Detailed information    

insolico Bioinformatically predicted

Overview


Name   addB   Type   Machinery gene
Locus tag   ETL58_RS06120 Genome accession   NZ_CP035413
Coordinates   1152575..1156075 (+) Length   1166 a.a.
NCBI ID   WP_101172505.1    Uniprot ID   -
Organism   Bacillus subtilis strain SRCM103629     
Function   homologous recombination; plasmid transformation (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1147575..1161075
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  ETL58_RS06100 (ETL58_06100) yhjO 1148434..1149639 (-) 1206 WP_129010184.1 MFS transporter -
  ETL58_RS06105 (ETL58_06105) yhjP 1149753..1151480 (+) 1728 WP_129010185.1 SgrR family transcriptional regulator -
  ETL58_RS06110 (ETL58_06110) cusC 1151510..1151836 (-) 327 WP_129010186.1 four-helix bundle copper-binding protein -
  ETL58_RS06115 (ETL58_06115) yhjR 1151954..1152391 (-) 438 WP_003245806.1 ferritin family protein -
  ETL58_RS06120 (ETL58_06120) addB 1152575..1156075 (+) 3501 WP_101172505.1 helicase-exonuclease AddAB subunit AddB Machinery gene
  ETL58_RS06125 (ETL58_06125) addA 1156062..1159760 (+) 3699 WP_032730448.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  ETL58_RS06130 (ETL58_06130) sbcD 1159832..1161007 (+) 1176 WP_032721297.1 exonuclease subunit SbcD -

Sequence


Protein


Download         Length: 1166 a.a.        Molecular weight: 134631.68 Da        Isoelectric Point: 5.5235

>NTDB_id=300495 ETL58_RS06120 WP_101172505.1 1152575..1156075(+) (addB) [Bacillus subtilis strain SRCM103629]
MGAEFLVGRSGSGKTKLIINSIQDELRRAPFGKPIIFLVPDQMTFLMEYELAKTPDMGGMIRAQVFSFSRLAWRVLQHTG
GMSRPFLTSTGVQMLLRKLIEEHKQEFKVYQKASDKSGFTAQVERMLTEFKRYCLEPEDIRRMAESGTASEYRGERVLSE
KLHDLSILYQQMEKSLADQYLHSEDYLTLLAEHIPLAEDIKGAHIYVDGFYQFTPQEFRVLEQLMVHAEHITFSLTADKP
SYEREPHELELFRMTGKTYYRLHQKAKELNLDITYKELSGTERHTKTPELAHLEAQYEARPAVPYAEKQEALTVMQAANR
RAELEGIAREIHALVREKGYRYKDVAILARQPEDYKDMVKEVFADYEIPYFIDGKASMLNHPLIEFIRSSLDVLKGNWRY
EAVFRCVKTELLFPLNEPKAKVREQVDQLENYCIAYGIKGDRWTKGDRFQYRRFVSLDDDFAQTDQEIEMENMLNDTRDW
IVPPLFQLQKRMKKAKTVQEKAEALYRYLEETDVPLKLDQERQRAEDDGRIIEAQQHQQAWDAVIQLLEEFVEMMGDDEI
SLDLFQQMIEAGAESLTFSLIPPALDQVFVGNMDLSRMYGTSCTFVLGANDGVLPARPDENGVLSDDDREWLKTIGVELS
SGGRERLLDEHFLIYMAFSSPSDRLYVSYPIADAEGKTLLPSMIVKRLEELFPHHKERLLTNEPEQVSDEEQLMYVVNKS
VAQSFTASQLRLWTREYDISDVWWSTYNVLMSEPDRLQSKKLFSSLFFRNEVKQLERSVSRQLYGERIQGSVSRMETFNA
CPFSHFASHGLHLKERQFFKLEAPDIGQLFHSSLKLISDRLREQKLDWRDLTKEQCELFSYDAVERLAPKLQKEILLSSN
RHYYMKEKLQKIVTRVSGILSEHAKASGFVPIGLELGFGGKGPLPPLTFQLKNGCTMELVGRIDRVDKAESSKGLLLRIV
DYKSSDKGLDLAEVYYGLALQMLTYLDLSITHSADWLGMRATPAGVLYFHIHDPMIQSNLPLGLDEIEQEIFKKFKMKGL
LLGDQEVVRLMDTTLQEGRSNIINAGLKKDGSLRSDSAAVGEKEFDLLTKHVRRTFQEAGEQITDGRVSIEPYKMKNKTP
CTYCAFKSVCQFDESLEENEYRPLKAEKDKTILEWIKKEADGNEHS

