Detailed information    

insolico Bioinformatically predicted

Overview


Name   hexB   Type   Machinery gene
Locus tag   H1X38_RS00335 Genome accession   NZ_LR822035
Coordinates   58222..60165 (+) Length   647 a.a.
NCBI ID   WP_180484889.1    Uniprot ID   -
Organism   Streptococcus thermophilus isolate STH_CIRM_1051     
Function   DNA mismatch repair (predicted from homology)   
Homologous recombination

Genomic Context


Location: 53222..65165
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  H1X38_RS00305 (STHERMO_0054) argR 53426..53854 (+) 429 WP_024704313.1 arginine repressor -
  H1X38_RS00310 (STHERMO_0055) - 53854..54213 (+) 360 WP_011225277.1 YlbF family regulator -
  H1X38_RS00315 (STHERMO_0056) hexA 54206..56764 (+) 2559 WP_014607836.1 DNA mismatch repair protein MutS Machinery gene
  H1X38_RS10305 - 56798..57253 (-) 456 Protein_42 DUF3021 domain-containing protein -
  H1X38_RS00325 (STHERMO_0059) - 57250..57641 (-) 392 Protein_43 LytTR family DNA-binding domain-containing protein -
  H1X38_RS00330 (STHERMO_0060) - 57865..58170 (+) 306 WP_002949050.1 hypothetical protein -
  H1X38_RS00335 (STHERMO_0061) hexB 58222..60165 (+) 1944 WP_180484889.1 DNA mismatch repair endonuclease MutL Machinery gene
  H1X38_RS00340 (STHERMO_0062) - 60295..60516 (+) 222 WP_002949052.1 hypothetical protein -
  H1X38_RS00345 (STHERMO_0063) ruvA 60668..61258 (+) 591 WP_011680603.1 Holliday junction branch migration protein RuvA Machinery gene
  H1X38_RS00350 (STHERMO_0064) - 61265..61819 (+) 555 WP_011680604.1 DNA-3-methyladenine glycosylase I -
  H1X38_RS00355 (STHERMO_0065) cinA 61915..63186 (+) 1272 WP_011680605.1 competence/damage-inducible protein A Machinery gene
  H1X38_RS00360 (STHERMO_0066) recA 63222..64376 (+) 1155 WP_002949056.1 recombinase RecA Machinery gene
  H1X38_RS00365 (STHERMO_0067) spx 64553..64951 (+) 399 WP_002949058.1 transcriptional regulator Spx -

Sequence


Protein


Download         Length: 647 a.a.        Molecular weight: 72557.83 Da        Isoelectric Point: 5.8796

>NTDB_id=1011105 H1X38_RS00335 WP_180484889.1 58222..60165(+) (hexB) [Streptococcus thermophilus isolate STH_CIRM_1051]
MPKIIELPEVLANQIAAGEVVERPASVVKELVENAIDAGSTQITIEVEESGLSKIQITDNGEGMAQADVAMSLRRHATSK
IKNQGDLFRIRTLGFRGEALPSIASISHLTIVTAADGEVYGTKLVAKGGEIESQDPISTPVGTKITVENLFYNTPARLKY
MKSLQAELAHIVDVVNRLSLAHPEVAFTLLNDGRQLTQTSGTGDLRQAIAGIYGLTTAKKMVEISNSDLDFEVSGYVSLP
ELTRANRNYITILINGRYIKNFLLNRAIFDGYGSKLMVGRFPIAVIDIQIDPYLADVNVHPTKQEVRISKEKELMALIKS
AIAQSLREQDLIPDALENLAKSSTRGATRSVQTSLPLKQTNLYYDSNRNDFFVTPETVQEDIKPLVSKSESSVSLVANKQ
QPTVKQAKRSADDSDSEHGKLDYKNKSKLKRMLENLTNEETSTFPELEFFGQMHGTYLFAQGQGGLYIIDQHAAQERVKY
EYYREKIGVVDSSLQQLLVPYLFEFSGSDYISLQEKMPLLNQVCIYLEPYGNNTFILREHPIWMKEEEIESAVYEMCDML
LLTNEVSVKTYRAELAIMMSCKRSIKANHALDDYSARDLLVQLAQCKNPYNCPYGRPVLVNFTKSDMEKMFRRIQENHTS
LRDLGKY

