Detailed information    

insolico Bioinformatically predicted

Overview


Name   sbcC   Type   Machinery gene
Locus tag   CG450_RS16355 Genome accession   NZ_CP022477
Coordinates   3083539..3086931 (-) Length   1130 a.a.
NCBI ID   WP_075218352.1    Uniprot ID   -
Organism   Bacillus licheniformis strain BL-010     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 3078539..3091931
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  CG450_RS16305 cotG 3078888..3079391 (-) 504 WP_023856614.1 spore coat protein CotG -
  CG450_RS16310 - 3079557..3080642 (+) 1086 WP_025811689.1 CotH kinase family protein -
  CG450_RS16315 - 3080805..3080987 (+) 183 WP_020450876.1 aspartyl-phosphate phosphatase Spo0E family protein -
  CG450_RS16320 - 3081070..3081363 (-) 294 WP_020450875.1 DUF3784 domain-containing protein -
  CG450_RS16325 - 3081549..3081770 (+) 222 WP_020450874.1 spore germination protein -
  CG450_RS16330 - 3081783..3082028 (+) 246 WP_020450873.1 spore germination protein GerPB -
  CG450_RS16335 - 3082047..3082661 (+) 615 WP_026579927.1 spore germination protein GerPC -
  CG450_RS16340 - 3082658..3082840 (+) 183 WP_003180439.1 hypothetical protein -
  CG450_RS16345 - 3082837..3083220 (+) 384 WP_003180437.1 spore germination protein GerPE -
  CG450_RS16350 - 3083276..3083494 (+) 219 WP_009328895.1 spore germination protein -
  CG450_RS16355 sbcC 3083539..3086931 (-) 3393 WP_075218352.1 exonuclease subunit SbcC Machinery gene
  CG450_RS16360 sbcD 3086928..3088109 (-) 1182 WP_073426309.1 exonuclease subunit SbcD -
  CG450_RS16365 addA 3088174..3091866 (-) 3693 WP_011197743.1 helicase-exonuclease AddAB subunit AddA Machinery gene

Sequence


Protein


Download         Length: 1130 a.a.        Molecular weight: 129032.88 Da        Isoelectric Point: 5.6224

>NTDB_id=201032 CG450_RS16355 WP_075218352.1 3083539..3086931(-) (sbcC) [Bacillus licheniformis strain BL-010]
MKPISLSIKGLHSFRQEQVIDFERLCDAGVFGIFGPTGSGKSSILDAMTLALYGKVERAANNTHGILNHAEDELAVSFTF
KLQTGHETAYKVERVFKRTDAVKVKTSICRFIEMKEEQIVLADKANEVNRKIEELLGLTIDDFTRAVVLPQGKFAEFLSL
KGAERRQMLQRLFNLEQYGDRLVKKLKKQAQTAQSRKNEMLAEQAGLGDAGEEALKLAEQHLEEAETLLQSKRRERDAEA
QRFAEYQEIWNLQQEKESYLKKEAELLKKKEQIREKESRLHLAETANTLKPYADAFLAAREDAERALREEKQAREQLEQY
EELHKKTECEYENFRRHKNEKEPELLKQEEQLTALKEIENKRLAAQAEAEKKQREQRLKEEEIKHAADELAKVKSLLERG
TAKQNQLKAELKSVQVSSEERKNCRKANQLAFHIQQLNSDAALEKKRLDQQEALIKELRQEQQAVDQKVKDETERIQALF
AAVERAYALVCETDRSLSETVRLATQKKEEIVAKREQANRDQLAIELAKQLKEGEPCPVCGSVHHEMPAGVGTESPSFKE
TESELEKTEAIIAEAGALAQEFLSAKVALEQQSGHLMSECPFLVKSKHELPETAASIEEGTIPERYNRISFEWKGIRQDL
AETKSRMSKLLHTYKELCKKRDQISERLSHEEKERNRLQNRVGELNDQLNERRKSFGEQFDGLSYEQAEKWQKTIEEKDL
AAEEFEKRIETSVGFLTKHEQQKEKLTERLFALDKEKLDLRYAVESLNKEINDYQKELMGYPDTAAIDKKLQDVKTQLAK
LHEQEQTLYGRLKETESEVSRLRGQTKGCELALREAEARLAKAADIWQEKSGGTPFEKASEVKASILDRDDLARLKEDIQ
MHWDQTKQCESNIKRITEKLDGRSVSEESWEKAAVTKDKAEEAFSKALEERGAAGKALAVIRENHKRFKELEASLAEWQT
YIDRLDKLQAVFKGNSFVEYLAEEQLESVTRDASARLGELTRQRYAIEVDSEGGFVMRDDANGGVKRPVTSLSGGETFLT
SLALALALSAQIQLRGEYPLQFFFLDEGFGTLDQDLLDTVVTALEKLQSDNLSVGVISHVQELRARLPKKLIVHPAEPSG
KGTAVSLEMI

