Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   IM723_RS08275 Genome accession   NZ_CP063275
Coordinates   1606353..1610006 (-) Length   1217 a.a.
NCBI ID   WP_211836870.1    Uniprot ID   -
Organism   Streptococcus thermophilus strain DMST-H2     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1601353..1615006
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  IM723_RS08255 proB 1601709..1602512 (-) 804 WP_002948808.1 glutamate 5-kinase -
  IM723_RS08260 - 1602633..1604189 (-) 1557 WP_244810421.1 ABC transporter permease -
  IM723_RS08265 - 1604222..1604953 (-) 732 Protein_1587 ABC transporter ATP-binding protein -
  IM723_RS08270 - 1605226..1605959 (+) 734 Protein_1588 DUF554 domain-containing protein -
  IM723_RS08275 rexA 1606353..1610006 (-) 3654 WP_211836870.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  IM723_RS08280 rexB 1609996..1613316 (-) 3321 WP_022096685.1 ATP-dependent nuclease subunit B Machinery gene
  IM723_RS08285 - 1613835..1614487 (-) 653 Protein_1591 hypothetical protein -
  IM723_RS08290 - 1614540..1614971 (-) 432 Protein_1592 LytTR family DNA-binding domain-containing protein -

Sequence


Protein


Download         Length: 1217 a.a.        Molecular weight: 138494.65 Da        Isoelectric Point: 4.8484

>NTDB_id=437779 IM723_RS08275 WP_211836870.1 1606353..1610006(-) (rexA) [Streptococcus thermophilus strain DMST-H2]
MLTKAFLSPAEIEERIAQEAASDKDRKLTPEQIEAIYSNGTNILVSASAGSGKTFVMVERILDMIGRGVGIDQLFISTFT
VKAAGELKERLEKRLTKHLGQAETDEERAFLSDQIAKIGTADIGTMDAFTQKLVNQYGYLLGVSPTFRIMTDLAEQTLMK
NEVYADLFNDYMQGKDAQLFQKLVRNFTGHSKTSKAFRDLVYDIYSFSQATADPEKWLRQNLLKGQIEAKPEQAKNELLD
GLKDGLLADFLAFLRDHLGIAQREFTKAKYLNNVSDTINLLEGSLINDQTDMEDLLKQLLTLSGGTGLTNMTRPKDEELK
AYKEAYNKTKNEFVAQLREVDTQLTVLEVLTKHNDDILPMLELLQSFVLDFSDQYLQAKIQENTFEFSDIAHFAIRILEE
NPEVAVSYRDRYHEVMVDEYQDNSHTQERMLELLSNGHNRFMVGDIKQSIYRFRQADPQIFNNKFQLFLENPDAGKLILL
KENFRSQSEVLDATNGVFSHLMDQEIGDILYDKTHMLVAGSQKQKEPHPENETEVLIYNSDESSTSEDEEGPDQAISSGE
ISLVIKEIIKLHEQGVRFEDITLLAPNRNTYLDLMVSFEEHGIPLVPDEYKSSYLESLEVMIMLDTLRAINNPLNDYALV
ALLRSPMFNFNEDDLTRIAVQADKGQFYDKLLAAHTKSGLHPEVVMQGLDAKLTLFTETLADWRDYSKCHSIYDLIWKIY
NDRFYYDYVGGLPRAEQRQANLYALALRANAYEKTGFKGLSRFIGMIDKIIASGNDLEEVTDLVPKNAVSLMTIHKSKGL
EFKYVFVLQMNRKFIGHSKDGLSGKYIINREKGLGIKYLADLKDQINTNLPKLNVVLETLTFQENRREERRASISEEMRL
LYVAMTRAEKKLYLVGKGSKKTLTQQYGTDVENNRLPVALRDQIATYQDWIMALDTAFMRKDLKFTVRFVEDEELTPEAI
GQVEVKAAVDADDLSNNRQTEEIKRALTVLESVEKLNHLYAPAINLPSVRTPSQLKTFYEPVMDTEGVDIMDKKEGVQPL
ETASTFELPDFGQKTKVTGAAVGSATHELMQRLTLSDTVTLQDLTQALSRVSASDKVKARVQLEKLLGFFDTELGKLILA
NRDKLRREAPFAMLAEDPASKEDFVVRGIIDGYLLLEDRIVLFDYKTDHFTRPSELRTRYQGQMSLYAKALSQAYQMEKV
DKYLILLGGKDLEVVEV

