Detailed information    

insolico Bioinformatically predicted

Overview


Name   hexA   Type   Machinery gene
Locus tag   BSU_17040 Genome accession   NC_000964
Coordinates   1775745..1778321 (+) Length   858 a.a.
NCBI ID   NP_389586.2    Uniprot ID   P49849
Organism   Bacillus subtilis subsp. subtilis str. 168     
Function   DNA mismatch repair (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1770745..1783321
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  BSU_17000 (BSU17000) kbl 1771517..1772695 (+) 1179 NP_389582.1 2-amino-3-ketobutyrate CoA ligase (glycine acetyl transferase) -
  BSU_17010 (BSU17010) miaB 1772843..1774372 (+) 1530 NP_389583.1 enzyme for ms(2)i(6)A formation for tRNA modification -
  BSU_17020 (BSU17020) ymcA 1774374..1774805 (+) 432 NP_389584.1 master regulator for biofilm formation via regulation of RNase Y (RicAFT complex / FAD / two [4Fe-4S]2+) Regulator
  BSU_17030 (BSU17030) cotE 1775067..1775612 (+) 546 NP_389585.1 morphogenic spore protein -
  BSU_17040 (BSU17040) hexA 1775745..1778321 (+) 2577 NP_389586.2 DNA mismatch repair recognition factor Machinery gene
  BSU_17050 (BSU17050) hexB 1778337..1780220 (+) 1884 NP_389587.1 DNA mismatch repair endonuclease Machinery gene
  BSU_17060 (BSU17060) ymzD 1780618..1781073 (-) 456 YP_054578.1 putative integral inner membrane protein -
  BSU_17070 (BSU17070) ymcC 1781228..1781785 (-) 558 NP_389588.1 putative integral inner membrane protein -
  BSU_17080 (BSU17080) pksA 1781906..1782523 (+) 618 NP_389589.1 transcriptional regulator of bacillaene synthesis operon -

Sequence


Protein


Download         Length: 858 a.a.        Molecular weight: 97603.69 Da        Isoelectric Point: 5.2488

>NTDB_id=20987 BSU_17040 NP_389586.2 1775745..1778321(+) (hexA) [Bacillus subtilis subsp. subtilis str. 168]
MAGYTPMIQQYLKIKAEHQDAFLFFRLGDFYEMFFEDAKKASQELEITLTSRDGGAAEKIPMCGVPYHSASAYIEQLIKK
GYKVAICEQTEDPKAAKGVVKREVVQLITPGTVMDGKGIHESENNFIASVSACSNGYGLALSDLTTGENLAVLIERLEDV
ISEIYSVGAREIVVSGSLDADTVAQLRERCGATISIEDGETDEHVTIIEHLNNEDITKTFLRLYTYLKRTQKRSLDHLQP
VQVYELEEAMKIDLYSKRNLELTETIRSKNKKGSLLWLLDETKTAMGGRLLKQWIDRPLIRVNQIEERQEMVETLMSHFF
EREDLRERLKEVYDLERLAGRVAFGNVNARDLIQLKESLKQVPGIKQLVASLAHDKAKERAKRIDPCGDVLELLEEALYE
NPPLSVKEGNLIKDGYNQKLDEYRDASRNGKDWIARLEQQEREYTGIRSLKVGFNKVFGYYIEVTKANLHLLEEGRYERK
QTLTNAERYITPELKEKEALILEAENNICELEYELFTELREKVKQYIPRLQQLAKQMSELDALQCFATISENRHYTKPEF
SKDEVEVIEGRHPVVEKVMDSQEYVPNNCMMGDNRQMLLITGPNMSGKSTYMRQIALISIMAQIGCFVPAKKAVLPIFDQ
IFTRIGAADDLISGQSTFMVEMLEAKNAIVNATKNSLILFDEIGRGTSTYDGMALAQAIIEYVHDHIGAKTLFSTHYHEL
TVLEDKLPQLKNVHVRAEEYNGTVVFLHQIKEGAADKSYGIHVAQLAELPGDLIARAQDILKELEHSGNKPEVPVQKPQV
KEEPAQLSFFDEAEKPAETPKLSKKEKQVIDAFKSLNILDMTPLEAMNEMYKLQKKLH

