Detailed information    

insolico Bioinformatically predicted

Overview


Name   mutS/mutS2   Type   Machinery gene
Locus tag   GII90_RS14325 Genome accession   NZ_CP045811
Coordinates   2768480..2770837 (-) Length   785 a.a.
NCBI ID   WP_003229541.1    Uniprot ID   P94545
Organism   Bacillus subtilis strain P9_B1     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 2763480..2775837
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  GII90_RS14300 (GII90_14300) etfB 2763922..2764695 (-) 774 WP_004398765.1 electron transfer flavoprotein subunit beta -
  GII90_RS14305 (GII90_14305) fadB 2764710..2765486 (-) 777 WP_003229549.1 enoyl-CoA hydratase -
  GII90_RS14310 (GII90_14310) fadR 2765501..2766085 (-) 585 WP_003229547.1 fatty acid metabolism transcriptional regulator FadR -
  GII90_RS14315 (GII90_14315) lcfA 2766190..2767872 (-) 1683 WP_004399166.1 long-chain-fatty-acid--CoA ligase LcfA -
  GII90_RS14320 (GII90_14320) yshE 2768061..2768465 (-) 405 WP_003237674.1 DUF350 domain-containing protein -
  GII90_RS14325 (GII90_14325) mutS/mutS2 2768480..2770837 (-) 2358 WP_003229541.1 endonuclease MutS2 Machinery gene
  GII90_RS14330 (GII90_14330) polX 2770858..2772570 (-) 1713 WP_003229538.1 DNA polymerase/3'-5' exonuclease PolX -
  GII90_RS14335 (GII90_14335) yshB 2772644..2773177 (-) 534 WP_003229537.1 CvpA family protein -
  GII90_RS14340 (GII90_14340) zapA 2773184..2773441 (-) 258 WP_003229534.1 cell division protein ZapA -
  GII90_RS14345 (GII90_14345) rnhC 2773575..2774516 (+) 942 WP_003245949.1 ribonuclease HIII -

Sequence


Protein


Download         Length: 785 a.a.        Molecular weight: 87416.81 Da        Isoelectric Point: 6.1361

>NTDB_id=346241 GII90_RS14325 WP_003229541.1 2768480..2770837(-) (mutS/mutS2) [Bacillus subtilis strain P9_B1]
MQQKVLSALEFHKVKEQVIGHAASSLGKEMLLELKPSASIDEIKKQLDEVDEASDIIRLRGQAPFGGLVDIRGALRRAEI
GSVLSPSEFTEISGLLYAVKQMKHFITQMAEDGVDIPLIHQHAEQLITLSDLERDINSCIDDHGEVLDHASETLRGIRTQ
LRTLESRVRDRLESMLRSSSASKMLSDTIVTIRNDRFVIPVKQEYRSSYGGIVHDTSSSGATLFIEPQAIVDMNNSLQQA
KVKEKQEIERILRVLTEKTAEYTEELFLDLQVLQTLDFIFAKARYAKAVKATKPIMNDTGFIRLKKARHPLLPPDQVVAN
DIELGRDFSTIVITGPNTGGKTVTLKTLGLLTLMAQSGLHIPADEGSEAAVFEHVFADIGDEQSIEQSLSTFSSHMVNIV
GILEQVNENSLVLFDELGAGTDPQEGAALAMSILDDVHRTNARVLATTHYPELKAYGYNREGVMNASVEFDIETLSPTYK
LLIGVPGRSNAFEISKRLGLPDHIIGQAKSEMTAEHNEVDTMIASLEQSKKRAEEELSETESIRKEAEKLHKELQQQIIE
LNSKKDKMLEEAEQQAAEKVKAAMKEAEDIIHELRTIKEEHKSFKDHELINAKKRLEGAMPAFEKSKKPEKPKTQKRDFK
PGDEVKVLTFGQKGTLLEKTGGNEWNVQIGILKMKVKEKDLEFIKSAPEPKKEKMITAVKGKDYHVSLELDLRGERYENA
LSRVEKYLDDAVLAGYPRVSIIHGKGTGALRKGVQDLLKNHRSVKSSRFGEAGEGGSGVTVVELK

