Detailed information    

insolico Bioinformatically predicted

Overview


Name   recQ   Type   Machinery gene
Locus tag   V6S40_RS14850 Genome accession   NZ_CP145657
Coordinates   3001248..3003077 (+) Length   609 a.a.
NCBI ID   WP_001346040.1    Uniprot ID   -
Organism   Escherichia coli strain S1-IND-01-A     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 2996248..3008077
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  V6S40_RS14820 (V6S40_14825) - 2996524..2997372 (-) 849 WP_001059699.1 YPO3983 family protein -
  V6S40_RS14825 (V6S40_14830) - 2997553..2997705 (+) 153 Protein_2894 CorA family divalent cation transporter -
  V6S40_RS14830 (V6S40_14835) - 2998329..2998628 (+) 300 WP_000526430.1 hypothetical protein -
  V6S40_RS14835 (V6S40_14840) rarD 2998675..2999562 (-) 888 WP_000339103.1 EamA family transporter RarD -
  V6S40_RS14840 (V6S40_14845) yigI 2999614..3000081 (-) 468 WP_001277142.1 acyl-CoA thioesterase YigI -
  V6S40_RS14845 (V6S40_14850) pldA 3000246..3001115 (+) 870 WP_001259700.1 phospholipase A -
  V6S40_RS14850 (V6S40_14855) recQ 3001248..3003077 (+) 1830 WP_001346040.1 ATP-dependent DNA helicase RecQ Machinery gene
  V6S40_RS14855 (V6S40_14860) rhtC 3003141..3003761 (+) 621 WP_000928824.1 threonine export protein RhtC -
  V6S40_RS14860 (V6S40_14865) rhtB 3003823..3004443 (-) 621 WP_000171710.1 homoserine/homoserine lactone efflux protein -
  V6S40_RS14865 (V6S40_14870) pldB 3004554..3005576 (+) 1023 WP_000487654.1 lysophospholipase L2 -
  V6S40_RS14870 (V6S40_14875) yigL 3005584..3006384 (+) 801 WP_000285353.1 sugar/pyridoxal phosphate phosphatase YigL -
  V6S40_RS14875 (V6S40_14880) bioP 3006460..3007359 (+) 900 WP_001196238.1 biotin transporter -

Sequence


Protein


Download         Length: 609 a.a.        Molecular weight: 68390.53 Da        Isoelectric Point: 7.2544

>NTDB_id=851710 V6S40_RS14850 WP_001346040.1 3001248..3003077(+) (recQ) [Escherichia coli strain S1-IND-01-A]
MAQAEVLNLESGAKQVLQETFGYQQFRPGQEEIIDTVLSGRDCLVVMPTGGGKSLCYQIPALLLNGLTVVVSPLISLMKD
QVDQLQANGVAAACLNSTQTREQQLEVMTGCRTGQIRLLYIAPERLMLDNFLEHLAHWNPVLLAVDEAHCISQWGHDFRP
EYAALGQLRQRFPTLPFMALTATADDTTRQDIVRLLGLNDPLIQINSFDRPNIRYMLMEKFKPLDQLMRYVQEQRGKSGI
IYCNSRAKVEDTAARLQSKGISAAAYHAGLENNVRADVQEKFQRDDLQIVVATVAFGMGINKPNVRFVVHFDIPRNIESY
YQETGRAGRDGLPAEAMLFYDPADMAWLRRCLEEKPQGQLQDIERHKLNAMGAFAEAQTCRRLVLLNYFGEGRQEPCGNC
DICLDPPKQYDGSTDAQIALSTIGRVNQRFGMGYVVEVIRGANNQRIRDYGHDKLKVYGMGRDKSHEHWVSVIRQLIHLG
LVTQNIAQHSALQLTEAARPVLRGESSLQLAVPRIVALKPKAMQKSFGGNYDRKLFAKLRKLRKSIADESNVPPYVVFND
ATLIEMAEQMPITASEMLSVNGVGMRKLERFGKPFMALIRAHVDGDDEE

