Detailed information    

insolico Bioinformatically predicted

Overview


Name   sbcC   Type   Machinery gene
Locus tag   IRJ22_RS01545 Genome accession   NZ_CP064092
Coordinates   296827..300219 (+) Length   1130 a.a.
NCBI ID   WP_161658292.1    Uniprot ID   -
Organism   Bacillus licheniformis strain C5     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 291827..305219
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  IRJ22_RS01535 addA 291891..295583 (+) 3693 WP_003180429.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  IRJ22_RS01540 sbcD 295649..296830 (+) 1182 WP_003180431.1 exonuclease subunit SbcD -
  IRJ22_RS01545 sbcC 296827..300219 (+) 3393 WP_161658292.1 exonuclease subunit SbcC Machinery gene
  IRJ22_RS01550 - 300264..300482 (-) 219 WP_016885923.1 spore germination protein -
  IRJ22_RS01555 - 300538..300921 (-) 384 WP_003180437.1 spore germination protein GerPE -
  IRJ22_RS01560 - 300918..301100 (-) 183 WP_003180439.1 hypothetical protein -
  IRJ22_RS01565 - 301097..301702 (-) 606 WP_003180441.1 spore germination protein GerPC -
  IRJ22_RS01570 - 301723..301965 (-) 243 WP_003180443.1 spore germination protein GerPB -
  IRJ22_RS01575 - 301977..302198 (-) 222 WP_003180445.1 spore germination protein -
  IRJ22_RS01580 - 302380..302673 (+) 294 WP_003180447.1 DUF3784 domain-containing protein -
  IRJ22_RS01585 - 302755..302934 (-) 180 WP_011197747.1 aspartyl-phosphate phosphatase Spo0E family protein -
  IRJ22_RS01590 - 303101..304174 (-) 1074 WP_016886397.1 CotH kinase family protein -
  IRJ22_RS01595 cotG 304340..304810 (+) 471 WP_003180451.1 spore coat protein CotG -

Sequence


Protein


Download         Length: 1130 a.a.        Molecular weight: 129088.78 Da        Isoelectric Point: 5.3850

>NTDB_id=441530 IRJ22_RS01545 WP_161658292.1 296827..300219(+) (sbcC) [Bacillus licheniformis strain C5]
MKPISLSIKGLHSFRQEQVIDFERLCDAGVFGIFGPTGSGKSSILDAMTLALYGKVERAANNTHGILNHAEDELAVSFTF
KLQTGHETAYKVERVFKRTDAVKVKTSICRFIEMKEEQIVLADKANEVNRKIEELLGLTIDDFTRAVVLPQGKFAEFLSL
KGAERRQMLQRLFNLEQYGDRLVKKLKKQAQTAQSRKNEMLAEQAGLGDAGEEALKLAEQHLEEAETLLQSKRRERDAEA
QRFAEYQEIWNLQQEKESYLKKEAELLKKKEQIREKESRLHLAETANTLKPYADAFLAAREDAERALREEKQAREQLEQY
EELHKKTECEYENFRRHKNEKEPELLKQEEQLTALKEIENKRLAAQAEAEKKQREQRLKEEEIKHAADELAKVKSLLERG
TAKQNQLKAELKSVQVSSEERKNCRKANQLAFHIQQLNSDAALEKKRLDQQEALIKELRQEQQAVDQKVKDETERIEALF
AAVERAYALVCETDRSLSETVRLATQKKEEIVAKRKQANRDQLAIELAKQLKEGEPCPVCGSVHHEMPAGVGTESPSFKE
TESELEKTEAIIAEAGALAQEFLSAKVALEQQSGHLMSECPFLVKSKHELPETAASLEEGTIPERFSRISFEWKGIRQDL
AETKSRMSKLLHTYKELCKKRDQISERLSHEEKEQNRLQNRVRELNDELNERQKSFGEQFGGLSYEQAEKWQKTIEEKDL
AAEEFEKRIETSVEFLTEHEQQKEKLTERLFALDKEKLDLHYAVESLKKDINDYQKELTGYPDTAAIDEKLQDVKTQLAK
LHEQEQTLYGRLKETESEVSRLRGQTKGCELALREAEARLAKAADIWQEKAGGTPFEKASEVKASILDRDELSRLKEDIQ
LYWDHTKQCESNIKRITEKLDGRSVSEENWEKAAVTKDQAEEAFSKALEERGAAGKALAVIRENHKRFKELETSLAEWQT
YIDRLDKLQAVFKGNSFVEYLAEEQLESVTRDASARLGELTRQRYAIEVDSEGGFVMRDDANGGVKRPVTSLSGGETFLT
SLALALALSAQIQLRGEYPLQFFFLDEGFGTLDQDLLDTVVTALEKLQSDNLSVGVISHVQELRARLPKKLIVHPAEPSG
KGTAVSLEMI