Nucleotide


Download         Length: 3393 bp        

>NTDB_id=201032 CG450_RS16355 WP_075218352.1 3083539..3086931(-) (sbcC) [Bacillus licheniformis strain BL-010]
ATGAAGCCGATTTCTCTGTCTATTAAGGGCCTGCACAGTTTCAGGCAGGAGCAGGTGATCGATTTTGAGCGCCTGTGCGA
TGCCGGTGTATTCGGCATCTTCGGGCCGACCGGAAGCGGCAAGTCGTCGATTCTTGATGCGATGACTCTTGCTTTGTACG
GGAAAGTGGAGCGGGCCGCCAATAATACGCACGGCATTTTGAACCATGCCGAAGATGAGCTTGCCGTATCGTTTACGTTT
AAGCTGCAGACAGGCCATGAGACGGCTTATAAAGTGGAACGGGTCTTTAAGCGGACAGACGCCGTCAAGGTCAAAACGTC
GATATGCCGCTTTATTGAAATGAAAGAGGAACAAATCGTCCTGGCCGATAAAGCGAATGAAGTAAACCGAAAAATCGAAG
AGCTGCTGGGCTTGACGATCGACGATTTTACAAGGGCAGTCGTCCTGCCGCAAGGAAAATTCGCCGAATTTCTTTCCTTG
AAAGGAGCGGAGCGAAGGCAGATGCTTCAGCGCCTGTTCAACCTTGAACAATACGGGGACAGGCTCGTCAAAAAACTAAA
GAAACAGGCGCAAACAGCTCAGTCCAGAAAAAACGAGATGCTTGCCGAGCAGGCTGGATTGGGCGATGCGGGGGAAGAGG
CGCTGAAGCTGGCGGAACAGCATCTCGAAGAAGCCGAAACCCTTTTGCAAAGCAAGAGGCGCGAACGAGATGCGGAAGCG
CAGCGCTTTGCGGAGTACCAGGAAATTTGGAATCTGCAGCAAGAAAAAGAAAGCTATCTAAAAAAAGAGGCGGAGCTTTT
AAAGAAAAAGGAACAGATCCGGGAAAAAGAAAGCCGCCTGCATCTCGCTGAAACGGCAAATACGCTCAAGCCTTATGCAG
ACGCCTTTCTGGCAGCGCGGGAAGATGCCGAGCGCGCACTTCGGGAAGAAAAACAAGCGCGGGAACAATTAGAACAATAC
GAAGAGCTTCATAAAAAAACAGAGTGCGAGTACGAGAATTTCAGGCGTCATAAAAATGAAAAAGAACCGGAGCTTCTCAA
GCAAGAAGAACAGCTCACCGCTTTGAAGGAAATTGAAAACAAGCGGCTTGCCGCACAGGCAGAAGCTGAGAAAAAGCAGC
GGGAACAGCGCTTGAAAGAAGAGGAAATCAAGCATGCGGCAGACGAACTGGCCAAGGTGAAAAGCCTGCTTGAACGCGGG
ACAGCCAAGCAAAATCAGCTGAAAGCGGAGCTGAAATCTGTCCAGGTATCCAGCGAAGAGCGCAAAAACTGCCGGAAGGC
CAATCAGCTTGCTTTTCACATTCAGCAGCTTAACAGCGATGCCGCTTTAGAAAAAAAACGGCTCGATCAGCAGGAGGCGC
TGATCAAAGAGCTCCGGCAAGAACAGCAAGCGGTGGATCAGAAGGTGAAGGATGAAACCGAACGCATCCAGGCATTGTTT
GCCGCTGTCGAACGAGCGTATGCGCTCGTTTGCGAAACGGACAGATCGCTCTCTGAGACCGTCCGTCTCGCGACTCAAAA
GAAAGAAGAGATTGTCGCAAAACGGGAACAGGCAAACCGTGATCAGCTGGCAATCGAACTGGCAAAGCAGCTCAAAGAGG
GTGAGCCTTGTCCGGTCTGCGGGTCTGTACATCATGAAATGCCCGCGGGTGTCGGTACGGAAAGCCCGTCCTTTAAAGAG