Nucleotide


Download         Length: 1830 bp        

>NTDB_id=851710 V6S40_RS14850 WP_001346040.1 3001248..3003077(+) (recQ) [Escherichia coli strain S1-IND-01-A]
GTGGCGCAGGCGGAAGTGTTGAATCTGGAGTCCGGAGCTAAACAGGTTTTACAAGAAACCTTTGGCTACCAACAGTTTCG
CCCCGGCCAGGAAGAAATTATCGACACTGTGCTTTCCGGTCGCGATTGCCTGGTCGTCATGCCCACCGGTGGCGGAAAAT
CCCTTTGCTATCAAATTCCTGCCTTATTGCTAAACGGCCTTACCGTGGTTGTTTCACCGCTGATTTCGTTGATGAAAGAT
CAGGTGGATCAACTGCAAGCCAACGGCGTGGCGGCGGCGTGCCTTAACTCGACGCAAACCCGCGAACAGCAACTTGAAGT
GATGACAGGCTGCCGCACCGGGCAAATTCGTCTGCTTTATATCGCCCCGGAACGCCTGATGCTGGATAACTTTCTTGAGC
ATCTGGCGCACTGGAATCCGGTGTTATTAGCCGTTGATGAAGCGCACTGTATCTCCCAATGGGGCCACGATTTCCGCCCG
GAATATGCCGCGCTCGGTCAGTTGCGCCAGCGGTTCCCGACGCTGCCGTTTATGGCGCTGACCGCCACAGCCGACGACAC
CACGCGCCAGGATATCGTGCGCCTGCTGGGGCTGAACGATCCGCTGATTCAAATCAACAGTTTTGACCGTCCGAATATTC
GCTACATGCTGATGGAGAAGTTCAAACCGCTCGATCAGTTGATGCGCTACGTGCAGGAACAGCGCGGTAAGTCCGGCATT
ATCTACTGCAACAGCCGGGCGAAAGTAGAAGACACCGCTGCGCGCCTGCAAAGCAAGGGTATTAGCGCGGCGGCCTATCA
TGCCGGGCTGGAAAATAATGTCCGCGCCGACGTGCAGGAGAAATTCCAGCGCGATGACCTGCAAATTGTGGTGGCGACGG
TGGCGTTCGGCATGGGCATCAATAAACCAAACGTTCGCTTCGTGGTCCACTTTGATATTCCGCGCAATATCGAATCCTAT
TATCAGGAAACCGGTCGCGCCGGGCGTGATGGCCTGCCCGCGGAAGCGATGCTGTTTTACGATCCGGCCGATATGGCGTG
GCTGCGCCGTTGTCTGGAAGAGAAGCCGCAGGGGCAGTTGCAGGATATCGAACGTCATAAACTCAATGCGATGGGCGCTT
TTGCCGAAGCGCAAACTTGCCGTCGTCTGGTACTGCTGAACTATTTTGGCGAAGGGCGTCAGGAGCCGTGCGGGAACTGC
GATATCTGCCTCGATCCGCCGAAACAGTACGACGGTTCAACCGATGCTCAGATTGCCCTTTCCACCATTGGTCGTGTGAA
TCAGCGTTTTGGTATGGGCTATGTGGTGGAAGTGATTCGCGGCGCTAATAACCAGCGTATCCGCGACTATGGTCATGACA
AACTAAAAGTCTACGGTATGGGCCGTGATAAAAGTCATGAACATTGGGTGAGCGTGATCCGCCAGTTGATTCACCTCGGC
CTGGTGACGCAAAATATTGCCCAGCATTCTGCCCTCCAACTGACAGAGGCCGCGCGTCCGGTGCTGCGCGGCGAATCCTC
TTTGCAACTTGCCGTGCCGCGTATCGTGGCGCTCAAACCGAAAGCGATGCAGAAATCGTTCGGCGGCAACTATGATCGCA
AACTGTTCGCCAAATTACGCAAACTGCGTAAATCGATTGCCGATGAAAGTAATGTCCCGCCGTACGTGGTGTTTAACGAC
GCAACCTTGATTGAGATGGCTGAACAGATGCCGATCACCGCCAGCGAAATGCTCAGCGTTAACGGTGTTGGGATGCGCAA
GCTGGAACGCTTTGGCAAACCGTTTATGGCGCTGATTCGTGCGCATGTTGATGGCGATGACGAAGAGTAG


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
  recQ Bacillus subtilis subsp. subtilis str. 168

40.203

97.209

0.391