGTTTGGCTGAAGAA
AAATTTAAGCTGGGAACAGCCGTATCTGGACGGCGCATGGGAGTCTGCCGAACCGTTTGAGCCGCAACATGAAGGCCGGA
TTGCCGATGCCTATTTAGATGCACGGCGCAAAGGGGAAGATTTTGAAGATACGGCCATTCAGCTGAATGCCGAAAGCCTG
ATGCCGGTAGGCGAGTTGGGCGGTTTGTGGCAGAAGCAGTATCAGATATCTGCGAAAAACGTGGATGCCGAGCTGATACG
CAGCAATAAAAGGCCGTCTGAACCTTATGAAGAATCCTTTGACGACTTGGTTTTACAAGGCACCATCGGCAATCTTTATG
AGTGCGGCCGCATTGTGTTCCTAAATCAAAAAGACAATGCACCCAACCGCATTGCCCGTTTATTGGAGCATTTGATTTTT
TGCGCCGTCGCCCCTAAATCCGTTGCAAACCGACAAACCTATATTGTTAGCTTGGGAGAGACCGAAACCTATGCCGCCAT
CGAGCAACAAACAGCAAAAGAACTTTTGAAAGAATGGTTGGTATATTTCCGAATCGGACAAAATACCCCCTTGCCATTTT
TTGCCAAAACCAGTCTTGCCGCTGCGGAGGAGTACAACAAGAAAGAGGATTGGGATACTGCCTTGAGAAAAGCCCATGAG
GTTTTTAACGGCAACAAAATGAGCAAAGGGCAGAAAGAATATACCGAAGTGAAGCTGGTGTTTGGCCATTCGGACGAATC
GCCGCTTGATGAGCCGCTATTTGAAAACCTCATCGTCAATCTGCTTGTGCCGCTTTTGACCGGCGTGGCAGGGAAAACCG
ATACAACAGAACAGGAGTAA
ATGTTTTATCTTTATCAGTCCGACCGTTTGGAAGCGCTTGCCGAAATGTGCGCGCATATTCATCAGACCTTGTCCTTGGA
TTCTGTATTGGCGCAGGAAGAAGTGGTGGTGCAGAGCCAGGGGATGCGGCGATATCTGAATGTGTTTTTTGCGCGCAAAC
TCGGCGTGGCGGCGAATTTGAAGTTCAGCCTGCCGGCCGGTTTGGCGTGGCAGCTGATGCGTAAATTGGTTCCCGATGTG
CCGCCGCTCAGTCCGTTTTCGCCTGAAGTCATGCGTTGGCGTTTGCTGGATTTGTTCCGCAGTGAAGCGTTTCAGACGGC
CCCGGAATACGAAAACGTGCGCCTGAAGCTGGAAAGTTATTTGCACAGCTCGGCATCGGCGGATTATCAGCTTGCCGGAC
AAATGGCGGATATTTTCGACCAATATTTGGTGTACCGCCCAGATTGGATTGATGCGTGGCAGGCTGGGAAGCTGCTGGGT
TTGGGCGATGATGAGGATTGGCAGGCACGGCTGTGGCGTTATTTGGACGATGGCAGCCAATCTGCGCCGCACCGCGTGGC
CTTGTGGGAAAAGCTCTTGGCGCAGTTGGATAAATCGGTCTTGCCGCAAAGGTTGTTTGTATTCGGCATTTCGACAATGG
CGCCGATGTATCTGCAATTGCTGCACCAAATTTCCAAGCATTGCGATGTATTTGTGTTTGCGCTCAATCCGAGCAGCCAA
TATTGGGGCGAGGTCATCGACGAGGCGCAGATTTTGAAAAGGGGCGATGAGGCGGATTTGTCGCAGGCAGGGCATCCGCT
GTTGGCTTCTTTGGGCAAGCAGGGGCGCGATTTCTTTGATTTTCTGTCGGAAGTGGAAACCGAGCAGGATATTCAGGTTT
ATGAAGAGGGAAAAGACGATACCTTATTGCATTGCCTGCAAAACGATATCCAAAACTTAATCATGCCGTCTGAACGCTTA
TATCAACAGGAAGAAGGCAAAGCAGGCGGGCAACAGGCTTTGGTTCAGGTTCACGATGCGGACGGCAATCCAGTGTGTGT
CGAGCCGGACAAGCTGTTGAATGACGGCTCGGTCAAAATTGTTGCGGCACACAGCCCTTTGCGCGAACTGCAGGTTTTGA
AAGAAGAGCTGTCGCTGGTGTTGCAAAAAAATCCCGACTGGCAGCCGCACGATATTGCCGTTTTGACGCCGAACATCGAG
CCGTACAGCCCGTTTATCGAAGCCGTTTTTGGACAGGAGCAGGCAGGCAGCCAGGCTTTACCATATTCGATTTCGGATGT
