Detailed information    

insolico Bioinformatically predicted

Overview


Name   addA   Type   Machinery gene
Locus tag   QY866_RS06950 Genome accession   NZ_CP129530
Coordinates   1394406..1398149 (-) Length   1247 a.a.
NCBI ID   WP_341843928.1    Uniprot ID   -
Organism   Latilactobacillus sakei strain A1262     
Function   homologous recombination; plasmid transformation (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1389406..1403149
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  QY866_RS06935 (QY866_06925) asnS 1389543..1390841 (-) 1299 WP_011374616.1 asparagine--tRNA ligase -
  QY866_RS06940 (QY866_06930) - 1390952..1391428 (-) 477 WP_011374615.1 DUF5590 domain-containing protein -
  QY866_RS06945 (QY866_06935) - 1391506..1394340 (-) 2835 WP_056947673.1 helicase C-terminal domain-containing protein -
  QY866_RS06950 (QY866_06940) addA 1394406..1398149 (-) 3744 WP_341843928.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  QY866_RS06955 (QY866_06945) - 1398133..1401693 (-) 3561 WP_337457580.1 PD-(D/E)XK nuclease family protein -
  QY866_RS06960 (QY866_06950) mvk 1401956..1402921 (+) 966 WP_231952314.1 mevalonate kinase -

Sequence


Protein


Download         Length: 1247 a.a.        Molecular weight: 141765.80 Da        Isoelectric Point: 4.8564

>NTDB_id=779899 QY866_RS06950 WP_341843928.1 1394406..1398149(-) (addA) [Latilactobacillus sakei strain A1262]
MAILSNPQFTPSQQAAVNHDGHDILVSASAGSGKTSVLVARVIQKILKGTDVDTLLVVTFTEAAATEMRQRIQAALRDAS
EKATEPAVKQRLRQQLSLVPTAQISTLHAFCLKVIKQFYYVIDRDPVFRLLSDTAERLLLADQVWQRVREAFYSHEYVEK
GTQDTLFYELAQNFSNDRNDDGLTDIVFELLDFANANPNPVKWLNELPKSYAVDETGLTASRYFQEKILPILQQTLTECL
EALQEAEQLSQTSENLMVYAPQITTTQAALTQIKADAKTLNWQAWRQQLTDAQLGPAKRTKKLEPDEQINKDRLKADLDD
VKKKIQTLLDTYFVFDEATTTNIQRQAGQLVQKLVRVTLTFREAFQAEKERRHLLDFSDLEQLCLTILSAEDSPARAFYQ
QKFSEVLVDEYQDTNPLQETIIQKVTSDHPRNLFMVGDVKQSIYAFRLADPSLFKNKYNEFGVTEAERDSERIILAENFR
SRRNIDDFTNLIFKQLMDENLGELDYDENAALQYGARYYPDQHPTAPTELLLYETKPEEAVANPQLDKSEGQVVAVAKRI
QAMMTNGEQIWDKKLEKMRPIEYRDIVLLAPTRGNNLFILDYFKRFGLPVVIKDAQNYFQTTEVQIMLALLQVIDNPNQD
IPLVSVLRSPIVGLNENELALIRINDKTDDYYQAVFNFIDQYNEQKVGHLGQQVMQKLTHFMALLTSFRTIARQQPIVDL
IWTIYQETGFLDYVGGMPAGRQRQANLHALYERATAYEENGFKGLFQFIQFIERLQKQDKDLAQPTSLENQDAISVMTIH
GSKGLEFPVVFLIDTSRRFNQQDLQRSYVLDNHGGLGVVYLDSQKRLKVPTLPELAITAQKRKKLRAEEMRKLYVALTRA
EQWLIIVGHCDNQAQLMKQWQKGQNSTHQILDDGVRNDAASLLDWIGLSLIRHPQAKDWITDYEPLLALSGDQTEFKLIM
TNEALLGEIPGSLHNDQDWGQQQQKALQTIDLNSGIATAIAEQLTFKYPANVATQTTAYQSVSEVKRLFEDPDNTGLGQL
DLAAEQPRQANRYVTDSLAQPQFLQTVQQPTAAEVGTATHLVLQEIDLTQPVTLASLQGLVDRLVLQNSLSANVAAKINL
NHLLTFFESDLGQQLLAHPEAVKREVPFSLLLPAETIFEGIRPTDDDHVLIHGIMDGYLLTDDGCYLFDYKTDFIDPSNQ
EAAIERVKNRYAGQINLYSAALNQIVQKPVTHKYLYLLSIGELVEIN

