Detailed information    

insolico Bioinformatically predicted

Overview


Name   sbcC   Type   Machinery gene
Locus tag   LRO88_RS06260 Genome accession   NZ_CP089148
Coordinates   1189702..1193094 (+) Length   1130 a.a.
NCBI ID   WP_159376758.1    Uniprot ID   -
Organism   Bacillus subtilis strain NIB353     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1184702..1198094
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  LRO88_RS06250 addA 1184760..1188458 (+) 3699 WP_159376757.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  LRO88_RS06255 sbcD 1188530..1189705 (+) 1176 WP_095252612.1 exonuclease subunit SbcD -
  LRO88_RS06260 sbcC 1189702..1193094 (+) 3393 WP_159376758.1 exonuclease subunit SbcC Machinery gene
  LRO88_RS06265 hlpB 1193108..1193410 (+) 303 WP_070548784.1 HNH nuclease-like protein HlpB -
  LRO88_RS06270 gerPF 1193447..1193665 (-) 219 WP_003233096.1 spore germination protein -
  LRO88_RS06275 gerPE 1193697..1194098 (-) 402 WP_041851009.1 spore germination protein GerPE -
  LRO88_RS06280 gerPD 1194098..1194274 (-) 177 WP_021479597.1 spore germination protein GerPD -
  LRO88_RS06285 gerPC 1194271..1194888 (-) 618 WP_014476381.1 spore germination protein GerPC -
  LRO88_RS06290 gerPB 1194912..1195145 (-) 234 WP_003233090.1 spore germination protein GerPB -
  LRO88_RS06295 gerPA 1195160..1195381 (-) 222 WP_003233088.1 spore germination protein -
  LRO88_RS06300 yisI 1195802..1195972 (-) 171 WP_003233086.1 aspartyl-phosphate phosphatase YisI -
  LRO88_RS06305 yisJ 1196118..1197041 (-) 924 WP_231834233.1 CotH kinase family protein -

Sequence


Protein


Download         Length: 1130 a.a.        Molecular weight: 128980.63 Da        Isoelectric Point: 5.3495

>NTDB_id=548930 LRO88_RS06260 WP_159376758.1 1189702..1193094(+) (sbcC) [Bacillus subtilis strain NIB353]
MKPIALSIKGLHSFREEQTIDFEGLSGAGVFGIFGPTGSGKSSILDAMTLALYGKVERAANNTHGILNQAEDTLSVSFTF
ALQTNHQISYKVERVFKRTDEMKVKTALCRFIEIKDEHTVLADKASEVNKRVEELLGLTIDDFTRAVVLPQGKFAEFLSL
KGAERRHMLQRLFNLEQYGDRLVKKLRRQAQEANARKNEMLAEQSGLGEASSEAVEQAEKALEQAEARLEAMRKNRDQAK
ERFTEHQEIWNVQKEKSAYEEEEKRLAEEQPHIDSMQKRLLEAETAAALKPYADRYAEAIQHEEQAEKEQTLAQKDLADR
TAFFQQKHEEYEAWRQHKSEKEPELLTEQEQLSRLQEIEIKLSEAKQEKERKKTELQQKEEALQSVMNELETVTDRLTRG
QNRQTELKQQLKSLQVTSNERKSCHQAAEMVLRIRQTEEQIKKEKKRSEELNLVLQKMNEEKNTLVQKTEAEEHNIIQAY
EAVQTVYHLVCETERSLTRMTEEARKSQHTLHLQREKARVALLTKELAQKLTAGKPCPVCGSTDHDPSASVHETYEADSH
LEEDIKRTDVLLTEAAVLSQEILSAKITLEEQSARFIEQCPFLQTIQAQNLEAAASFEHQPVYEAFETAKFEWKRIKQDI
LSVKTRMAQMIGAYQESLKKAEQLNEKIGFEKREADRIESIISELQSSMDSSLNMFKEAFQNQSVDEAEKWQQAIEEKDR
AAEECEKRIEKSIAFLAEHEAQKEKLRELGHRLEREKLELHYAAERIKSVIADYEHELGDYAKGDSIQIKLRSVQQDLKL
LKEKEQSLYEELQSAQMKLNQAKSRASASELTLQEAKGRLEKAKAAWLEHTKNTSITRTEEVEQSLIPADELEKMKTGID
QFMDKLKQNAANLKRVAEILAGRALSESEWNETVAALQEAEDAFGAAIEEKGAAAKALAVIRDHHKRFNEIEAELKKWQT
HIDRLDKLQAVFKGNTFVEFLAEEQLESVARDASARLSMLTRQRYAIEVDSEGGFVMRDDVNGGVRRPVSSLSGGETFLT
SLSLALALSAQIQLRGEYPLQFFFLDEGFGTLDQDLLDTVVTALEKLQSDNLAVGVISHVQELRARLPKKLIVHPAEPSG
RGTRVSLELM

