Detailed information    

insolico Bioinformatically predicted

Overview


Name   mutS/mutS2   Type   Machinery gene
Locus tag   FTN78_RS06340 Genome accession   NZ_CP043523
Coordinates   1225848..1228178 (-) Length   776 a.a.
NCBI ID   WP_003129443.1    Uniprot ID   Q9CF36
Organism   Lactococcus lactis subsp. lactis bv. diacetylactis strain SD96     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1220848..1233178
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  FTN78_RS06310 (FTN78_chr1248) - 1221438..1222421 (-) 984 WP_010906073.1 LacI family DNA-binding transcriptional regulator -
  FTN78_RS06315 (FTN78_chr1249) purB 1222555..1223850 (-) 1296 WP_003129439.1 adenylosuccinate lyase -
  FTN78_RS06320 (FTN78_chr1250) aroD 1224047..1224727 (-) 681 WP_003129440.1 type I 3-dehydroquinate dehydratase -
  FTN78_RS06330 (FTN78_chr1252) - 1224990..1225193 (-) 204 WP_010906074.1 DUF2969 domain-containing protein -
  FTN78_RS06335 (FTN78_chr1253) trxA 1225437..1225751 (-) 315 WP_003129442.1 thioredoxin -
  FTN78_RS06340 (FTN78_chr1254) mutS/mutS2 1225848..1228178 (-) 2331 WP_003129443.1 endonuclease MutS2 Machinery gene
  FTN78_RS06345 (FTN78_chr1255) - 1228223..1228783 (-) 561 WP_003129445.1 CvpA family protein -
  FTN78_RS06350 (FTN78_chr1256) - 1228943..1229908 (-) 966 WP_003129446.1 NAD(P)/FAD-dependent oxidoreductase -
  FTN78_RS06355 (FTN78_chr1257) ccpA 1230046..1231044 (-) 999 WP_003129447.1 catabolite control protein A Regulator
  FTN78_RS06360 (FTN78_chr1258) - 1231259..1232347 (+) 1089 WP_010906076.1 Xaa-Pro peptidase family protein -

Sequence


Protein


Download         Length: 776 a.a.        Molecular weight: 87296.22 Da        Isoelectric Point: 6.9607

>NTDB_id=338022 FTN78_RS06340 WP_003129443.1 1225848..1228178(-) (mutS/mutS2) [Lactococcus lactis subsp. lactis bv. diacetylactis strain SD96]
MNKKILQILEYDKVKEQFMNALTTAQGQQELKDLKPLTDKEKIQLLFDEVADFRLLTQENGLLNLGKTNDLTEILRRLEL
EASLSGKEFVEIKKVIQLGINIQRFFDEAENVETPSLAITLEKLVDLSALVKKLEIFDNAGSLYDNASLELMHIRASIKS
HQSEIRKIMQEMLTKNLSSLSENVITIRNDRQVLPVKAENKNKIAGVVHDMSASGQTLYIEPNAVVSLNNKLNQKRIEER
QEITRIYRELASQLKPYSFDIRQNAWLIGHIDFVRAKYLYLAANKATLPELTTDKDITLFAARHPLIEAKIVVTNDIKFD
AGLNTIVITGPNTGGKTITLKTVGLLTILAQSGLPILAADGSRIHLFDDIFADIGDEQSIEQSLSTFSSHMTNIVHILAQ
ADENSLVLFDELGAGTDPKEGAALAIAILENLRERNVKTMASTHYPELKAYGVETQRVINASMEFNIDKMQPTYHLQLGV
PGRSNALEISRRLGLPETIISVASQQISDSEHDVNQMIEKLEEKTREVIESSRNIKKIERENQSLHKDLTKVYNQINRER
EFELEKAQKEAQEVVKKASLEAQEILKNLNDKAALKPHEIIAARKELEGLAPTIDFSKNKVLKKAKAQRGLKQGAEVNVT
SYGQRGKLIRLEKDGRWTVQMGSITTRLNEDEFEVIESPEQIQAKTKNVSKKVTSKVKAQLDLRGMRYEEAELELDNYID
QALLANLIQITIVHGIGTGVIREMVQKKLQKHRHIKSYEYAPINAGGSGATIAILK