Nucleotide


Download         Length: 3744 bp        

>NTDB_id=779899 QY866_RS06950 WP_341843928.1 1394406..1398149(-) (addA) [Latilactobacillus sakei strain A1262]
ATGGCAATCTTGAGTAACCCACAATTTACACCTTCACAGCAAGCGGCTGTCAATCATGACGGCCACGATATTTTAGTATC
CGCATCAGCTGGTTCAGGGAAGACATCCGTCCTGGTTGCCCGGGTCATCCAGAAAATCTTAAAAGGCACCGATGTCGACA
CCTTGCTTGTTGTGACTTTTACGGAAGCCGCTGCTACTGAAATGCGCCAACGGATTCAAGCCGCACTACGCGATGCCAGT
GAGAAAGCGACCGAGCCAGCTGTTAAACAACGTTTACGGCAACAACTGAGTCTCGTGCCAACCGCACAAATCAGTACGCT
GCATGCTTTTTGTTTAAAAGTCATTAAACAATTTTATTACGTGATTGACCGTGATCCCGTATTCCGCTTATTGAGTGATA
CTGCAGAACGACTCCTCTTAGCGGATCAAGTATGGCAACGGGTGAGAGAAGCATTCTACAGCCACGAGTATGTTGAAAAG
GGCACCCAAGACACCTTATTTTACGAATTGGCCCAAAATTTCTCGAATGATCGTAACGATGACGGCCTAACCGACATTGT
TTTTGAGTTGCTCGATTTTGCAAATGCCAATCCAAACCCGGTTAAATGGTTAAACGAACTACCCAAAAGCTATGCTGTTG
ATGAGACTGGTTTGACTGCCAGTCGCTATTTCCAAGAAAAAATATTACCGATATTACAGCAAACACTCACCGAATGCTTA
GAAGCTTTACAAGAAGCTGAACAGCTCAGTCAAACTAGCGAAAATCTGATGGTTTATGCGCCTCAAATTACCACTACGCA
AGCAGCCTTAACACAAATCAAAGCAGATGCCAAAACGTTAAATTGGCAAGCATGGCGCCAACAACTAACGGATGCCCAGC
TAGGACCTGCTAAACGCACTAAGAAATTAGAGCCTGATGAACAAATTAATAAAGACCGTCTGAAAGCCGATTTAGATGAT
GTCAAAAAGAAAATCCAAACGTTATTAGACACTTATTTTGTGTTTGATGAAGCAACCACCACTAATATTCAGCGCCAAGC
TGGCCAGTTGGTCCAAAAATTGGTGCGCGTCACGTTAACTTTCAGAGAAGCCTTTCAAGCCGAAAAAGAACGACGCCATT
TATTGGACTTTAGTGATTTAGAACAACTCTGTCTGACAATTTTATCGGCAGAAGATTCACCAGCAAGAGCCTTTTACCAA
CAAAAATTTAGCGAAGTGCTAGTTGATGAATACCAAGATACCAATCCGCTCCAAGAAACGATTATCCAAAAGGTCACTTC
TGATCATCCACGCAATCTCTTCATGGTCGGGGATGTTAAGCAGTCAATTTATGCTTTCCGATTGGCCGATCCAAGCTTAT
TTAAGAATAAGTATAACGAATTTGGTGTCACGGAAGCTGAACGTGATAGTGAACGAATCATCTTAGCTGAAAACTTCCGT
TCGCGCCGCAATATCGATGACTTTACCAATCTGATTTTTAAACAATTAATGGACGAAAATCTTGGTGAATTAGACTATGA
CGAAAATGCCGCCTTACAATATGGTGCTCGTTATTATCCTGACCAGCACCCAACCGCGCCAACCGAACTCTTGCTTTATG
AAACTAAGCCGGAAGAGGCAGTTGCCAACCCGCAATTAGATAAGAGTGAGGGCCAAGTCGTGGCGGTCGCTAAACGGATT
CAAGCCATGATGACTAATGGGGAACAGATTTGGGATAAGAAACTCGAAAAAATGCGGCCGATTGAATATCGGGACATCGT
TTTACTAGCCCCAACCCGCGGTAATAATTTGTTTATCCTGGATTACTTTAAACGCTTCGGCTTGCCGGTTGTGATTAAGG
ATGCGCAAAATTATTTCCAAACGACTGAAGTCCAAATTATGTTAGCCCTACTTCAGGTGATTGATAATCCTAACCAAGAT
ATTCCACTGGTCAGTGTTTTACGCTCACCAATTGTCGGGTTAAACGAAAATGAATTGGCATTAATTCGGATTAACGATAA