Nucleotide


Download         Length: 3393 bp        

>NTDB_id=548930 LRO88_RS06260 WP_159376758.1 1189702..1193094(+) (sbcC) [Bacillus subtilis strain NIB353]
ATGAAGCCGATCGCCTTAAGCATTAAGGGGCTCCACAGCTTTAGAGAGGAGCAGACGATAGATTTTGAAGGCCTTTCCGG
TGCTGGTGTTTTCGGCATTTTCGGCCCGACAGGAAGCGGTAAATCCTCTATTCTCGACGCAATGACGCTTGCTTTATACG
GAAAGGTGGAACGGGCGGCGAATAATACGCACGGTATCTTAAACCAGGCGGAAGATACGCTGTCTGTTTCCTTTACCTTT
GCGCTTCAGACGAATCACCAAATCTCATACAAAGTCGAGCGTGTGTTTAAGAGAACGGATGAAATGAAGGTAAAAACGGC
ACTTTGCCGCTTCATCGAAATCAAGGACGAGCATACGGTGCTGGCTGATAAAGCCAGCGAAGTGAATAAAAGAGTTGAGG
AGCTCTTAGGGCTGACGATCGACGATTTTACGAGAGCGGTGGTGCTGCCCCAAGGGAAATTTGCTGAATTTCTGTCTTTA
AAAGGGGCAGAGCGCAGGCATATGCTTCAGCGTTTATTTAATTTGGAGCAATATGGAGACAGGCTTGTGAAAAAGCTGAG
ACGGCAGGCGCAGGAAGCCAATGCGAGAAAAAATGAAATGCTTGCTGAACAGTCCGGTCTCGGTGAGGCGAGCTCAGAGG
CAGTTGAGCAGGCTGAAAAGGCTCTCGAACAAGCTGAAGCCCGGCTGGAAGCGATGAGGAAGAACCGTGATCAGGCGAAG
GAGCGGTTTACAGAGCATCAGGAGATATGGAATGTCCAAAAGGAAAAATCCGCTTATGAAGAAGAGGAAAAACGTCTCGC
AGAAGAACAGCCGCATATAGACAGCATGCAAAAACGCCTGCTGGAAGCAGAAACAGCAGCAGCTCTTAAGCCCTATGCGG
ACCGGTACGCAGAAGCGATCCAGCATGAGGAACAAGCTGAAAAGGAACAAACGCTAGCCCAAAAGGATTTAGCAGACCGG
ACAGCTTTCTTTCAGCAAAAACATGAAGAGTATGAAGCGTGGCGCCAGCATAAAAGCGAGAAAGAGCCAGAGCTTTTAAC
TGAGCAGGAACAGCTTTCACGCTTGCAGGAAATCGAAATCAAACTGAGTGAGGCCAAGCAAGAGAAAGAGCGCAAAAAGA
CTGAACTCCAGCAGAAAGAAGAGGCTCTTCAATCTGTCATGAATGAATTGGAGACGGTAACAGACCGCCTGACGCGGGGA
CAAAACAGACAGACAGAATTGAAACAGCAGCTCAAATCCCTGCAGGTGACATCCAATGAGCGAAAAAGCTGCCATCAGGC
CGCAGAAATGGTATTGCGCATCAGACAAACCGAGGAGCAAATCAAAAAAGAGAAAAAACGAAGTGAAGAATTGAACCTCG
TGCTGCAGAAGATGAATGAAGAGAAGAATACACTCGTTCAAAAGACGGAAGCGGAAGAACACAACATCATTCAGGCATAT
GAGGCAGTTCAAACTGTGTATCATTTGGTGTGCGAAACGGAACGCTCATTAACACGTATGACGGAAGAGGCTAGAAAGAG
TCAACACACGCTTCACTTACAGCGTGAAAAAGCAAGGGTGGCACTGCTGACAAAAGAGTTAGCCCAAAAGCTGACTGCCG
GAAAGCCTTGCCCGGTATGCGGTTCAACCGATCATGATCCATCTGCCTCAGTACATGAAACATATGAAGCCGACAGCCAT
