Detailed information    

insolico Bioinformatically predicted

Overview


Name   helD   Type   Machinery gene
Locus tag   GJ664_RS04395 Genome accession   NZ_CP046037
Coordinates   883295..885586 (+) Length   763 a.a.
NCBI ID   WP_035146054.1    Uniprot ID   -
Organism   Latilactobacillus sakei strain CBA3614     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 878295..890586
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  GJ664_RS04370 (GJ664_04370) - 878667..879125 (+) 459 WP_011373843.1 MarR family transcriptional regulator -
  GJ664_RS04375 (GJ664_04375) - 879499..880401 (-) 903 WP_011373844.1 proline-specific peptidase family protein -
  GJ664_RS04380 (GJ664_04380) - 880475..882313 (-) 1839 WP_154255220.1 cation:proton antiporter family protein -
  GJ664_RS04385 (GJ664_04385) crcB 882450..882857 (+) 408 WP_035146059.1 fluoride efflux transporter CrcB -
  GJ664_RS04390 (GJ664_04390) - 882854..883201 (+) 348 WP_035146056.1 fluoride efflux transporter FluC -
  GJ664_RS04395 (GJ664_04395) helD 883295..885586 (+) 2292 WP_035146054.1 RNA polymerase recycling motor HelD Machinery gene
  GJ664_RS04400 (GJ664_04400) coaA 885694..886623 (+) 930 WP_016264412.1 type I pantothenate kinase -
  GJ664_RS04405 (GJ664_04405) guaA 886805..888343 (+) 1539 WP_172826500.1 glutamine-hydrolyzing GMP synthase -
  GJ664_RS04410 (GJ664_04410) - 888482..889849 (+) 1368 WP_035146051.1 hypothetical protein -

Sequence


Protein


Download         Length: 763 a.a.        Molecular weight: 87728.78 Da        Isoelectric Point: 6.6832

>NTDB_id=349692 GJ664_RS04395 WP_035146054.1 883295..885586(+) (helD) [Latilactobacillus sakei strain CBA3614]
MTDVQKSLEQSRLTEIIGLIKKAETHFEGAVKRAKSEEKEINENFFNDVRLNFNNDSAMTETAVSIEQQRQMLQERNHSW
QQSSRQLETLQKMEKTPYFARVDFQEKGEPKSESIYIGLGSFTDTDDHFLIYDWRAPISSIYYEGKTGAVTYQTPDGPQD
VNISLKRQFLIEDGQIKALFDTQETIGDQMLLEVLGEKSDTQMKSIVTTIQREQNQIIRNTDADLLFVQGAAGSGKTSAI
LQRIAFLLYRYRGNLDSSQVIMFSPNQLFNDYIADVLPELGEQNMIQMTYFQYVARRLPNMGVQSLFDQFETPVNETDGR
ISRLKESLVFYKAVKKYAAHLEKADMRFRDMKVKGRVLITKEHISEVYYRFNENYHLGNRLDATKESLLRTLSHKVDHET
KADWVTEQAENMSDEEIRELMSGKDFKTGDAESKFIAKQIVLEAFKPVRRSIQRNRFLSIQAQYIHFLRVVPQLVKLADF
DITEEQWQDHVTHFVAQLKAKQMTLQDVTPYLHLYDLMTGKKGERDMRFVFIDEIQDYTPYELAFLKLHFPKARFTLLGD
LNQAIFTKGNSTNLLQQVQQLFDAQNTKVVQLTRSYRSTQQVTDFTKGLLKGGQAIEAFNRVGDKPNLIVRQSEAELVAD
VNRQLAANEADKLSTAIITKTLVQAQELTKMLKKTGTKVTLIRSENQRLAAGTLVVPSFLAKGLEFDAIIGWQISAANYN
HEDQRQLLYTICSRAMHRLTLLATDALSPLIDNVDPEKYTLTK