GACGGATGATTATTATCAAGCGGTCTTTAACTTTATTGACCAATATAATGAGCAGAAAGTCGGCCACTTAGGCCAACAAG
TGATGCAGAAGCTGACGCACTTCATGGCTTTATTGACGTCGTTTAGAACAATCGCTCGTCAACAACCGATTGTGGACTTA
ATTTGGACGATCTACCAAGAAACTGGCTTTTTAGATTATGTCGGGGGGATGCCAGCTGGACGTCAACGTCAAGCTAATTT
ACACGCGCTTTATGAACGTGCCACGGCGTATGAAGAAAATGGTTTTAAAGGACTCTTCCAGTTCATTCAGTTTATCGAAC
GTCTTCAAAAACAAGATAAGGATTTAGCACAACCAACGAGCTTAGAAAATCAAGACGCCATCTCTGTTATGACCATTCAC
GGGAGTAAGGGACTTGAATTTCCAGTCGTCTTTTTAATCGATACTAGTCGCCGCTTTAACCAACAGGATTTACAACGCTC
ATATGTTTTGGATAATCATGGTGGTTTAGGGGTCGTTTATTTAGATAGCCAAAAGCGGTTGAAGGTACCAACACTGCCAG
AATTAGCGATTACCGCCCAGAAACGAAAAAAATTACGAGCAGAAGAAATGCGAAAACTATACGTTGCTTTGACACGTGCG
GAACAATGGTTAATCATCGTTGGCCATTGTGATAACCAGGCCCAATTGATGAAGCAATGGCAAAAAGGGCAAAATAGTAC
CCACCAAATATTAGATGATGGTGTTCGCAACGATGCCGCAAGTTTACTGGACTGGATAGGTCTTAGCTTAATTCGCCATC
CACAAGCTAAAGATTGGATCACTGATTATGAGCCACTACTGGCTTTAAGTGGTGATCAAACCGAGTTTAAGTTGATTATG
ACTAATGAAGCCTTACTTGGTGAAATACCAGGTAGCCTGCATAACGATCAGGACTGGGGGCAACAACAGCAAAAGGCACT
TCAAACAATTGATTTAAACAGTGGGATAGCAACAGCGATTGCTGAGCAATTAACCTTTAAGTATCCCGCTAATGTTGCGA
CCCAAACGACGGCTTATCAATCTGTTTCGGAAGTCAAACGCCTTTTTGAAGACCCTGATAATACCGGATTGGGACAATTA
GACCTAGCGGCTGAACAACCGCGCCAAGCAAATCGCTACGTAACGGATAGCTTAGCGCAACCACAGTTCTTACAAACCGT
TCAACAACCAACGGCAGCAGAAGTGGGGACCGCAACGCATTTGGTCTTGCAAGAAATTGATTTAACGCAACCAGTAACGC
TAGCGAGTTTGCAAGGTCTTGTCGATCGACTTGTTTTACAGAATAGTTTAAGCGCCAATGTTGCGGCTAAGATTAATCTT
AATCACCTATTAACCTTCTTTGAAAGTGACTTGGGACAGCAATTATTAGCCCATCCAGAAGCGGTTAAGCGGGAAGTGCC
ATTTTCGTTGTTATTACCAGCAGAAACGATTTTTGAAGGCATTCGTCCCACAGATGACGACCACGTCCTAATCCATGGGA
TTATGGATGGTTATTTATTGACTGACGACGGTTGTTATTTATTTGATTACAAAACCGACTTTATTGACCCCAGTAATCAA
GAAGCGGCGATTGAACGGGTTAAAAACCGCTATGCTGGCCAGATTAACCTCTATAGCGCTGCTTTAAATCAGATTGTCCA
AAAGCCAGTGACCCATAAATATCTTTATTTATTGTCAATTGGCGAACTGGTTGAGATTAACTAG


Secondary structure


Protein secondary structures were predicted by S4PRED and visualized by seqviz.



3D structure


Source ID Structure

Transmembrane helices


Transmembrane helices of protein were predicted by TMHMM 2.0 and visualized by seqviz and ECharts.



Visualization of predicted probability:


Similar proteins


Only experimentally validated proteins are listed.

Protein Organism Identities (%) Coverage (%) Ha-value
  addA Bacillus subtilis subsp. subtilis str. 168

37.628

100

0.384