Detailed information    

insolico Bioinformatically predicted

Overview


Name   hexA   Type   Machinery gene
Locus tag   C2E46_RS10940 Genome accession   NZ_CP026082
Coordinates   2190943..2193519 (-) Length   858 a.a.
NCBI ID   WP_161501967.1    Uniprot ID   -
Organism   Streptococcus agalactiae strain YZ1605     
Function   DNA mismatch repair (predicted from homology)   
Homologous recombination

Genomic Context


Location: 2185943..2198519
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  C2E46_RS10915 (C2E46_11335) - 2186054..2186605 (-) 552 WP_000817341.1 DNA-3-methyladenine glycosylase I -
  C2E46_RS10920 (C2E46_11340) ruvA 2186628..2187218 (-) 591 WP_000272490.1 Holliday junction branch migration protein RuvA Machinery gene
  C2E46_RS10925 (C2E46_11345) - 2187220..2188452 (-) 1233 WP_000657483.1 MFS transporter -
  C2E46_RS10930 (C2E46_11350) hexB 2188484..2190457 (-) 1974 WP_000034613.1 DNA mismatch repair endonuclease MutL Machinery gene
  C2E46_RS10935 (C2E46_11360) - 2190683..2190886 (+) 204 WP_000191849.1 cold-shock protein -
  C2E46_RS10940 (C2E46_11365) hexA 2190943..2193519 (-) 2577 WP_161501967.1 DNA mismatch repair protein MutS Machinery gene
  C2E46_RS10945 (C2E46_11370) argR 2193576..2194013 (-) 438 WP_001033152.1 arginine repressor -
  C2E46_RS10950 (C2E46_11375) argS 2194235..2195926 (+) 1692 WP_000379861.1 arginine--tRNA ligase -
  C2E46_RS10955 (C2E46_11380) - 2196014..2196322 (+) 309 WP_001138859.1 bacteriocin immunity protein -
  C2E46_RS10960 (C2E46_11385) - 2196349..2197221 (-) 873 WP_000915474.1 YitT family protein -
  C2E46_RS10965 (C2E46_11390) - 2197329..2198273 (-) 945 WP_000857770.1 YitT family protein -

Sequence


Protein


Download         Length: 858 a.a.        Molecular weight: 97053.69 Da        Isoelectric Point: 4.8471

>NTDB_id=224543 C2E46_RS10940 WP_161501967.1 2190943..2193519(-) (hexA) [Streptococcus agalactiae strain YZ1605]
MAKPTISPGMQQYLDIKENYPDAFLLFRMGDFYELFYDDAVKAAQILEISLTSRNKNAEKPIPMAGVPYHSAQQYIDVLV
ELGYKVAIAEQMEDPKKAVGVVKREVVQVVTPGTVVESTKPDSANNFLVAIDSQDQQTFGLAYMDVSTGEFQATLLTDFE
SVRSEILNLKAREIVVGYQLTDEKNHLLTKQMNLLLSYEDERLKDIHLIDEQLTDLEISAAEKLLQYVHRTQKRELSHLQ
KVVHYEIKDYLQMSYATKNSLDLLENARTSKKHGSLYWLLDETKTAMGTRMLRTWIDRPLVSMNRIKERQDIIQVFLDYF
FERNDLTESLKGVYDIERLASRVSFGKANPKDLLQLGQTLSQIPRIKMILQSFNQPELDIIVNKIDTMPELESLINTAIA
PEAQATITEGNIIKSGFDKQLDNYRTVMREGTGWIADIEAKERAASGIGTLKIDYNKKDGYYFHVTNSNLSLVPEHFFRK
ATLKNSERYGTAELAKIEGEMLEAREQSSNLEYDIFMRVRAQVESYIKRLQELAKTIATVDVLQSLAVVAENHHYVRPKF
NDEHQIKIKNGRHATVEKVMGVQEYIPNSIYFDSQTDIQLITGPNMSGKSTYMRQLALTVIMAQMGGFVSADEVDLPVFD
AIFTRIGAADDLISGQSTFMVEMMEANQAVKRASDKSLILFDELGRGTATYDGMALAQSIIEYIHDRVRAKTMFATHYHE
LTDLSEQLTRLVNVHVATLERDGEVTFLHKIESGPADKSYGIHVAKIAGLPIDLLDRATDVLSQLEADAVQLIVSPSQEA
VTADLNEELDSEKQQGQLSLFEEPSNAGRVIEELEAIDIMNLTPMQAMNAIFDLKKLL