Nucleotide


Download         Length: 2577 bp        

>NTDB_id=20987 BSU_17040 NP_389586.2 1775745..1778321(+) (hexA) [Bacillus subtilis subsp. subtilis str. 168]
ATGGCCGGTTATACGCCTATGATACAGCAATATTTAAAAATAAAGGCAGAGCACCAGGATGCCTTTTTATTTTTTCGCCT
GGGTGATTTTTATGAAATGTTTTTTGAGGACGCCAAAAAAGCGTCACAAGAGCTGGAAATTACGTTAACGAGCAGAGACG
GCGGTGCGGCTGAAAAAATACCGATGTGCGGTGTGCCGTATCATTCTGCTTCCGCGTATATCGAACAGCTTATTAAAAAA
GGATACAAAGTGGCGATCTGTGAACAGACGGAAGATCCGAAAGCCGCAAAGGGCGTTGTGAAAAGAGAAGTAGTTCAGCT
GATTACGCCCGGAACTGTAATGGACGGCAAAGGCATCCATGAGTCGGAAAATAATTTTATCGCATCTGTTTCAGCCTGCT
CGAACGGATACGGACTTGCTCTGTCTGATTTAACAACGGGAGAAAATTTGGCTGTTTTGATTGAACGGCTTGAAGACGTC
ATATCAGAAATTTATTCAGTCGGCGCACGGGAAATCGTGGTTTCAGGAAGCTTGGATGCCGATACAGTGGCACAGCTGAG
AGAGCGGTGCGGTGCAACGATTTCAATTGAAGACGGAGAAACAGACGAACACGTAACGATCATTGAGCACTTAAATAATG
AAGATATAACAAAAACATTTCTGCGCTTATATACGTATTTGAAAAGAACCCAAAAGCGCAGCCTTGATCATCTTCAGCCC
GTGCAGGTGTATGAGCTTGAGGAAGCGATGAAAATTGACTTGTACTCAAAGCGTAATCTGGAGCTGACCGAAACGATTCG
TTCGAAAAATAAAAAAGGCTCCCTTTTGTGGCTGCTGGATGAAACAAAAACGGCAATGGGAGGCCGGCTACTTAAACAGT
GGATTGACCGGCCGCTTATCAGAGTCAATCAAATCGAAGAGCGCCAAGAAATGGTGGAAACATTAATGTCCCATTTCTTT
GAACGGGAAGATCTGCGTGAACGTTTAAAAGAAGTATATGACTTAGAACGCCTTGCCGGCCGCGTTGCATTCGGAAATGT
CAATGCCCGGGATTTGATTCAGCTGAAGGAATCGTTAAAGCAAGTGCCTGGCATCAAACAGCTGGTTGCTTCACTGGCTC
ATGACAAGGCCAAGGAACGTGCAAAGCGCATTGACCCTTGCGGGGATGTACTTGAACTGCTGGAAGAAGCGCTGTACGAA
AACCCTCCTTTATCGGTAAAAGAAGGGAACCTGATTAAAGATGGTTATAATCAAAAGCTTGATGAATATCGTGATGCAAG
CAGAAACGGAAAAGACTGGATTGCCCGCCTGGAACAGCAGGAGCGGGAATACACAGGCATTCGCTCTTTAAAGGTCGGCT
TTAATAAAGTTTTCGGTTATTACATTGAAGTGACAAAAGCAAACTTGCATTTGCTTGAGGAAGGGCGTTATGAGCGGAAG
CAGACGTTAACCAATGCAGAGCGCTACATTACACCTGAATTAAAAGAAAAAGAAGCGCTCATTTTAGAGGCGGAAAATAA
CATCTGTGAGCTGGAGTACGAGCTGTTTACCGAGCTGCGCGAGAAAGTGAAGCAGTATATTCCGCGGCTGCAGCAGCTTG
CAAAACAGATGAGCGAGCTGGACGCACTGCAATGCTTTGCGACAATCAGTGAAAATCGCCACTACACGAAACCAGAGTTC
TCTAAAGATGAAGTCGAAGTGATTGAAGGCAGACACCCGGTTGTTGAAAAAGTCATGGACAGCCAGGAATATGTCCCGAA
CAACTGTATGATGGGCGATAACAGACAAATGCTTCTCATTACAGGTCCAAACATGTCAGGGAAAAGCACGTATATGAGAC
AAATCGCGCTCATTTCCATTATGGCGCAAATCGGCTGCTTTGTACCCGCGAAAAAAGCGGTGCTCCCGATTTTCGATCAA
ATTTTTACGCGAATCGGCGCTGCAGATGATTTGATTTCCGGACAAAGTACATTTATGGTAGAAATGCTTGAAGCGAAAAA
TGCGATTGTCAATGCGACGAAAAACAGCCTCATTCTGTTTGATGAAATCGGGCGGGGAACGTCCACTTATGACGGCATGG
CGCTGGCACAGGCGATTATTGAATATGTTCACGATCATATCGGCGCCAAGACGCTGTTCAGCACACACTATCACGAGCTG
ACCGTTCTTGAGGACAAGCTGCCCCAGCTGAAAAACGTTCATGTTCGCGCTGAAGAATATAACGGAACGGTTGTCTTTCT
TCATCAAATTAAAGAAGGTGCGGCTGATAAAAGCTATGGTATCCATGTAGCTCAGCTTGCCGAACTGCCGGGAGATCTGA
TTGCGCGCGCTCAAGATATTTTAAAAGAGCTTGAGCATTCAGGAAACAAACCGGAAGTGCCGGTGCAGAAACCTCAGGTG
AAAGAAGAGCCGGCACAGCTGTCCTTTTTTGACGAAGCGGAAAAGCCGGCTGAAACACCAAAGCTTTCAAAAAAAGAAAA
GCAAGTGATCGATGCTTTCAAATCACTTAATATACTGGATATGACACCGCTTGAAGCGATGAATGAAATGTACAAGCTGC
AAAAGAAATTACATTAA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB P49849

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
  hexA Streptococcus pneumoniae R6

49.474

99.65

0.493

  mutS Pseudomonas stutzeri strain ATCC 17587

38.32

100

0.388


Multiple sequence alignment