Detailed information    

insolico Bioinformatically predicted

Overview


Name   priA   Type   Machinery gene
Locus tag   ABXV02_RS13500 Genome accession   NZ_CP159912
Coordinates   2588488..2590905 (-) Length   805 a.a.
NCBI ID   WP_003232079.1    Uniprot ID   P94461
Organism   Bacillus subtilis strain PY79     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 2583488..2595905
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  ABXV02_RS13475 prpC 2583825..2584589 (-) 765 WP_003232064.1 protein-serine/threonine phosphatase PrpC -
  ABXV02_RS13480 rlmN 2584596..2585687 (-) 1092 WP_003232066.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN -
  ABXV02_RS13485 rsmB 2585691..2587034 (-) 1344 WP_003232068.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB -
  ABXV02_RS13490 fmt 2587021..2587974 (-) 954 WP_003232070.1 methionyl-tRNA formyltransferase -
  ABXV02_RS13495 def 2587979..2588461 (-) 483 WP_003232077.1 peptide deformylase -
  ABXV02_RS13500 priA 2588488..2590905 (-) 2418 WP_003232079.1 primosomal protein N' Machinery gene
  ABXV02_RS13505 coaBC 2590902..2592122 (-) 1221 WP_009967219.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC -
  ABXV02_RS13510 rpoZ 2592203..2592406 (-) 204 WP_003221520.1 DNA-directed RNA polymerase subunit omega -
  ABXV02_RS13515 gmk 2592410..2593024 (-) 615 WP_003232083.1 guanylate kinase -
  ABXV02_RS13520 remA 2593032..2593301 (-) 270 WP_003154355.1 extracellular matrix/biofilm regulator RemA -
  ABXV02_RS13525 endC 2593378..2594253 (-) 876 WP_009967215.1 YicC/YloC family endoribonuclease -

Sequence


Protein


Download         Length: 805 a.a.        Molecular weight: 91353.42 Da        Isoelectric Point: 8.4336

>NTDB_id=916003 ABXV02_RS13500 WP_003232079.1 2588488..2590905(-) (priA) [Bacillus subtilis strain PY79]
MNFAEVIVDVSTKNIDRPFDYKIPDHLKGMIKTGMRVIVPFGPRKIQGFVTAVKEASDLSGKSVKEVEDLLDLTPVLTEE
LMILSSWLSDKTLSFKITALQAMLPAALKAKYEKELKIAHGADLPPQVERLFSETKTLLYSDIPDHETLKLIQRHVQKGD
IDVTYKVAQKTNKKMVRHIQANASKEELAKQAEGLSRQAAKQQAILHFLISEPEGVKIPAAELCKKTDTSSATIKTLIQK
GLLKESYEEVYRDPYQDKMFKKTEPLPLTDEQRAAFEPIRETLDSDEHKVFLLHGVTGSGKTEIYLQSIEKVLAKGKEAI
VLVPEISLTPQMVNRFKGRFGSQVAVMHSGLSTGEKYDEWRKIHRKEVRLVVGARSAIFAPFENLGMIIIDEEHESSYKQ
EEMPRYHAKEVAIKRAEHHSCPVVLGSATPTLESYARAQKGVYELLSLKHRVNHRVMPEVSLVDMREELRNGNRSMFSVE
LMEKLEETIAKGEQAVLFLNKRGYSSFVMCRDCGYVPQCPHCDISMTYHRYGQRLKCHYCGHEEPVPHTCPECASEHIRF
FGTGTQRVEEELTKVLPSARVIRMDVDTTSRKGAHEKLLSAFGEGKADILLGTQMIAKGLDFPNVTLVGVLSADTTLHIP
DFRSAEKTFQLLTQVSGRAGRHEKPGHVIIQTYTPSHYSIQLTKTHDYETFYQHEMAHRREQSYPPYYYLALVTVSHEEV
AKAAVTAEKIAHFLKANCGADTKILGPSASPIARIKDRYRYQCVIKYKQETQLSALLKKILEHYKREIEQKHVMISIDMN
PYMMM