Nucleotide


Download         Length: 2358 bp        

>NTDB_id=346241 GII90_RS14325 WP_003229541.1 2768480..2770837(-) (mutS/mutS2) [Bacillus subtilis strain P9_B1]
GTGCAGCAAAAAGTATTATCAGCTCTTGAATTTCATAAAGTGAAAGAACAGGTTATTGGGCATGCCGCTTCATCGCTCGG
AAAAGAAATGCTTCTCGAGCTTAAGCCTTCTGCTTCTATAGACGAAATCAAAAAACAGCTGGATGAAGTAGACGAAGCTT
CTGACATTATCCGGCTGAGAGGCCAAGCGCCATTTGGCGGCCTTGTAGATATCAGAGGAGCGTTAAGACGGGCGGAAATC
GGCAGCGTTCTCAGTCCTTCTGAATTCACTGAAATCTCAGGCCTGCTTTATGCAGTTAAACAAATGAAACATTTTATCAC
GCAAATGGCTGAAGACGGTGTCGACATTCCGCTGATCCATCAGCATGCTGAACAGCTTATCACGCTGTCCGATTTAGAGC
GGGACATTAATTCCTGCATTGATGATCACGGAGAAGTGCTTGATCATGCATCGGAAACATTAAGAGGAATCCGCACACAG
CTCAGAACACTCGAATCAAGAGTCAGAGACCGGTTAGAGTCGATGCTGCGTTCCTCTTCCGCATCGAAAATGCTGTCTGA
TACGATTGTTACGATTCGGAATGACCGCTTTGTGATCCCGGTCAAACAGGAGTACAGATCCAGCTATGGAGGAATTGTGC
ACGACACCTCATCCTCTGGTGCGACACTATTCATTGAACCGCAGGCGATTGTAGATATGAACAATTCCCTTCAGCAGGCG
AAAGTGAAAGAAAAGCAAGAAATTGAACGGATTTTGCGTGTGCTGACAGAGAAAACGGCAGAGTATACAGAGGAGCTATT
TCTAGATTTGCAAGTGCTGCAGACGCTTGACTTTATTTTTGCAAAAGCTAGATATGCAAAAGCGGTTAAAGCGACAAAAC
CGATTATGAACGACACCGGCTTTATCCGTTTGAAAAAAGCCCGCCATCCATTGCTTCCGCCTGATCAGGTTGTTGCCAAT
GACATCGAGCTTGGCCGCGATTTTTCAACCATTGTCATCACAGGGCCAAACACCGGGGGGAAAACAGTCACCCTTAAAAC
GTTAGGCCTGCTAACCTTAATGGCGCAGTCAGGTCTTCATATCCCGGCAGATGAAGGGTCAGAAGCGGCAGTATTTGAGC
ACGTATTCGCTGATATCGGTGATGAACAGTCGATTGAGCAAAGTTTAAGTACGTTCTCATCCCATATGGTGAATATTGTC
GGCATTTTAGAACAGGTCAATGAAAACAGCCTTGTGCTTTTCGATGAACTTGGTGCAGGGACAGATCCGCAGGAGGGGGC
GGCCCTCGCCATGAGCATCTTGGATGACGTGCATCGCACCAATGCACGAGTGTTAGCTACGACGCATTATCCGGAATTGA
AGGCGTACGGCTATAACAGAGAAGGCGTCATGAATGCCAGCGTTGAATTTGACATCGAAACGCTGTCACCGACCTATAAA
CTTTTAATTGGTGTGCCGGGTCGAAGCAATGCTTTCGAAATTTCAAAACGCCTCGGGCTCCCGGACCATATCATCGGGCA
GGCGAAGTCAGAAATGACGGCCGAGCATAACGAAGTCGATACGATGATTGCGTCGCTGGAACAAAGCAAAAAACGTGCGG
AAGAAGAGCTTTCTGAGACAGAATCAATCAGAAAAGAAGCGGAAAAACTGCATAAAGAGCTGCAGCAGCAAATCATCGAG
CTTAACAGCAAAAAAGACAAAATGCTTGAAGAGGCAGAACAGCAGGCTGCTGAAAAAGTAAAAGCGGCAATGAAAGAAGC
CGAGGACATTATTCATGAATTGCGCACCATAAAAGAAGAACACAAATCCTTCAAGGATCACGAGCTGATTAACGCGAAGA
AACGGTTAGAAGGCGCTATGCCTGCTTTTGAAAAGTCCAAGAAACCGGAAAAGCCGAAAACGCAAAAACGCGACTTTAAG
CCTGGCGACGAGGTGAAAGTCCTCACTTTCGGGCAAAAAGGAACATTGCTCGAAAAAACAGGCGGCAATGAATGGAACGT
TCAAATCGGTATTTTAAAGATGAAAGTAAAAGAAAAAGATCTGGAGTTTATCAAATCAGCTCCGGAGCCAAAAAAAGAAA
AAATGATTACAGCGGTCAAAGGAAAGGACTATCACGTATCGCTTGAACTTGATCTTCGCGGCGAACGCTATGAAAATGCC
CTCAGCCGGGTTGAAAAATACTTGGATGATGCGGTGTTAGCCGGATATCCAAGAGTGTCAATCATCCACGGAAAAGGAAC
CGGCGCTTTAAGAAAAGGCGTACAGGATCTTCTGAAAAACCACCGCAGCGTCAAAAGTTCCCGTTTCGGTGAAGCAGGTG
AGGGAGGATCAGGCGTTACGGTTGTTGAACTAAAATAA


Secondary structure


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



3D structure


Source ID Structure
  PDB 7QV3
  PDB 8QPP
  PDB 8R55

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
  mutS/mutS2 Bacillus subtilis subsp. subtilis str. 168

100

100

1


Multiple sequence alignment