Detailed information    

insolico Bioinformatically predicted

Overview


Name   addA   Type   Machinery gene
Locus tag   AACH49_RS09980 Genome accession   NZ_AP028991
Coordinates   2016093..2019746 (-) Length   1217 a.a.
NCBI ID   WP_000154918.1    Uniprot ID   -
Organism   Staphylococcus aureus strain TUM19381     
Function   homologous recombination; plasmid transformation (predicted from homology)   
Homologous recombination

Genomic Context


Location: 2011093..2024746
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  AACH49_RS09955 (TUM19381_18750) - 2011528..2011836 (-) 309 WP_000390575.1 metal-sulfur cluster assembly factor -
  AACH49_RS09960 (TUM19381_18760) - 2011950..2012774 (+) 825 WP_001182436.1 Cof-type HAD-IIB family hydrolase -
  AACH49_RS09965 (TUM19381_18770) - 2012826..2014142 (+) 1317 WP_001124516.1 CoA-disulfide reductase -
  AACH49_RS09970 (TUM19381_18780) - 2014313..2014702 (-) 390 WP_000902807.1 YisL family protein -
  AACH49_RS09975 (TUM19381_18790) - 2015027..2015929 (-) 903 WP_000670755.1 fumarylacetoacetate hydrolase family protein -
  AACH49_RS09980 (TUM19381_18800) addA 2016093..2019746 (-) 3654 WP_000154918.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  AACH49_RS09985 (TUM19381_18810) addB 2019747..2023223 (-) 3477 WP_000172374.1 helicase-exonuclease AddAB subunit AddB -
  AACH49_RS09990 (TUM19381_18820) lepB 2023383..2023958 (-) 576 WP_000711894.1 signal peptidase I -
  AACH49_RS09995 (TUM19381_18830) lepB 2023974..2024498 (-) 525 WP_000758216.1 signal peptidase I -

Sequence


Protein


Download         Length: 1217 a.a.        Molecular weight: 141109.66 Da        Isoelectric Point: 4.9678

>NTDB_id=96779 AACH49_RS09980 WP_000154918.1 2016093..2019746(-) (addA) [Staphylococcus aureus strain TUM19381]
MTIPEKPQGVIWTDAQWQSIYATGQDVLVAAAAGSGKTAVLVERIIQKILRDGIDVDRLLVVTFTNLSAREMKHRVDQRI
QEASIADPANAHLKNQRIKIHQAQISTLHSFCLKLIQQHYDVLNIDPNFRTSSEAENILLLEQTIDEVIEQHYDILDPAF
IELTEQLSSDRSDDQFRMIIKQLYFFSVANPNPTNWLDQLVTPYEEEAQQAQLIQLLTDLSKVFITAAYDALNKANDLFS
MMDGVDKHLAVIEDERRLMGRVLEGGFIDIPYLTGHEFGARLPNVTAKIKEANEMMVDALEDAKLQYKKYKSLIDKVKSD
YFSREADDLKADMQQLAPRVKYLARIVKDVMSEFNRKKRSKNILDFSDYEHFALQILTNEDGSPSEIAESYRQHFQEILV
DEYQDTNRVQEKILSCIKTGAEHNGNLFMVGDVKQSIYKFRQADPSLFIEKYQRFTINGDGTGRRIDLSQNFRSRKEVLS
TTNYIFKHMMDEQVGEVNYDESAQLYYGAPYDESDHPVNLKVLVEADQEHSDLTGSEQEAHFIVEQVKDILEHQKVYDMK
TGSYRSATYKDIVILERSFGQARNLQQAFKNEDIPFHVNSREGYFEQTEVRLVLSFLRAIDNPLQDIYLVGLMRSVIYQF
KEDELAQIRILSPNDDYFYQSIVNYINDEVADAILVDKLKMFLSDIQSYQQYSKDHPVYQLIDKFYNDHYVIQYFSGLIG
GRGRRANLYGLFNKAIEFENSSFRGLYQFIRFIDELIERGKDFGEENVVGPNDNVVRMMTIHSSKGLEFPFVIYSGLSKD
FNKRDLKQPVILNQQFGLGMDYFDVDKEMAFPSLASVAYKAVAEKELVSEEMRLVYVALTRAKEQLYLIGRVKNDKSLLE
LEQLSISGEHIAVNERLTSPNPFHLIYSILSKHQSASIPDDLKFEKDIAQVEDSSRPNVNISIIYFEDVSTETILDNNEY
RSVNQLETMQNGNEDVKAQIKHQLDYQYPYVNDTKKPSKQSVSELKRQYETEESGTSYERVRQYRIGFSTYERPKFLSEQ
GKRKANEIGTLMHTVMQHLPFKKERISEVELHQYIDGLIDKHIIEADAKKDIRMDEIMTFINSELYSIIAEAEQVYRELP
FVVNQALVDQLPQGDEDVSIIQGMIDLIFVKDGVHYFVDYKTDAFNRRRGMTDEEIGTQLKNKYKIQMKYYQNTLQTILN
KEVKGYLYFFKFGTLQL