Nucleotide


Download         Length: 3393 bp        

>NTDB_id=441530 IRJ22_RS01545 WP_161658292.1 296827..300219(+) (sbcC) [Bacillus licheniformis strain C5]
ATGAAGCCGATTTCTCTGTCTATTAAGGGGCTGCACAGTTTCAGGCAGGAGCAGGTGATCGATTTTGAGCGCCTGTGCGA
TGCCGGTGTATTCGGTATCTTCGGGCCGACCGGAAGCGGCAAGTCGTCGATTCTTGACGCGATGACTCTCGCTTTGTACG
GGAAGGTGGAGCGGGCCGCCAATAATACGCACGGTATTTTGAATCATGCCGAAGATGAGCTTGCCGTATCGTTTACGTTT
AAGCTGCAGACAGGCCATGAGACGGCTTATAAAGTGGAACGGGTCTTTAAGCGGACAGATGCCGTCAAGGTCAAAACATC
GATCTGCCGCTTCATTGAAATGAAAGAGGAACAAATCGTTCTGGCCGATAAAGCGAATGAAGTAAACCGGAAAATCGAAG
AGCTGCTGGGCTTGACGATCGACGATTTTACAAGGGCAGTCGTCCTGCCGCAAGGTAAATTCGCCGAATTTCTTTCCTTA
AAAGGAGCGGAGCGGCGGCAGATGCTTCAGCGCCTGTTCAACCTTGAACAATACGGGGACAGGCTCGTCAAAAAACTAAA
GAAACAGGCGCAAACAGCTCAGTCCAGAAAAAACGAGATGCTTGCCGAGCAGGCTGGATTGGGCGATGCGGGGGAAGAGG
CGCTGAAGCTGGCGGAACAGCATCTCGAAGAAGCCGAAACCCTTTTGCAAAGCAAGAGGCGCGAACGAGATGCGGAAGCG
CAGCGCTTTGCGGAGTACCAGGAAATTTGGAATCTGCAGCAAGAAAAAGAAAGCTATCTAAAAAAAGAGGCGGAGCTTTT
AAAGAAAAAGGAACAGATCCGGGAAAAAGAAAGCCGCCTGCATCTCGCTGAAACGGCAAATACGCTCAAGCCTTATGCAG
ACGCCTTTCTGGCAGCGCGGGAAGATGCCGAGCGCGCACTTCGGGAAGAAAAACAAGCGCGGGAACAATTAGAACAATAC
GAAGAGCTTCATAAAAAAACAGAGTGCGAGTACGAGAATTTCAGGCGTCATAAAAATGAAAAAGAACCGGAGCTTCTCAA
GCAAGAAGAACAGCTCACCGCTTTGAAGGAAATTGAAAACAAGCGGCTTGCCGCACAGGCAGAAGCTGAGAAAAAGCAGC
GGGAACAGCGCTTGAAAGAAGAGGAAATCAAGCATGCGGCAGACGAACTGGCCAAGGTGAAAAGCCTGCTTGAACGCGGG
ACAGCCAAGCAAAATCAGCTGAAAGCGGAGCTGAAATCTGTCCAGGTATCCAGCGAAGAGCGCAAAAACTGCCGGAAGGC
CAATCAGCTTGCTTTTCACATTCAGCAGCTTAACAGCGATGCCGCTTTAGAAAAAAAACGGCTCGATCAGCAGGAGGCGC
TGATCAAAGAGCTCCGGCAAGAACAGCAAGCGGTGGATCAGAAGGTGAAGGATGAAACCGAACGCATCGAGGCATTGTTT
GCCGCTGTCGAACGAGCGTATGCGCTCGTTTGCGAAACGGACAGATCGCTCTCTGAGACCGTCCGTCTCGCGACTCAAAA
GAAAGAAGAGATTGTCGCAAAACGGAAACAGGCAAACCGTGATCAGCTGGCAATCGAACTGGCAAAGCAGCTCAAAGAGG
