Detailed information    

insolico Bioinformatically predicted

Overview


Name   addA   Type   Machinery gene
Locus tag   OS083_RS12725 Genome accession   NZ_CP113027
Coordinates   2480610..2484263 (-) Length   1217 a.a.
NCBI ID   WP_000154915.1    Uniprot ID   -
Organism   Staphylococcus aureus strain Syndra     
Function   homologous recombination; plasmid transformation (predicted from homology)   
Homologous recombination

Genomic Context


Location: 2475610..2489263
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  OS083_RS12700 - 2476039..2476347 (-) 309 WP_000390575.1 metal-sulfur cluster assembly factor -
  OS083_RS12705 - 2476461..2477285 (+) 825 WP_001182436.1 Cof-type HAD-IIB family hydrolase -
  OS083_RS12710 - 2477337..2478653 (+) 1317 WP_001124491.1 CoA-disulfide reductase -
  OS083_RS12715 - 2478825..2479214 (-) 390 WP_000902813.1 YisL family protein -
  OS083_RS12720 - 2479542..2480444 (-) 903 WP_000670755.1 fumarylacetoacetate hydrolase family protein -
  OS083_RS12725 addA 2480610..2484263 (-) 3654 WP_000154915.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  OS083_RS12730 addB 2484264..2487740 (-) 3477 WP_000172334.1 helicase-exonuclease AddAB subunit AddB -
  OS083_RS12735 lepB 2487900..2488475 (-) 576 WP_000711897.1 signal peptidase I -
  OS083_RS12740 lepB 2488491..2489015 (-) 525 WP_000758211.1 signal peptidase I -

Sequence


Protein


Download         Length: 1217 a.a.        Molecular weight: 141311.92 Da        Isoelectric Point: 4.9747

>NTDB_id=687765 OS083_RS12725 WP_000154915.1 2480610..2484263(-) (addA) [Staphylococcus aureus strain Syndra]
MTIPEKPQGVIWTDAQWQSIYATGQDVLVAAAAGSGKTAVLVERIIQKILRDGIDVDRLLVVTFTNLSAREMKHRVDQRI
QEASIADPANAHLKNQRIKIHQAQISTLHSFCLKLIQQHYDVLNIDPNFRTSSEAENILLLEQTIDEVIEQHYDILDPAF
IELTEQLSSDRSDDQFRMIIKQLYFFSVANPNPTDWLDQLVTPYEEEAQQAELIQLLTDLSKVFITAAYDALNKAYDLFS
MMDGVDKHLAVIEDERRLMRRVLEGGFIDIPYLTGHEFGARLPNITAKIKEANEMMVDALEDAKLQYKKYKSLIDKVKSD
YFSREADDLKADMQQLAPRVKYLARIVKDVMSEFNRKKRSKNILDFSDYEHFALQILTNEDGSPSEIAESYRQHFQEILV
DEYQDTNRVQEKILSCIKTGDEHNGNLFMVGDVKQSIYKFRQADPSLFIEKYQRFTIDGDGTGRRIDLSQNFRSRKEVLS
TTNYIFKHMMDEQVGEVKYDEAAQLYYGAPYDESDHPVNLKVLVEADQEHSDLTGSEQEAHFIVEQVKDILEHQKVYDMK
TGSYRSATYKDIVILERSFGQARNLQQAFKNEDIPFHVNSREGYFEQTEVRLVLSFLRAIDNPLQDIYLVGLMRSVIYQF
KEDELAQIRILSPNDDYFYQSIVNYINDEAADAILVDKLKMFLSDIHSYQQYSKDHPVYQLIDKFYNDHYVIQYFSGLIG
GRGRRANLYGLFNKAIEFENSSFRGLYQFIRFIDELIERGKDFGEENVVGPNDNVVRMMTIHSSKGLEFPFVIYSGLSKD
FNKRDLKQPVILNQQFGLGMDYFDVDKEMAFPSLASVAYRAVAEKELVSEEMRLVYVALTRAKEQLYLIGRVKNDKSLLE
LEQLSISGEHIAVNERLTSPNPFHLIYSILSKHQSASIPDDLKFEKDIAQVEDSSRPNVNISIVYFEDVSTETILDNDEY
RSVNQLETMQNGNEDVKAQIKHQLDYQYPYVNDTKKPSKQSVSELKRQYETEESGTSYERVRQYRIGFSTYERPKFLSEQ
GKRKANEIGTLMHTVMQHLPFKKERISKVELHQYIDGLIDKHIIEADAKKDIRMDEIMTFINSELYSIIAEAEQVYRELP
FVVNQALVDQLPQGDEDVSIIQGMIDLIFVKDGVHYFVDYKTDAFNRRRGMTDEEIGTQLKNKYKIQMKYYQNTLQTILN
KEVKGYLYFFKFGTLQL