Nucleotide


Download         Length: 3501 bp        

>NTDB_id=300495 ETL58_RS06120 WP_101172505.1 1152575..1156075(+) (addB) [Bacillus subtilis strain SRCM103629]
TTGGGAGCAGAGTTTTTAGTAGGCAGGTCCGGGAGTGGAAAAACGAAGCTGATCATCAACAGCATTCAGGATGAATTGCG
CCGGGCTCCATTCGGGAAGCCGATCATTTTTCTAGTCCCGGATCAAATGACGTTTTTAATGGAATACGAGCTTGCTAAAA
CGCCAGATATGGGCGGGATGATACGCGCTCAAGTGTTCAGTTTTTCACGATTGGCCTGGCGCGTCCTCCAGCATACGGGA
GGAATGAGCAGGCCGTTTCTGACGAGCACCGGCGTACAAATGCTCCTGCGGAAGCTCATTGAGGAGCATAAACAGGAGTT
CAAAGTCTATCAAAAAGCGAGTGACAAAAGCGGGTTTACCGCACAGGTTGAGCGGATGCTGACAGAGTTTAAGCGCTATT
GTCTGGAACCGGAGGATATCCGCCGGATGGCGGAAAGCGGAACGGCTTCCGAGTATCGCGGAGAACGTGTTTTATCTGAA
AAGCTCCATGACTTATCAATTCTGTATCAGCAAATGGAAAAAAGCCTCGCAGATCAATATCTTCACTCTGAGGATTATTT
GACATTGCTGGCAGAGCATATCCCGCTTGCGGAAGATATAAAAGGCGCCCATATCTATGTGGATGGCTTTTATCAGTTTA
CCCCGCAGGAATTCAGGGTGTTGGAGCAGCTTATGGTTCATGCGGAGCATATCACGTTTTCGCTCACAGCGGACAAGCCG
TCATATGAGCGGGAGCCGCATGAACTGGAATTGTTCAGAATGACGGGGAAAACCTATTACCGCCTGCATCAGAAGGCGAA
GGAACTGAATTTGGACATTACGTATAAAGAGCTGAGCGGGACTGAGCGGCATACAAAGACGCCGGAATTGGCGCATCTAG
AGGCACAGTATGAAGCGCGTCCGGCCGTTCCATACGCAGAAAAACAAGAAGCCCTTACTGTGATGCAGGCCGCAAACAGA
CGAGCTGAGCTGGAAGGCATTGCCCGGGAAATTCACGCCCTAGTCAGAGAGAAGGGATATCGCTATAAGGATGTAGCAAT
TCTTGCGCGCCAGCCGGAAGACTACAAGGATATGGTGAAGGAAGTTTTCGCAGATTACGAGATTCCTTATTTCATTGACG
GAAAAGCATCTATGCTGAACCATCCGTTAATTGAATTTATCCGGTCAAGCCTTGATGTTCTGAAAGGGAATTGGCGTTAT
GAAGCGGTGTTTCGCTGCGTGAAAACCGAACTGCTATTCCCGCTCAATGAACCGAAGGCCAAAGTGAGAGAACAGGTCGA
TCAGCTCGAAAATTACTGTATCGCCTATGGTATTAAAGGCGACCGCTGGACAAAGGGCGATCGGTTCCAATACAGGCGTT
TTGTGTCATTGGATGATGATTTTGCACAGACTGATCAGGAAATCGAAATGGAAAACATGTTGAATGACACCCGCGATTGG
ATTGTTCCGCCGCTTTTTCAGCTTCAAAAACGCATGAAAAAAGCGAAGACGGTTCAAGAGAAGGCGGAGGCGCTCTATCG
TTATTTAGAAGAGACGGATGTGCCGCTGAAGCTGGATCAGGAAAGGCAGCGTGCTGAGGATGACGGCAGAATCATTGAAG
CGCAGCAGCATCAGCAGGCGTGGGACGCAGTCATTCAGCTGCTTGAGGAGTTTGTTGAAATGATGGGAGATGATGAGATT
TCTCTTGATTTGTTTCAGCAGATGATAGAAGCCGGCGCGGAGTCGCTTACGTTTTCTCTAATTCCGCCTGCGCTTGACCA