Nucleotide


Download         Length: 1944 bp        

>NTDB_id=1011105 H1X38_RS00335 WP_180484889.1 58222..60165(+) (hexB) [Streptococcus thermophilus isolate STH_CIRM_1051]
ATGCCAAAAATTATCGAATTGCCTGAAGTTCTAGCCAATCAGATTGCTGCTGGTGAGGTCGTAGAGCGACCAGCTAGTGT
AGTTAAAGAGCTGGTGGAAAATGCTATTGATGCAGGCAGCACCCAGATTACTATTGAAGTTGAAGAATCAGGCCTCTCAA
AAATTCAAATCACAGACAATGGCGAAGGAATGGCTCAAGCTGATGTAGCTATGAGTTTGCGCCGTCATGCAACGAGTAAA
ATCAAAAATCAAGGAGATCTCTTTCGTATTCGAACACTTGGTTTTCGAGGTGAAGCCCTACCCTCTATAGCTTCTATTAG
TCACCTTACCATTGTGACAGCAGCGGATGGAGAAGTCTATGGGACCAAACTTGTTGCTAAAGGTGGAGAAATTGAGAGTC
AAGATCCTATTTCAACCCCAGTGGGAACAAAGATTACAGTTGAAAACTTGTTTTATAACACCCCAGCTCGTCTCAAGTAT
ATGAAGAGTTTACAGGCTGAGTTGGCTCATATTGTCGATGTTGTCAACCGTTTGAGTTTAGCCCACCCCGAAGTAGCCTT
CACCTTGCTTAATGACGGTCGTCAGTTGACACAGACATCAGGTACTGGAGACCTTCGCCAAGCTATTGCAGGGATTTATG
GCTTAACAACAGCAAAAAAAATGGTGGAAATTTCAAATTCCGACCTTGATTTTGAAGTTTCTGGTTATGTCAGTCTCCCT
GAATTAACGCGTGCTAACCGTAACTACATCACGATTCTCATTAACGGACGCTATATAAAAAACTTCCTCCTTAACCGTGC
TATTTTTGATGGTTATGGTTCTAAACTTATGGTGGGACGCTTCCCAATTGCAGTTATTGATATTCAGATTGATCCTTATT
TGGCAGATGTCAATGTTCACCCAACAAAGCAAGAAGTACGTATCTCTAAAGAAAAGGAGCTCATGGCCCTTATCAAATCT
GCCATTGCTCAAAGCCTTAGAGAGCAGGATTTGATTCCTGATGCCCTTGAAAATCTAGCAAAGTCAAGTACTAGAGGTGC
AACTAGGTCAGTTCAGACGAGTCTCCCACTCAAACAAACCAATCTTTACTATGACAGTAACCGTAATGATTTCTTTGTCA
CGCCAGAGACAGTTCAAGAGGATATCAAACCTCTTGTATCAAAGTCAGAGTCTTCAGTTTCATTGGTAGCAAACAAACAG
CAACCTACTGTTAAACAGGCAAAACGTTCAGCAGATGATAGTGATAGCGAACACGGAAAACTTGACTATAAAAATAAATC
GAAATTGAAGCGCATGCTTGAAAATCTGACCAATGAGGAAACATCAACCTTTCCTGAATTGGAGTTCTTTGGTCAAATGC
ATGGAACCTACCTCTTTGCCCAAGGACAAGGTGGCCTTTACATCATTGACCAGCATGCTGCCCAAGAACGTGTCAAGTAT
GAGTACTATCGCGAAAAGATAGGTGTGGTTGATAGTAGTTTACAACAACTTTTGGTTCCCTATCTTTTTGAATTTTCAGG
TTCAGATTACATTAGTTTACAAGAAAAAATGCCTCTTCTTAACCAAGTTTGCATCTATTTGGAGCCTTATGGGAATAATA
CCTTCATTCTTCGAGAGCACCCTATCTGGATGAAGGAAGAAGAAATCGAATCTGCAGTCTATGAGATGTGTGATATGCTT
CTTTTGACGAACGAAGTATCCGTCAAGACCTATCGTGCTGAGTTAGCCATCATGATGAGTTGTAAACGTTCAATAAAGGC
CAATCATGCTCTTGATGATTACTCTGCGCGTGACCTTCTAGTACAGCTTGCACAGTGTAAAAATCCCTATAATTGTCCTT
ACGGCCGTCCAGTACTTGTCAACTTTACCAAGTCTGATATGGAAAAAATGTTCCGTCGTATTCAAGAAAACCATACCAGC
CTACGTGATTTAGGAAAGTATTAA


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
  hexB Streptococcus pneumoniae R6

69.266

100

0.7