Nucleotide


Download         Length: 2418 bp        

>NTDB_id=916003 ABXV02_RS13500 WP_003232079.1 2588488..2590905(-) (priA) [Bacillus subtilis strain PY79]
ATGAATTTTGCAGAAGTCATCGTTGATGTCAGCACCAAAAATATAGACAGGCCTTTTGATTATAAAATCCCAGACCATCT
GAAGGGCATGATCAAAACGGGGATGCGGGTCATTGTTCCGTTTGGCCCCCGTAAGATTCAAGGGTTTGTGACAGCAGTCA
AAGAAGCATCTGACCTATCGGGAAAATCTGTCAAGGAAGTAGAGGATTTATTAGATCTTACACCTGTTCTGACAGAGGAG
CTTATGATTCTGTCATCATGGCTGTCAGACAAAACGCTGTCTTTTAAAATAACGGCGCTTCAAGCAATGCTGCCTGCCGC
CTTAAAGGCGAAATATGAAAAAGAATTAAAAATTGCACACGGAGCCGATCTTCCGCCGCAAGTGGAACGGCTGTTTTCTG
AAACAAAGACGCTGCTGTATTCAGATATACCCGATCATGAGACGCTGAAACTGATTCAAAGGCATGTTCAAAAAGGGGAC
ATTGACGTGACGTATAAAGTCGCGCAAAAAACCAATAAAAAAATGGTCAGGCATATTCAGGCAAATGCGAGTAAAGAAGA
GCTTGCTAAGCAGGCTGAGGGATTGTCCCGCCAAGCAGCAAAACAGCAGGCGATTCTTCACTTTCTCATCTCTGAGCCGG
AAGGTGTGAAAATTCCTGCGGCGGAATTGTGCAAAAAAACGGACACGAGCTCTGCAACCATCAAAACCCTTATCCAAAAA
GGGCTTTTGAAGGAAAGCTATGAAGAGGTTTACAGAGATCCCTATCAGGACAAAATGTTCAAAAAAACAGAGCCCCTGCC
GCTGACAGACGAACAGAGGGCTGCCTTCGAGCCCATACGCGAGACATTGGACAGCGATGAGCATAAAGTGTTCCTCCTTC
ACGGCGTGACAGGAAGCGGAAAAACCGAAATTTATCTGCAATCAATTGAAAAAGTACTGGCGAAAGGAAAAGAAGCCATC
GTCCTCGTACCGGAAATATCGCTGACGCCGCAAATGGTCAACCGCTTCAAGGGCCGCTTCGGCTCCCAGGTGGCAGTCAT
GCACAGCGGTTTATCCACAGGAGAAAAATATGACGAGTGGCGTAAAATCCACCGGAAGGAAGTACGGCTTGTCGTCGGTG
CCAGATCCGCCATTTTTGCTCCGTTTGAAAATCTCGGAATGATAATCATCGATGAAGAGCACGAGTCTTCCTATAAACAG
GAAGAAATGCCGCGCTATCATGCGAAAGAGGTGGCAATCAAGCGGGCTGAGCATCACAGCTGCCCGGTTGTATTAGGGAG
TGCTACGCCGACATTAGAATCATATGCTAGAGCGCAAAAGGGCGTATACGAGCTTCTTTCACTGAAGCACCGTGTTAACC
ATCGGGTGATGCCCGAGGTTTCGCTTGTCGATATGAGAGAGGAGCTTAGAAACGGCAATCGCTCGATGTTTTCAGTTGAA
TTGATGGAAAAGCTTGAAGAAACGATTGCCAAGGGTGAGCAGGCGGTGCTGTTTTTAAATAAGAGGGGCTACTCTTCCTT
TGTGATGTGCAGGGATTGCGGCTATGTCCCGCAATGCCCGCACTGCGACATTTCCATGACGTATCATCGTTACGGCCAAA
GGCTGAAATGCCATTATTGCGGACATGAAGAGCCTGTTCCGCACACTTGTCCTGAATGCGCAAGCGAGCATATCCGCTTT
TTCGGAACGGGAACACAGCGAGTGGAGGAAGAGCTGACAAAAGTGCTGCCAAGTGCGAGAGTGATTCGGATGGATGTTGA
CACGACATCACGGAAAGGCGCCCATGAAAAATTACTGTCAGCTTTCGGAGAAGGAAAAGCGGATATTCTTCTCGGAACGC
AAATGATCGCGAAAGGGCTTGATTTTCCGAATGTCACGCTTGTCGGAGTGTTAAGTGCTGATACAACACTTCATATTCCT
GATTTCAGATCGGCTGAAAAAACATTTCAGCTGTTAACGCAAGTCAGCGGCCGGGCAGGCAGGCATGAAAAGCCCGGCCA
TGTCATCATTCAAACGTATACACCGTCTCATTACAGTATCCAGCTGACGAAAACACACGATTATGAAACGTTCTATCAGC
ATGAAATGGCGCACAGGAGAGAGCAATCCTATCCGCCATACTACTATTTGGCTCTTGTGACTGTTTCTCATGAGGAAGTG
GCGAAAGCAGCGGTTACAGCTGAAAAAATCGCTCATTTTTTGAAAGCAAACTGCGGAGCTGACACGAAAATTCTCGGACC
AAGCGCGTCGCCGATAGCCAGGATCAAAGATAGATATCGCTATCAATGCGTGATAAAATACAAACAGGAAACCCAGTTAT
CCGCTTTATTGAAGAAGATACTGGAACATTATAAACGCGAAATTGAACAAAAACATGTAATGATTTCAATTGATATGAAT
CCTTATATGATGATGTAA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB P94461

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
  priA Bacillus subtilis subsp. subtilis str. 168

100

100

1