Nucleotide


Download         Length: 2292 bp        

>NTDB_id=349692 GJ664_RS04395 WP_035146054.1 883295..885586(+) (helD) [Latilactobacillus sakei strain CBA3614]
TTGACTGACGTACAGAAATCATTGGAACAAAGCCGATTAACAGAAATTATTGGTTTAATTAAAAAAGCTGAGACCCATTT
TGAAGGGGCTGTTAAGCGCGCAAAATCGGAAGAAAAAGAAATTAACGAGAACTTCTTCAACGATGTTCGCCTTAACTTCA
ACAACGATTCCGCGATGACTGAAACCGCCGTTTCGATTGAACAGCAGCGGCAAATGCTACAAGAACGCAATCACTCGTGG
CAACAATCTTCACGGCAATTGGAAACCTTGCAAAAGATGGAAAAGACGCCATACTTTGCCCGTGTTGATTTTCAAGAAAA
GGGTGAACCTAAATCCGAATCAATTTATATCGGGTTAGGCTCATTTACAGATACCGACGATCATTTCTTAATTTATGATT
GGCGGGCACCAATTTCATCAATTTACTATGAAGGTAAGACGGGTGCGGTGACGTACCAAACACCAGACGGCCCGCAAGAT
GTGAATATCTCACTTAAACGCCAATTCTTAATTGAAGATGGCCAAATCAAGGCCTTATTTGATACGCAAGAAACGATTGG
CGATCAAATGTTATTAGAAGTGTTAGGTGAAAAATCCGATACGCAGATGAAGAGTATCGTCACGACGATTCAACGTGAAC
AAAATCAGATTATCCGTAATACCGATGCTGATTTGTTATTCGTTCAAGGGGCAGCTGGCTCAGGGAAAACATCAGCTATC
TTGCAACGCATTGCGTTTTTACTCTATCGCTATCGGGGGAATTTAGATTCGAGCCAAGTGATCATGTTCTCGCCTAACCA
ATTATTCAACGACTACATCGCAGATGTGTTGCCTGAATTGGGCGAACAAAATATGATTCAAATGACTTACTTCCAATATG
TGGCACGCCGGTTACCAAACATGGGGGTCCAGAGCCTTTTTGACCAATTCGAAACACCGGTTAACGAAACCGATGGCCGG
ATTAGTCGCTTGAAAGAAAGTCTCGTCTTTTATAAGGCTGTTAAAAAATACGCTGCGCATCTTGAAAAAGCCGACATGCG
CTTCCGCGATATGAAGGTCAAGGGCCGCGTCTTGATTACGAAGGAACACATCAGCGAGGTTTATTACCGGTTTAATGAAA
ACTACCATCTCGGCAATCGATTAGATGCGACTAAAGAAAGTTTGTTGCGGACATTGAGCCACAAGGTTGATCACGAAACC
AAGGCTGACTGGGTGACTGAGCAAGCCGAGAATATGAGTGATGAAGAAATTCGCGAGTTGATGTCTGGTAAAGATTTCAA
GACGGGTGACGCTGAAAGCAAGTTTATCGCTAAGCAAATCGTGCTAGAGGCCTTCAAACCCGTTCGCCGGTCTATTCAAC
GCAATCGCTTCTTAAGCATCCAGGCGCAATATATTCACTTCTTACGGGTTGTGCCACAACTTGTGAAGTTAGCCGATTTT
GATATTACAGAAGAGCAATGGCAAGACCACGTCACGCATTTTGTCGCACAATTGAAGGCTAAGCAGATGACGTTGCAAGA
TGTCACACCTTATCTTCACCTCTACGATTTGATGACGGGTAAAAAAGGCGAACGTGATATGCGTTTTGTCTTCATCGATG
AAATTCAAGATTACACGCCTTATGAATTGGCCTTCTTGAAGCTCCACTTCCCTAAGGCGCGCTTCACATTATTGGGCGAT
TTGAACCAAGCGATTTTCACTAAAGGCAACAGCACAAATCTCTTGCAACAAGTGCAACAATTATTTGATGCCCAAAATAC
AAAAGTGGTGCAATTAACGCGTTCATACCGGTCAACGCAACAAGTGACCGACTTTACCAAGGGCTTATTAAAAGGTGGCC
AAGCCATCGAAGCCTTCAACCGCGTTGGCGATAAACCAAACTTGATTGTGCGCCAATCAGAAGCTGAGTTAGTGGCTGAT
GTTAACCGCCAATTAGCCGCAAATGAAGCGGATAAATTATCGACGGCGATTATTACCAAGACATTGGTGCAAGCCCAAGA
ATTGACGAAGATGCTCAAGAAAACGGGAACCAAAGTCACCTTGATTCGTTCCGAAAACCAACGTTTAGCAGCCGGGACAT
TAGTGGTCCCAAGTTTCTTAGCTAAAGGTTTGGAATTCGATGCCATTATTGGCTGGCAAATCAGTGCCGCCAACTACAAT
CATGAAGATCAACGGCAATTGCTCTACACGATTTGTTCAAGAGCAATGCATCGCTTGACCTTGTTAGCCACTGACGCACT
CTCACCACTGATTGATAACGTCGATCCAGAAAAATATACATTAACAAAATAA


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
  helD Bacillus subtilis subsp. subtilis str. 168

38.243

100

0.388


Multiple sequence alignment