Nucleotide


Download         Length: 2577 bp        

>NTDB_id=224543 C2E46_RS10940 WP_161501967.1 2190943..2193519(-) (hexA) [Streptococcus agalactiae strain YZ1605]
ATGGCCAAGCCAACGATATCACCGGGAATGCAACAGTATCTGGATATAAAAGAGAATTATCCAGATGCTTTTTTGCTTTT
TAGAATGGGTGATTTTTATGAATTATTTTATGATGATGCGGTAAAAGCAGCACAAATCCTGGAAATTAGCTTGACTAGTC
GAAATAAGAACGCAGAAAAGCCAATCCCAATGGCAGGAGTTCCCTATCACTCAGCTCAACAGTATATTGACGTTTTAGTT
GAATTAGGTTACAAAGTAGCCATTGCTGAGCAGATGGAAGATCCTAAAAAAGCTGTGGGAGTGGTCAAGCGTGAGGTAGT
GCAAGTTGTTACCCCAGGAACGGTTGTGGAGTCAACGAAGCCGGATAGTGCTAATAATTTCTTAGTAGCGATTGATTCGC
AAGATCAACAAACATTTGGTCTAGCATATATGGATGTCTCAACTGGAGAGTTTCAGGCAACCCTTTTAACAGATTTTGAG
TCCGTCCGTAGCGAAATACTAAATTTAAAAGCTCGTGAGATTGTAGTAGGATATCAATTGACGGACGAAAAAAATCACCT
ACTGACGAAGCAGATGAACTTGCTTTTATCATACGAAGACGAACGACTTAAAGATATTCATTTGATTGATGAGCAGTTAA
CTGATTTGGAAATATCTGCTGCGGAAAAACTTTTACAATATGTGCATAGAACACAAAAGCGTGAACTTAGTCATTTACAG
AAAGTAGTTCATTATGAAATAAAGGACTATTTACAAATGTCATATGCAACGAAAAATAGTCTAGATTTACTGGAGAATGC
TAGAACAAGCAAGAAGCACGGAAGTCTTTACTGGTTGTTAGATGAGACTAAAACAGCGATGGGAACTCGAATGCTGAGAA
CTTGGATTGACAGGCCTTTGGTAAGTATGAATCGAATCAAGGAACGTCAAGATATTATTCAAGTGTTTCTTGATTATTTT
TTTGAGAGAAACGATCTCACAGAAAGTTTAAAGGGTGTATATGATATTGAACGCCTAGCAAGTCGAGTATCTTTCGGAAA
AGCCAACCCTAAAGATCTATTGCAACTCGGACAGACCTTATCACAAATTCCTCGGATTAAAATGATTTTACAGTCCTTCA
ATCAACCTGAGCTTGACATTATTGTCAACAAAATTGACACTATGCCTGAATTAGAAAGTTTAATTAATACGGCGATAGCC
CCAGAAGCACAGGCTACTATCACTGAGGGAAATATTATCAAGTCTGGATTTGATAAGCAATTGGATAATTATCGAACAGT
GATGCGTGAAGGTACAGGTTGGATTGCTGATATTGAAGCTAAGGAAAGAGCAGCAAGTGGTATCGGTACTCTTAAAATTG
ATTATAATAAAAAAGACGGTTATTACTTCCATGTTACCAATTCCAATTTATCACTAGTACCGGAGCATTTTTTCCGTAAA
GCGACATTAAAAAATTCTGAACGCTATGGAACAGCAGAACTAGCCAAAATTGAAGGTGAAATGCTCGAAGCTCGCGAGCA
ATCTTCAAATTTAGAATATGATATTTTTATGCGTGTTCGTGCTCAAGTAGAATCTTATATTAAACGTCTTCAAGAGTTAG
CAAAGACTATTGCAACCGTTGATGTTCTACAGAGTTTGGCAGTAGTTGCAGAAAATCATCACTATGTTCGTCCCAAATTT
AATGATGAACATCAGATTAAGATTAAGAATGGGCGTCATGCAACTGTTGAAAAAGTGATGGGAGTGCAAGAATATATTCC
CAATAGTATCTATTTTGATAGTCAGACAGATATCCAGTTGATTACAGGACCAAATATGAGTGGTAAGTCGACCTATATGC
GCCAGTTAGCTTTGACAGTTATTATGGCACAAATGGGAGGTTTTGTATCGGCAGACGAAGTTGATTTGCCTGTATTTGAT
GCAATATTTACTAGGATTGGTGCTGCTGATGACTTAATTTCTGGGCAATCAACCTTTATGGTAGAAATGATGGAAGCAAA
TCAAGCTGTAAAACGAGCCAGTGATAAATCTTTGATTCTTTTTGATGAATTAGGTCGAGGGACAGCCACTTATGATGGTA
TGGCATTAGCTCAATCGATTATAGAATATATTCATGACCGTGTTAGGGCAAAAACAATGTTTGCAACTCATTACCATGAG
TTGACAGATTTATCTGAACAATTGACAAGGCTTGTCAATGTACACGTGGCTACTTTAGAGAGAGATGGAGAAGTTACCTT
CTTACATAAAATTGAATCTGGACCTGCGGATAAGTCTTATGGGATACATGTCGCAAAAATAGCTGGTTTACCAATTGACT
TATTGGATAGGGCAACTGATGTTTTATCACAGTTGGAAGCTGATGCAGTACAGTTGATCGTATCGCCCTCCCAAGAAGCT
GTTACTGCTGACTTAAATGAGGAACTAGATTCTGAGAAGCAACAAGGACAATTATCGCTTTTTGAAGAACCTTCAAATGC
AGGTAGGGTTATTGAGGAGTTAGAAGCGATAGATATAATGAATCTAACTCCAATGCAAGCTATGAATGCTATATTTGACT
TAAAGAAATTATTATAA


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
  hexA Streptococcus pneumoniae R6

68.998

100

0.69

  mutS Pseudomonas stutzeri strain ATCC 17587

36.519

100

0.374


Multiple sequence alignment