Nucleotide


Download         Length: 2331 bp        

>NTDB_id=338022 FTN78_RS06340 WP_003129443.1 1225848..1228178(-) (mutS/mutS2) [Lactococcus lactis subsp. lactis bv. diacetylactis strain SD96]
ATGAATAAAAAAATTCTCCAAATATTGGAATATGATAAAGTCAAAGAACAGTTTATGAATGCTTTGACGACAGCGCAGGG
TCAACAAGAATTAAAAGATTTAAAACCTTTGACAGATAAGGAAAAAATTCAGCTCCTTTTTGATGAAGTTGCTGATTTTC
GCTTATTGACCCAAGAAAATGGCCTATTAAATTTAGGAAAAACAAATGATTTAACAGAAATACTCAGACGTCTAGAGCTT
GAAGCCAGTCTTTCAGGCAAGGAATTCGTTGAAATAAAAAAAGTGATTCAATTAGGGATTAATATTCAACGCTTTTTTGA
TGAAGCTGAAAATGTTGAAACACCTTCACTAGCTATTACTTTGGAAAAATTGGTTGATTTATCAGCATTAGTCAAAAAAT
TAGAAATTTTTGATAATGCGGGAAGTCTTTATGATAATGCCAGTCTCGAATTGATGCATATCCGTGCTTCAATCAAGAGT
CATCAATCAGAAATTCGGAAAATCATGCAGGAAATGCTGACCAAAAATCTCTCATCTTTGAGTGAAAATGTCATCACTAT
CCGAAATGACCGACAAGTGCTTCCTGTAAAAGCAGAAAACAAAAATAAAATTGCTGGTGTAGTTCATGATATGTCTGCTT
CAGGTCAAACGCTTTATATTGAACCAAATGCGGTTGTTTCATTAAATAATAAACTTAATCAAAAGAGAATTGAAGAACGC
CAAGAAATCACAAGAATTTATCGTGAGCTTGCTAGTCAATTAAAACCTTATAGCTTTGATATAAGACAAAATGCTTGGCT
GATTGGTCATATTGATTTTGTTCGTGCCAAGTATCTTTATTTAGCAGCGAATAAAGCGACACTTCCAGAATTAACAACCG
ATAAAGATATTACCCTTTTTGCAGCTCGCCATCCTTTGATTGAAGCAAAAATAGTTGTGACAAATGATATTAAATTTGAT
GCAGGGCTCAATACGATTGTTATTACCGGTCCAAATACGGGTGGGAAGACCATTACTTTGAAAACAGTTGGTTTGTTGAC
AATATTGGCTCAATCAGGTCTGCCAATTTTAGCCGCTGATGGCAGTCGAATTCATCTTTTTGATGATATTTTTGCCGATA
TCGGTGATGAGCAATCCATTGAGCAAAGTTTATCAACTTTCTCAAGTCATATGACTAATATTGTTCATATTTTAGCTCAA
GCAGATGAAAATAGTTTGGTCTTGTTTGATGAACTTGGGGCAGGAACTGATCCAAAAGAAGGAGCGGCTCTTGCTATTGC
CATACTGGAAAATTTACGTGAACGAAATGTGAAAACCATGGCAAGTACTCATTATCCTGAGTTAAAAGCTTATGGGGTCG
AAACGCAACGAGTAATCAATGCAAGTATGGAATTTAACATTGATAAAATGCAACCCACTTATCATTTGCAACTGGGAGTG
CCTGGGCGTTCAAATGCCTTGGAGATTTCTAGAAGATTAGGTTTGCCAGAAACCATTATTTCAGTAGCCAGTCAACAAAT
TTCTGACAGTGAGCATGATGTCAATCAGATGATTGAAAAGTTGGAAGAAAAAACGCGTGAAGTGATTGAAAGTTCAAGAA
ATATTAAAAAAATTGAACGAGAAAATCAAAGTTTACATAAAGATTTGACGAAAGTCTATAATCAAATTAATCGCGAGCGC
GAGTTTGAATTAGAAAAAGCACAAAAAGAAGCTCAAGAAGTAGTTAAAAAAGCGAGTCTTGAAGCGCAAGAAATTTTGAA
GAATCTCAATGATAAAGCAGCGTTGAAACCACATGAAATTATTGCTGCTAGAAAAGAACTTGAAGGTTTGGCTCCAACCA
TTGATTTTTCTAAAAATAAGGTTTTGAAAAAAGCGAAAGCACAAAGAGGACTTAAGCAAGGGGCTGAAGTTAATGTCACT
TCTTATGGTCAGCGTGGTAAATTGATTCGTTTAGAAAAAGATGGACGTTGGACGGTTCAGATGGGTTCAATCACGACTCG
TTTAAATGAAGATGAATTTGAAGTGATTGAAAGTCCAGAACAAATTCAAGCCAAAACTAAAAATGTCAGCAAGAAGGTGA
CTTCTAAAGTCAAAGCTCAACTTGATTTACGCGGGATGCGTTATGAAGAAGCAGAACTGGAATTGGATAATTATATTGAC
CAAGCTCTACTTGCAAATTTGATTCAAATTACGATTGTTCATGGGATTGGAACGGGTGTTATTCGAGAAATGGTACAGAA
AAAACTTCAAAAACACCGTCATATTAAATCTTATGAATATGCACCAATTAATGCTGGTGGCTCTGGAGCAACGATTGCTA
TTTTGAAGTAA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB Q9CF36

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

42.621

100

0.432