CTTGAAGAGGACATCAAACGGACAGATGTGTTATTGACGGAAGCTGCAGTTCTCAGCCAGGAGATTCTTTCAGCCAAAAT
TACGCTTGAAGAACAGTCCGCGCGCTTTATTGAACAGTGTCCGTTTTTGCAGACAATTCAAGCGCAGAACCTTGAAGCGG
CAGCTTCCTTCGAACATCAGCCGGTGTATGAAGCATTTGAAACTGCCAAATTCGAATGGAAACGAATCAAGCAGGACATT
CTTTCTGTTAAGACACGAATGGCACAAATGATCGGCGCCTATCAGGAGTCTTTAAAAAAGGCCGAGCAGCTTAATGAAAA
AATCGGTTTTGAAAAAAGAGAAGCTGACCGTATTGAAAGCATCATCAGCGAGCTTCAATCCTCAATGGACAGCAGTCTGA
ACATGTTTAAAGAAGCATTTCAGAATCAATCTGTGGACGAAGCAGAAAAATGGCAGCAAGCCATTGAAGAAAAGGACCGG
GCTGCAGAAGAATGTGAAAAACGAATTGAGAAGAGTATCGCGTTTCTTGCTGAGCATGAAGCACAAAAGGAAAAACTGCG
GGAATTGGGACACCGGCTTGAGCGGGAAAAGCTGGAGCTTCATTATGCGGCTGAACGCATCAAGAGCGTGATAGCTGATT
ATGAGCACGAACTCGGAGATTATGCAAAAGGAGATTCGATTCAAATCAAACTCCGCTCTGTCCAGCAGGATCTAAAGCTG
TTAAAGGAAAAAGAACAATCTTTATATGAAGAACTGCAAAGCGCCCAAATGAAGCTCAACCAGGCGAAAAGCCGCGCTTC
GGCAAGCGAGCTCACTCTTCAAGAGGCGAAGGGCAGATTGGAAAAAGCAAAAGCTGCTTGGCTTGAGCATACAAAAAACA
CCTCCATTACCCGGACTGAGGAGGTTGAACAAAGTCTCATCCCAGCCGATGAACTTGAAAAGATGAAAACCGGCATAGAC
CAGTTTATGGATAAACTGAAGCAAAATGCTGCAAACTTAAAACGAGTAGCAGAGATACTTGCCGGCAGAGCATTATCAGA
GAGCGAATGGAACGAAACCGTTGCAGCATTACAAGAAGCTGAGGACGCATTTGGCGCTGCTATAGAGGAAAAAGGCGCGG
CCGCAAAAGCACTGGCTGTCATTCGCGACCATCATAAACGGTTTAATGAAATTGAAGCTGAACTGAAAAAATGGCAGACG
CATATCGACAGGCTGGATAAGCTGCAAGCTGTGTTTAAAGGCAATACCTTCGTCGAATTTTTAGCTGAGGAGCAGCTTGA
AAGCGTTGCGAGGGACGCCTCAGCAAGACTCAGTATGCTGACAAGACAGCGCTATGCCATCGAAGTAGATTCAGAAGGCG
GCTTCGTGATGCGGGATGACGTGAATGGAGGCGTAAGACGCCCGGTTTCCAGTTTGTCTGGAGGAGAGACCTTCCTCACC
TCGCTTTCACTTGCTCTTGCGCTGTCTGCGCAGATCCAGCTTCGCGGGGAATACCCGCTTCAGTTCTTTTTCTTAGACGA
AGGCTTCGGCACACTGGATCAAGATCTGCTTGATACGGTTGTAACGGCCTTGGAAAAACTTCAGTCAGACAATCTGGCTG
TCGGTGTCATCAGCCATGTGCAGGAACTGCGTGCACGGCTTCCGAAAAAGCTGATTGTCCATCCGGCTGAACCGAGCGGC
CGCGGTACGCGGGTATCACTTGAGTTGATGTAA


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
  sbcC Bacillus subtilis subsp. subtilis str. 168

98.407

100

0.984