GTGAGCCTTGTCCGGTCTGCGGGTCTGTACATCATGAAATGCCCGCGGGTGTCGGTACGGAAAGCCCGTCCTTTAAAGAG
ACGGAATCCGAACTGGAGAAAACGGAAGCCATCATCGCAGAAGCCGGCGCGCTGGCTCAGGAGTTTCTCTCAGCCAAAGT
GGCGCTCGAACAGCAGTCCGGCCACCTGATGAGCGAATGCCCGTTTTTAGTCAAAAGCAAACACGAACTGCCTGAAACTG
CTGCATCGCTAGAAGAAGGCACCATTCCCGAACGGTTCAGCCGCATCAGCTTTGAATGGAAAGGAATCAGACAGGATCTC
GCCGAGACAAAAAGCCGGATGTCAAAGCTCCTTCACACATATAAAGAGCTCTGCAAAAAACGCGACCAAATCAGCGAACG
CCTCAGCCATGAAGAAAAAGAGCAAAACAGGCTTCAAAACCGCGTCCGCGAATTGAATGACGAGTTAAATGAACGCCAAA
AAAGCTTCGGCGAACAATTCGGCGGCCTCTCTTATGAACAGGCTGAAAAATGGCAAAAAACGATTGAAGAAAAAGATCTG
GCCGCAGAGGAATTCGAAAAGCGAATCGAAACGAGCGTCGAATTTCTCACGGAACATGAACAGCAAAAAGAGAAGCTCAC
CGAGCGCTTGTTTGCGCTTGATAAAGAAAAGCTTGACCTTCATTATGCGGTCGAAAGCCTCAAAAAAGACATAAACGATT
ATCAAAAAGAGCTGACGGGCTATCCCGATACAGCTGCTATCGACGAAAAGCTTCAAGACGTGAAAACGCAGTTGGCCAAG
CTGCATGAGCAGGAACAGACGCTTTACGGACGGCTCAAGGAGACCGAATCCGAAGTCAGCCGTTTAAGAGGACAGACTAA
AGGGTGTGAGCTCGCTTTGCGCGAAGCGGAAGCAAGGCTTGCGAAAGCGGCGGACATCTGGCAGGAAAAAGCCGGAGGCA
CACCGTTCGAAAAGGCCTCTGAAGTGAAAGCGAGCATTTTGGACCGCGATGAGCTTTCCCGGCTGAAAGAAGACATTCAA
CTGTATTGGGATCACACAAAGCAGTGCGAGTCCAATATCAAGCGAATTACGGAAAAGCTTGACGGCAGATCTGTTTCTGA
AGAGAATTGGGAAAAAGCCGCAGTCACGAAGGACCAGGCGGAGGAGGCATTCAGCAAAGCTCTAGAGGAAAGGGGAGCGG
CCGGCAAAGCTCTCGCCGTCATCCGCGAGAACCATAAAAGGTTTAAGGAGCTTGAAACATCGTTGGCTGAATGGCAGACA
TACATCGACCGCCTTGATAAGCTCCAAGCCGTCTTTAAAGGAAACAGCTTTGTTGAATACTTGGCAGAAGAGCAGCTTGA
AAGCGTCACAAGAGACGCATCTGCAAGACTCGGAGAACTGACAAGGCAGCGGTATGCAATTGAAGTCGACTCAGAAGGCG
GCTTTGTGATGAGGGACGATGCCAACGGCGGAGTCAAGCGCCCTGTTACGAGTCTGTCAGGCGGGGAGACATTTCTGACT
TCGCTTGCGCTGGCGCTTGCACTCTCGGCGCAGATTCAGCTTCGCGGAGAGTATCCGCTCCAATTCTTCTTTTTGGACGA
AGGATTTGGCACGCTGGATCAGGATTTGCTGGATACGGTCGTGACTGCATTGGAGAAGCTTCAGTCTGACAATCTGTCGG
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

56.549

100

0.565