Nucleotide


Download         Length: 3654 bp        

>NTDB_id=437779 IM723_RS08275 WP_211836870.1 1606353..1610006(-) (rexA) [Streptococcus thermophilus strain DMST-H2]
ATGTTGACTAAAGCTTTTTTAAGTCCAGCAGAGATTGAGGAACGTATTGCCCAAGAAGCAGCTTCTGACAAGGATCGCAA
GTTAACACCAGAACAGATTGAAGCTATTTACAGTAATGGTACTAATATTTTGGTATCTGCCTCAGCTGGTTCAGGGAAAA
CCTTTGTCATGGTTGAGCGTATCCTTGATATGATTGGACGTGGCGTTGGTATTGATCAACTCTTTATCTCAACCTTTACG
GTAAAAGCTGCAGGTGAGTTAAAGGAGCGTCTGGAAAAGCGGCTGACAAAGCATTTAGGACAGGCAGAGACGGATGAGGA
GCGGGCATTTCTTTCAGACCAGATTGCCAAGATTGGGACGGCTGATATTGGAACCATGGATGCCTTTACCCAGAAATTGG
TCAATCAGTATGGCTATCTCCTGGGTGTGTCACCTACTTTCCGTATCATGACAGACCTTGCTGAGCAGACGCTTATGAAA
AATGAGGTTTATGCTGATCTCTTCAATGATTATATGCAAGGAAAGGATGCCCAACTTTTTCAAAAATTGGTCCGTAATTT
CACTGGACATAGCAAAACTAGCAAGGCTTTTCGTGATTTAGTTTACGATATTTACAGCTTTTCTCAGGCTACTGCAGATC
CTGAAAAATGGCTACGTCAAAATCTCTTGAAAGGACAGATCGAGGCTAAGCCAGAACAGGCTAAAAATGAGCTTTTAGAC
GGTCTTAAAGATGGCTTGTTGGCTGATTTTCTAGCTTTCTTAAGAGACCATTTAGGTATAGCTCAGCGTGAATTTACCAA
GGCCAAGTATCTGAATAATGTGTCAGATACCATTAACCTTCTTGAGGGCTCCTTGATTAATGACCAAACTGATATGGAGG
ACCTCCTCAAACAACTATTGACTCTGTCAGGAGGTACTGGTTTGACCAATATGACCCGTCCTAAAGACGAGGAACTCAAG
GCCTACAAGGAAGCATACAACAAGACCAAAAATGAGTTTGTGGCTCAGTTGCGAGAGGTCGATACTCAGCTCACCGTTCT
GGAGGTTTTGACCAAGCATAATGATGATATCCTACCTATGTTGGAGCTACTTCAGTCCTTTGTACTTGATTTTTCGGATC
AGTATTTACAGGCAAAGATTCAGGAAAATACCTTTGAATTCTCGGATATTGCCCACTTTGCTATCCGTATTTTGGAAGAA
AATCCAGAGGTGGCAGTCAGCTACCGTGACCGTTACCATGAAGTTATGGTGGATGAGTATCAGGACAATAGCCATACTCA
AGAACGAATGTTGGAACTTCTATCTAACGGCCATAACCGATTCATGGTGGGAGATATCAAGCAGTCCATTTATCGTTTCC
GTCAGGCAGACCCTCAGATTTTTAATAATAAGTTTCAGCTTTTCCTTGAAAATCCTGATGCAGGTAAGCTGATTCTCCTT
AAGGAGAACTTTCGTAGTCAATCTGAAGTCCTTGATGCGACAAATGGTGTTTTTAGCCACCTCATGGATCAGGAAATCGG
GGACATCCTATATGACAAGACTCATATGTTGGTAGCAGGTAGTCAGAAGCAAAAAGAGCCCCATCCTGAAAATGAAACTG
AGGTTCTGATTTATAATAGTGATGAATCTAGTACGAGTGAGGATGAAGAAGGTCCTGATCAAGCTATCAGCAGCGGTGAG
ATTTCCTTGGTTATCAAAGAAATTATCAAACTTCATGAGCAGGGTGTACGTTTTGAGGACATCACCCTCCTAGCACCTAA