ACGGAATCCGAACTGGAGAAAACGGAAGCCATCATCGCAGAAGCCGGCGCGCTGGCTCAGGAGTTTCTCTCAGCCAAAGT
GGCGCTCGAACAGCAGTCCGGCCACCTGATGAGCGAATGCCCGTTTTTAGTCAAGAGCAAACATGAACTGCCTGAAACCG
CTGCATCGATAGAAGAAGGCACCATTCCCGAACGGTACAACCGCATCAGCTTTGAATGGAAAGGAATCAGACAGGATCTC
GCAGAGACAAAAAGCAGGATGTCCAAGCTCCTTCACACATATAAAGAGCTCTGCAAGAAACGCGACCAAATCAGCGAGCG
ACTCAGCCATGAAGAAAAGGAGCGTAACAGGCTTCAAAACCGCGTCGGCGAATTAAATGACCAGTTAAATGAACGCCGAA
AAAGCTTCGGCGAACAATTCGACGGCCTCTCTTATGAACAGGCTGAAAAATGGCAAAAAACGATTGAAGAAAAAGATCTG
GCCGCAGAGGAATTCGAAAAGCGTATCGAAACGAGCGTCGGCTTTCTCACAAAACATGAACAGCAAAAAGAGAAGCTCAC
CGAGCGCTTGTTTGCGCTTGATAAAGAAAAGCTCGACCTCCGCTATGCTGTCGAAAGCCTTAATAAAGAAATAAACGATT
ATCAAAAAGAGCTGATGGGCTATCCCGATACAGCTGCAATCGACAAAAAGCTTCAAGACGTGAAAACGCAATTGGCCAAG
CTGCATGAGCAGGAACAGACGCTTTACGGACGGCTCAAGGAGACCGAATCCGAAGTCAGCCGTTTAAGAGGACAGACAAA
AGGGTGTGAGCTCGCTTTGCGTGAAGCGGAAGCAAGGCTTGCGAAAGCGGCGGACATCTGGCAGGAAAAATCCGGAGGTA
CACCGTTTGAAAAGGCCTCTGAAGTGAAAGCGAGCATTTTAGACCGCGATGATCTTGCCCGGCTGAAAGAAGACATTCAA
ATGCATTGGGATCAGACAAAACAGTGCGAGTCCAATATCAAGCGGATTACGGAAAAGCTTGATGGGAGATCGGTTTCTGA
GGAGAGTTGGGAAAAAGCCGCCGTCACGAAGGACAAAGCTGAGGAGGCATTCAGCAAAGCCTTGGAAGAAAGGGGCGCGG
CCGGCAAAGCTCTCGCCGTCATCCGCGAGAACCATAAAAGGTTTAAGGAACTTGAAGCATCATTGGCTGAATGGCAGACA
TACATCGACCGTCTTGATAAACTCCAAGCCGTCTTTAAAGGAAACAGCTTTGTTGAATACTTGGCAGAAGAGCAGCTTGA
AAGCGTCACAAGAGACGCATCTGCAAGACTCGGCGAACTGACAAGACAGAGGTATGCGATTGAAGTCGACTCAGAAGGCG
GTTTTGTGATGAGGGACGATGCCAACGGCGGAGTCAAGCGCCCTGTTACGAGTCTGTCAGGTGGGGAGACGTTTCTGACT
TCACTGGCGCTTGCGCTTGCACTTTCGGCACAGATCCAGCTTCGCGGAGAGTATCCGCTCCAATTCTTCTTTTTGGACGA
AGGGTTTGGCACGCTTGATCAGGATTTGCTGGATACGGTCGTGACCGCATTGGAGAAGCTTCAGTCTGACAATCTGTCGG
TCGGTGTGATCAGCCACGTTCAGGAACTTCGGGCCAGGCTGCCGAAGAAGCTGATTGTCCATCCGGCTGAACCGAGCGGC
AAAGGCACAGCTGTATCGCTTGAAATGATTTAA


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

56.283

100

0.563


Multiple sequence alignment