GAAACTCAGCCGCCGCCAGCCGTTGCTGTATGCTTTGGCGCAAACTTTGGACTTGCTGGAAAGCCGATTTGAAGTGGACA
AGGTTTTGCCTTTGCTGGAAAGCCGGTTGGTGCTGCAACGCTTCGGTTTGAGCGAGGAAGATGTGCCGCTGCTGCATGAG
ACTGTTGCCGGATTGAATGTGCATTGGGGTTTGGACCAAACCATGCGCGAGGGCAAAGACAACCTCTTTACTTGGCAGCA
GGCGGTAGAGCGTTTGGCCTTGGGCTGGATGCTGCCCGAAGGTGGCAACGGCATGTGGCAGGGAGTGAGCGCGTGGCATA
GCAATGTCAACCAGTTGGACGTGTTCAGCGGTTTTGCCGAATTTATCCGTACTTTGGCCGATATGGCGGCGCAATGGCAA
GAGCCTGCCAATGTGGAAAGCTGGGTGCAGCGTTGCCGCGATTTGCTGGAGAAACTGTTTGCTCCGGATACGGACGACCA
ATACGCCAAGCAGCAGTTTGAGCAGTCTTTGGCGAAATGGCAGGAAGAGGCGCAGTTGGCTGAATTTGACGGATTATTGC
CGTGTAAAACCGTTATCCGCCATATCCGCCGCTTTTTGGACAGTGAAAGCCAAGCCGGATTTTTGAGCGGCGGCATCACT
TTTTGCAGTATGGTGCCAATGCGCAGCCTGCCGTTTAAAATGGTTTGCCTGTTGGGTTTGAATGACGGCGATTTTCCGCG
CAATACCAAAGCGGCGGTGTTCGACCTGATTGCCAAACATCCGAAAAAAGGCGATCGCGCCCGCCGCGACGATGACCGTT
ATCTCTTCCTCGAAGCCTTAATCAGCGCGCGAGAAATGCTGTATTTGTCTTACATCGGCCACGATATACGCAATGATGCC
GAGTTTGCGCCGTCTTCGTTAATCAGCGAGCTGCTGGATACCATTGCCGCCATGACAGGGAAAAGCGGGCGCGAGTTGTC
GGAGAAATGGGTGAAACATCATCCGTTGCAGGCGTTTTCACGCCGTTATTTCCAAAAGGACGCGCTTTCAGACGGCCTCT
TCAGTACGCGCCAAGATTACGCCGATGCGTTGAACCAACCGCCAGCGGAAGCGCAGCCGTTTTTCATTGAGGCTTTAAGT
CAGGAAGAGCCGGGCAAAACCATTCAGCAGGGCGAGCTCATCAGTTTTTGGCGCAACCCTGTCAAAGTTTGGCTGAAGAA
AAATTTAAGCTGGGAACAGCCGTATCTGGACGGCGCATGGGAGTCTGCCGAACCGTTTGAGCCGCAACATGAAGGCCGGA
TTGCCGATGCCTATTTAGATGCACGGCGCAAAGGGGAAGATTTTGAAGATACGGCCATTCAGCTGAATGCCGAAAGCCTG
ATGCCGGTAGGCGAGTTGGGCGGTTTGTGGCAGAAGCAGTATCAGATATCTGCGAAAAACGTGGATGCCGAGCTGATACG
CAGCAATAAAAGGCCGTCTGAACCTTATGAAGAATCCTTTGACGACTTGGTTTTACAAGGCACCATCGGCAATCTTTATG
AGTGCGGCCGCATTGTGTTCCTAAATCAAAAAGACAATGCACCCAACCGCATTGCCCGTTTATTGGAGCATTTGATTTTT
TGCGCCGTCGCCCCTAAATCCGTTGCAAACCGACAAACCTATATTGTTAGCTTGGGAGAGACCGAAACCTATGCCGCCAT
CGAGCAACAAACAGCAAAAGAACTTTTGAAAGAATGGTTGGTATATTTCCGAATCGGACAAAATACCCCCTTGCCATTTT
TTGCCAAAACCAGTCTTGCCGCTGCGGAGGAGTACAACAAGAAAGAGGATTGGGATACTGCCTTGAGAAAAGCCCATGAG
GTTTTTAACGGCAACAAAATGAGCAAAGGGCAGAAAGAATATACCGAAGTGAAGCTGGTGTTTGGCCATTCGGACGAATC
GCCGCTTGATGAGCCGCTATTTGAAAACCTCATCGTCAATCTGCTTGTGCCGCTTTTGACCGGCGTGGCAGGGAAAACCG
ATACAACAGAACAGGAGTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| recC | Neisseria gonorrhoeae strain FA1090 |
64.995 |
97.998 |
0.637 |