CCGTAACACCTATCTGGACTTGATGGTAAGTTTCGAGGAACACGGGATTCCTTTGGTTCCTGACGAGTATAAGTCAAGCT
ACCTAGAGTCACTAGAAGTTATGATTATGTTGGACACCCTTCGTGCTATCAATAATCCTCTTAACGATTATGCTCTCGTT
GCTCTCCTTCGTTCACCTATGTTTAACTTCAACGAGGATGACCTGACTCGTATCGCAGTCCAGGCTGACAAAGGCCAATT
CTATGATAAGCTTCTTGCAGCTCATACCAAATCAGGTCTTCATCCGGAAGTTGTGATGCAAGGACTTGATGCCAAGTTGA
CTCTCTTCACAGAGACTCTGGCAGATTGGCGTGACTACAGTAAGTGTCATTCGATTTATGACCTCATTTGGAAGATTTAC
AACGACCGTTTCTATTATGATTATGTCGGAGGTCTTCCACGAGCTGAGCAACGCCAGGCCAATCTTTATGCCCTTGCCTT
GCGTGCTAATGCTTATGAAAAGACAGGATTTAAGGGGCTTTCTCGTTTTATTGGTATGATTGATAAGATTATTGCCAGCG
GTAACGACCTAGAGGAAGTGACAGATTTGGTTCCCAAAAATGCCGTTAGCCTCATGACCATTCACAAGTCCAAGGGGCTA
GAGTTCAAGTATGTCTTTGTCCTGCAGATGAATCGCAAGTTCATTGGTCACAGCAAGGATGGCCTGAGCGGTAAGTATAT
TATTAATCGTGAAAAAGGGCTTGGTATTAAGTATCTAGCTGACCTCAAAGACCAGATAAACACCAATTTGCCTAAGTTAA
ATGTTGTTCTTGAGACCTTGACCTTCCAGGAAAATCGTAGGGAAGAGCGCAGGGCAAGTATTTCAGAAGAGATGCGTCTA
CTCTATGTGGCAATGACACGTGCAGAGAAGAAACTCTACCTAGTTGGTAAGGGAAGTAAGAAAACCTTAACCCAGCAGTA
TGGCACTGATGTCGAAAATAATCGCCTACCAGTAGCTCTGCGTGACCAGATTGCTACTTATCAGGATTGGATTATGGCAC
TTGATACTGCTTTCATGAGAAAGGACCTCAAGTTTACTGTTCGCTTTGTTGAGGATGAGGAGTTGACGCCAGAGGCTATT
GGACAGGTTGAAGTCAAGGCAGCAGTAGATGCCGATGATTTATCTAACAATCGTCAGACGGAGGAGATTAAGCGTGCCTT
GACTGTCTTAGAAAGTGTTGAAAAACTCAACCACCTTTATGCACCAGCGATTAACCTACCATCTGTGCGTACCCCAAGCC
AGCTCAAGACCTTTTACGAACCAGTTATGGATACAGAGGGTGTAGATATCATGGATAAGAAAGAGGGAGTGCAACCTCTT
GAGACGGCTAGCACTTTTGAGTTACCAGACTTTGGGCAAAAAACTAAGGTCACTGGAGCTGCAGTTGGTTCAGCAACCCA
TGAACTCATGCAACGCTTGACTCTTTCTGATACAGTGACTCTCCAAGATTTGACTCAGGCACTGAGTCGGGTATCGGCAT
CTGATAAAGTCAAGGCGCGTGTTCAGTTAGAGAAACTTTTAGGCTTTTTTGATACAGAGCTCGGGAAGCTTATTTTGGCC
AACCGTGATAAGTTGCGTCGTGAAGCACCTTTTGCCATGTTGGCAGAAGACCCAGCTAGTAAAGAAGACTTTGTTGTTCG
TGGAATCATTGATGGCTATCTTCTTCTTGAAGACCGTATTGTCCTCTTTGACTACAAGACCGACCACTTCACTCGTCCTA
GTGAGCTTAGGACGCGCTATCAAGGGCAAATGAGCCTCTATGCTAAAGCGCTTAGCCAAGCCTATCAAATGGAAAAGGTC
GACAAATATCTTATCCTCTTGGGTGGAAAGGACTTAGAAGTTGTAGAAGTATAA


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
  rexA Streptococcus pneumoniae R6

50.612

100

0.509