Nucleotide


Download         Length: 3654 bp        

>NTDB_id=687765 OS083_RS12725 WP_000154915.1 2480610..2484263(-) (addA) [Staphylococcus aureus strain Syndra]
ATGACAATTCCAGAGAAACCACAAGGCGTGATTTGGACTGACGCGCAATGGCAAAGTATTTACGCAACTGGACAAGATGT
ACTTGTTGCAGCCGCGGCAGGTTCAGGTAAAACAGCTGTACTAGTTGAGCGTATTATCCAAAAGATTTTACGTGATGGCA
TTGATGTCGATCGACTTTTAGTCGTAACGTTTACAAACTTAAGTGCACGTGAAATGAAGCATCGTGTAGACCAACGTATT
CAAGAGGCATCGATTGCTGATCCTGCAAATGCACACTTGAAAAACCAACGCATCAAAATTCATCAAGCACAAATATCTAC
ACTTCATAGTTTTTGCTTGAAATTAATTCAACAGCATTATGATGTATTAAATATTGACCCGAACTTTAGAACAAGCAGTG
AAGCTGAAAATATTTTATTATTAGAACAAACGATAGATGAAGTCATAGAACAACATTACGATATCCTTGATCCTGCTTTT
ATTGAATTAACAGAGCAATTGTCTTCAGATAGAAGTGATGATCAGTTTCGAATGATTATTAAACAATTGTATTTCTTTAG
CGTTGCAAATCCAAATCCTACAGATTGGTTGGATCAATTGGTGACACCATACGAAGAAGAAGCACAACAAGCGGAACTTA
TTCAACTACTAACAGACTTATCTAAAGTATTTATCACAGCTGCATATGATGCTTTAAATAAGGCGTATGATTTGTTTAGT
ATGATGGATGGCGTCGATAAACATTTAGCTGTTATAGAAGATGAACGACGTTTAATGAGGCGTGTTTTAGAAGGTGGCTT
TATTGATATACCTTATTTAACTGGTCACGAATTTGGCGCGCGTTTGCCTAATATAACAGCGAAAATTAAAGAAGCAAATG
AAATGATGGTCGATGCCTTAGAAGATGCTAAACTTCAGTATAAAAAATATAAATCATTAATTGATAAAGTGAAAAGTGAT
TACTTTTCAAGAGAAGCTGATGATTTGAAAGCTGATATGCAACAATTGGCGCCACGAGTAAAGTACCTTGCGCGTATTGT
GAAAGATGTTATGTCAGAATTCAATCGAAAAAAGCGTAGCAAAAATATTCTGGATTTTTCTGATTATGAACATTTTGCAT
TACAAATTTTAACTAATGAGGATGGTTCGCCTTCAGAAATTGCTGAATCATACCGTCAACACTTCCAAGAAATATTGGTC
GATGAGTATCAAGATACGAACCGAGTTCAAGAGAAAATACTATCTTGCATCAAAACGGGTGATGAACATAATGGTAATTT
ATTTATGGTTGGAGATGTTAAGCAGTCCATTTATAAATTTAGACAAGCTGATCCAAGTTTATTTATTGAAAAGTATCAAC
GCTTTACTATAGATGGAGATGGCACTGGACGTCGAATTGATTTGTCGCAAAACTTCCGTTCTCGAAAAGAAGTACTGTCA
ACGACAAACTATATATTCAAACATATGATGGATGAACAAGTCGGTGAAGTAAAATATGATGAAGCGGCACAGTTGTATTA
TGGTGCACCATATGATGAATCAGACCATCCAGTAAACTTAAAAGTGCTTGTTGAAGCGGATCAAGAACATAGTGATTTAA
CTGGTAGTGAACAAGAAGCGCATTTTATAGTAGAACAAGTTAAAGATATTTTAGAACATCAAAAAGTTTATGATATGAAA
ACAGGAAGCTATAGAAGTGCGACATACAAGGATATCGTTATTCTAGAACGCAGCTTTGGGCAAGCTCGCAATTTACAACA