Nucleotide


Download         Length: 3654 bp        

>NTDB_id=96779 AACH49_RS09980 WP_000154918.1 2016093..2019746(-) (addA) [Staphylococcus aureus strain TUM19381]
ATGACAATTCCAGAGAAACCACAAGGCGTGATTTGGACTGACGCGCAATGGCAAAGTATTTACGCAACTGGACAAGATGT
ACTTGTTGCAGCCGCGGCAGGTTCAGGTAAAACAGCTGTACTAGTTGAGCGTATTATCCAAAAGATTTTACGTGATGGCA
TTGATGTCGATCGACTTTTAGTCGTAACGTTTACAAACTTAAGCGCACGTGAAATGAAGCATCGTGTAGACCAACGTATT
CAAGAGGCATCGATTGCTGATCCTGCAAATGCACACTTGAAAAACCAACGTATCAAAATTCATCAAGCACAAATATCTAC
ACTTCATAGTTTTTGCTTGAAATTAATTCAACAGCATTATGATGTATTAAATATTGACCCGAACTTTAGAACAAGCAGTG
AAGCTGAAAATATTTTATTATTAGAACAAACGATAGATGAGGTCATAGAACAACATTACGATATCCTTGATCCTGCTTTT
ATTGAATTAACAGAGCAATTGTCTTCAGATAGAAGTGATGATCAGTTTCGAATGATTATTAAACAATTGTATTTCTTTAG
CGTTGCAAATCCAAATCCTACAAATTGGTTGGATCAATTGGTGACACCATACGAAGAAGAAGCACAACAAGCGCAACTTA
TTCAACTACTAACAGACTTATCTAAAGTATTTATCACAGCTGCCTATGATGCTTTAAATAAGGCGAATGATTTGTTTAGT
ATGATGGATGGCGTCGATAAACATTTAGCTGTTATAGAAGATGAACGACGTTTAATGGGGCGTGTTTTAGAAGGTGGCTT
TATTGATATACCTTATTTAACTGGTCACGAATTTGGCGCGCGTTTGCCTAATGTAACAGCGAAAATTAAAGAAGCAAATG
AAATGATGGTCGATGCCTTAGAAGATGCTAAACTTCAGTATAAAAAATATAAATCATTAATTGATAAAGTGAAGAGTGAT
TACTTTTCAAGAGAAGCTGATGATTTGAAAGCTGATATGCAACAATTGGCGCCACGAGTAAAGTACCTTGCGCGTATTGT
GAAAGATGTTATGTCAGAATTCAATCGAAAAAAGCGTAGCAAAAATATTTTAGATTTTTCTGATTATGAACATTTTGCAT
TACAAATTTTAACTAATGAGGATGGTTCGCCTTCAGAAATTGCCGAATCATACCGTCAACACTTCCAAGAAATATTGGTC
GATGAGTATCAAGATACGAACCGAGTTCAAGAGAAAATACTATCTTGCATAAAAACGGGTGCAGAACATAATGGTAATTT
ATTTATGGTTGGAGATGTTAAGCAATCCATTTATAAATTTAGACAAGCTGATCCAAGTTTATTTATTGAAAAGTATCAAC
GCTTTACTATAAATGGAGATGGCACTGGACGTCGAATTGATTTGTCGCAAAACTTCCGTTCTCGAAAAGAAGTACTGTCA
ACGACTAACTATATATTCAAACATATGATGGATGAACAAGTCGGTGAAGTAAATTATGATGAATCAGCACAATTGTATTA
TGGTGCACCATATGATGAATCGGACCATCCAGTAAACTTAAAAGTGCTTGTTGAAGCGGATCAAGAACATAGTGATTTAA
CTGGTAGTGAACAAGAAGCGCATTTTATAGTAGAACAAGTTAAAGATATCTTAGAACATCAAAAAGTTTATGATATGAAA
ACAGGAAGCTATAGAAGTGCGACATACAAAGATATCGTTATTCTAGAACGCAGCTTTGGACAAGCTCGCAATTTACAACA