GGTGTTTGTCGGCAATATGGATTTGTCCAGAATGTATGGCACCTCCTGCACCTTTGTGCTCGGGGCAAACGACGGCGTTC
TGCCGGCACGCCCTGATGAAAACGGGGTCCTGTCGGATGATGACCGGGAATGGCTGAAAACGATTGGGGTTGAGCTATCC
TCAGGCGGACGGGAGCGTTTGCTTGATGAGCATTTCCTCATCTACATGGCGTTTTCAAGTCCGTCTGACCGGCTTTACGT
ATCGTATCCGATTGCTGATGCGGAAGGAAAAACGCTTTTGCCGTCGATGATCGTTAAGCGGCTGGAAGAACTGTTTCCGC
ATCATAAGGAGCGCCTGTTAACAAATGAACCTGAACAGGTCAGCGATGAGGAACAGCTGATGTATGTCGTGAATAAAAGC
GTGGCACAGTCCTTTACCGCGAGCCAGCTCAGGTTATGGACACGGGAATACGACATCAGCGACGTCTGGTGGAGCACGTA
CAATGTGCTGATGAGTGAGCCGGACAGGCTGCAGTCGAAAAAGCTGTTCTCAAGCCTGTTTTTCCGGAATGAAGTGAAGC
AGCTTGAACGCAGCGTGTCGAGACAGCTCTATGGTGAACGCATTCAGGGCAGTGTATCGAGAATGGAAACCTTTAACGCA
TGCCCGTTTTCCCATTTTGCGTCACACGGGCTGCATTTGAAGGAACGGCAATTCTTCAAGCTTGAAGCACCGGATATCGG
CCAGCTGTTTCATTCCAGCTTAAAGCTGATTTCGGACAGGCTGCGTGAGCAAAAGCTGGATTGGCGCGATTTAACGAAGG
AGCAGTGCGAGCTGTTTTCCTATGATGCGGTAGAGCGGCTGGCACCGAAACTGCAAAAGGAAATTCTGCTCAGCTCAAAC
CGGCATTATTATATGAAGGAAAAACTGCAAAAAATTGTGACACGTGTGTCCGGCATTTTAAGCGAGCATGCGAAAGCGAG
CGGATTCGTACCGATCGGGCTTGAACTGGGCTTTGGAGGAAAAGGACCGCTTCCGCCGCTGACCTTTCAACTGAAAAACG
GCTGTACGATGGAACTCGTCGGGCGAATTGACCGTGTTGATAAGGCTGAAAGCTCAAAAGGCCTGCTCCTCAGGATTGTC
GATTATAAATCAAGCGACAAAGGCCTTGACTTAGCGGAAGTATATTACGGATTGGCACTGCAAATGCTGACGTACCTTGA
TTTATCGATTACACATTCAGCTGACTGGCTCGGGATGAGGGCGACGCCTGCCGGAGTGCTGTATTTCCACATTCATGACC
CGATGATTCAATCTAATCTCCCGCTTGGGCTTGACGAGATTGAACAGGAGATCTTTAAGAAATTTAAAATGAAGGGCTTG
CTCCTCGGTGATCAGGAAGTGGTTCGCCTCATGGATACAACCCTTCAAGAGGGACGTTCAAATATCATAAACGCCGGCTT
GAAAAAAGACGGATCTCTTAGATCAGACTCGGCAGCAGTCGGTGAAAAGGAATTTGATCTTTTGACAAAGCATGTGCGCC
GCACCTTCCAGGAAGCGGGCGAACAAATCACCGACGGACGCGTATCCATTGAGCCGTACAAAATGAAGAACAAGACGCCG
TGCACATACTGTGCGTTCAAATCAGTATGCCAATTTGATGAATCACTGGAAGAAAACGAGTATCGCCCATTAAAGGCTGA
AAAGGACAAGACAATACTTGAGTGGATAAAAAAGGAGGCGGATGGCAATGAACATTCCTAA


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
  addB Bacillus subtilis subsp. subtilis str. 168

99.743

100

0.997