AGCCTTTAAAAATGAAGATATTCCGTTCCATGTGAATAGTCGTGAAGGTTACTTTGAACAAACAGAAGTCCGTTTAGTAT
TATCATTTTTAAGAGCGATAGATAATCCATTACAAGATATTTATTTAGTTGGGTTAATGCGCTCCGTTATATATCAGTTC
AAAGAAGACGAATTAGCTCAAATTAGAATATTGAGTCCAAATGATGATTACTTCTATCAATCGATTGTAAATTACATTAA
TGACGAAGCAGCAGATGCTATTTTAGTTGATAAATTAAAAATGTTTTTATCAGATATTCATAGTTACCAACAATATAGTA
AAGATCATCCGGTGTATCAGTTAATTGATAAATTTTATAATGATCATTATGTTATTCAATACTTTAGTGGACTCATTGGT
GGACGTGGAAGACGTGCAAATCTTTATGGTTTATTTAATAAAGCTATCGAGTTTGAGAATTCAAGTTTTAGAGGTTTATA
TCAATTTATTCGTTTTATCGATGAATTGATTGAAAGAGGCAAAGATTTTGGTGAGGAAAACGTAGTTGGTCCAAACGATA
ATGTCGTTAGAATGATGACAATTCATAGTAGTAAAGGTTTAGAGTTTCCTTTTGTTATTTATTCTGGATTGTCAAAAGAT
TTTAATAAACGTGATTTGAAACAACCAGTTATTTTAAATCAGCAATTTGGTCTCGGAATGGATTATTTTGATGTGGATAA
AGAAATGGCATTTCCATCTTTAGCTTCGGTTGCATATAGAGCTGTTGCCGAAAAAGAACTTGTATCAGAAGAAATGCGAT
TAGTCTATGTAGCATTAACAAGAGCGAAAGAACAACTTTATTTAATTGGTAGAGTGAAAAATGATAAATCATTACTAGAA
CTAGAGCAATTGTCTATTTCTGGTGAGCACATTGCTGTCAATGAACGATTAACTTCACCAAATCCGTTCCATCTAATTTA
TAGTATTTTATCTAAACATCAATCTGCGTCAATTCCAGATGATTTAAAATTTGAAAAAGATATAGCACAAGTTGAAGATA
GTAGTCGTCCGAATGTAAATATTTCAATTGTGTACTTTGAAGATGTGTCTACAGAAACCATTTTAGATAATGATGAGTAT
CGTTCGGTTAATCAATTAGAAACTATGCAAAATGGTAATGAAGATGTTAAAGCACAAATTAAACACCAACTTGATTATCA
ATATCCATATGTAAATGATACTAAAAAGCCCTCAAAACAATCTGTTTCTGAATTGAAAAGACAATATGAAACTGAAGAAA
GTGGCACAAGTTACGAACGAGTAAGGCAATATCGTATCGGTTTTTCAACGTATGAACGACCTAAATTTCTAAGTGAACAA
GGTAAACGAAAAGCGAATGAAATTGGTACGTTAATGCATACAGTGATGCAACATTTACCATTCAAAAAAGAACGCATATC
TAAAGTTGAGTTACATCAGTATATCGATGGATTAATCGATAAACATATTATCGAAGCAGATGCGAAAAAAGATATTCGTA
TGGATGAAATAATGACATTTATCAATAGTGAGTTATATTCGATTATTGCTGAAGCAGAGCAAGTTTATCGTGAATTACCG
TTTGTAGTTAACCAAGCATTAGTTGACCAATTGCCACAAGGAGACGAAGACGTCTCAATTATTCAAGGTATGATTGACTT
AATCTTTGTTAAAGATGGTGTGCATTATTTTGTAGACTATAAAACCGATGCATTTAATCGTCGCCGTGGGATGACAGATG
AAGAAATTGGTACACAATTAAAAAATAAATATAAGATACAGATGAAATATTATCAAAATACGCTTCAAACGATTCTTAAT
AAAGAAGTTAAAGGTTATTTATACTTCTTCAAATTTGGTACATTGCAACTATAG


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

36.5

100

0.379