AGCCTTTAAAAATGAAGATATTCCATTCCATGTGAATAGTCGTGAAGGTTACTTTGAACAAACAGAAGTCCGCTTAGTAT
TATCATTTTTAAGAGCGATAGATAATCCATTACAAGATATTTATTTAGTTGGGTTAATGCGCTCCGTTATATATCAGTTC
AAAGAAGACGAATTAGCTCAAATTAGAATATTGAGTCCAAATGATGACTACTTCTATCAATCGATTGTAAATTACATTAA
TGACGAAGTAGCAGATGCTATTTTAGTTGATAAATTAAAGATGTTTTTATCAGATATTCAAAGTTACCAACAATATAGTA
AAGATCATCCGGTGTATCAGTTAATTGATAAATTTTATAATGATCATTATGTTATTCAATACTTTAGTGGACTTATTGGT
GGACGTGGACGACGTGCAAACCTTTATGGTTTATTTAATAAAGCTATCGAGTTTGAGAATTCAAGTTTTAGAGGTTTATA
TCAATTTATTCGTTTTATCGATGAATTGATTGAAAGAGGCAAAGATTTTGGTGAGGAAAATGTAGTTGGTCCAAACGATA
ATGTCGTTAGAATGATGACAATTCATAGTAGTAAAGGTCTAGAGTTTCCATTTGTCATTTATTCTGGATTGTCAAAAGAT
TTTAATAAACGTGATTTGAAACAACCAGTTATTTTAAATCAGCAATTTGGTCTCGGAATGGATTATTTTGATGTGGATAA
AGAAATGGCATTTCCATCTTTAGCTTCGGTTGCATATAAAGCTGTTGCCGAAAAAGAACTTGTGTCAGAAGAAATGCGAT
TAGTCTATGTAGCATTAACAAGAGCGAAAGAACAACTTTATTTAATTGGTAGAGTGAAAAATGATAAATCGTTACTAGAA
CTAGAGCAATTGTCTATTTCTGGTGAGCATATTGCTGTCAATGAACGATTAACTTCACCAAATCCGTTCCATCTTATTTA
TAGTATTTTATCTAAACATCAATCTGCGTCAATTCCAGATGATTTAAAATTTGAAAAAGATATAGCACAAGTTGAAGATA
GTAGTCGTCCGAATGTAAATATTTCAATTATATACTTTGAAGATGTGTCTACAGAAACCATTTTAGATAATAATGAATAT
CGTTCGGTTAATCAATTAGAAACTATGCAAAATGGTAATGAGGATGTTAAAGCACAAATTAAACACCAACTTGATTATCA
ATATCCATATGTAAATGATACTAAAAAGCCATCAAAACAATCTGTTTCTGAATTGAAAAGGCAATATGAAACAGAAGAAA
GTGGCACAAGTTACGAACGAGTAAGACAATATCGTATCGGTTTTTCAACGTATGAACGACCTAAATTTCTAAGTGAACAA
GGTAAACGAAAAGCGAATGAAATTGGTACGTTAATGCATACAGTGATGCAACATTTACCATTCAAAAAAGAACGCATATC
TGAAGTTGAGTTACATCAGTATATCGATGGATTAATCGATAAACATATTATCGAAGCAGATGCGAAAAAAGATATCCGTA
TGGATGAAATAATGACATTTATCAATAGTGAGTTATATTCGATTATTGCTGAAGCAGAGCAAGTTTATCGTGAATTACCG
TTTGTAGTTAACCAAGCATTAGTTGACCAATTGCCACAAGGAGACGAAGACGTCTCAATTATTCAAGGTATGATTGACTT
AATCTTTGTTAAAGATGGTGTGCATTATTTTGTAGACTATAAAACCGATGCATTTAATCGTCGCCGTGGGATGACAGATG
AAGAAATTGGTACACAATTAAAAAATAAATATAAGATACAGATGAAATATTATCAAAATACGCTTCAAACGATTCTTAAT
AAAGAAGTTAAAGGTTATTTATACTTCTTCAAATTTGGTACATTGCAACTGTAG


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

36.963

100

0.382


Multiple sequence alignment