Detailed information    

insolico Bioinformatically predicted

Overview


Name   helD   Type   Machinery gene
Locus tag   KJP51_RS17030 Genome accession   NZ_OX419576
Coordinates   3286658..3288982 (-) Length   774 a.a.
NCBI ID   WP_213379853.1    Uniprot ID   -
Organism   Bacillus subtilis isolate NRS6105     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 3281658..3293982
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  KJP51_RS17020 (NRS6105_16860) cysI 3282929..3284644 (-) 1716 WP_213379858.1 assimilatory sulfite reductase (NADPH) hemoprotein subunit -
  KJP51_RS17025 (NRS6105_16865) cysJ 3284670..3286487 (-) 1818 WP_213379856.1 assimilatory sulfite reductase (NADPH) flavoprotein subunit -
  KJP51_RS17030 (NRS6105_16870) helD 3286658..3288982 (-) 2325 WP_213379853.1 RNA polymerase recycling motor HelD Machinery gene
  KJP51_RS17035 (NRS6105_16875) yvgT 3289180..3289788 (-) 609 WP_003219999.1 trimeric intracellular cation channel family protein -
  KJP51_RS17040 (NRS6105_16880) bdbC 3289975..3290391 (-) 417 WP_003228417.1 disulfide oxidoreductase -
  KJP51_RS17045 (NRS6105_16885) bdbD 3290396..3291064 (-) 669 WP_003228414.1 disulfide bond formation protein BdbD -
  KJP51_RS17050 (NRS6105_16890) cadA 3291184..3293292 (-) 2109 WP_119899758.1 heavy metal translocating P-type ATPase -

Sequence


Protein


Download         Length: 774 a.a.        Molecular weight: 89948.52 Da        Isoelectric Point: 6.2897

>NTDB_id=1040972 KJP51_RS17030 WP_213379853.1 3286658..3288982(-) (helD) [Bacillus subtilis isolate NRS6105]
MNQQDKEWKEEQSRIDEVLKELEKKERFLETSAGGLKHDIIGLRKSFWEDVKVNFDDAHEAIETMASIKQQAELLSDREQ
NHRRMDQQLKRIHQLKKSPYFGRIDFIENGEAEAERIYIGLASCLDEKEEHFLIYDWRAPISSLYYNYSPGKAEYEVPGE
TIEGEMVLKRQFMIKNGTLKAMFNTDMTIGDEMLQEVLSHHSDTQMKNIVSTIQKEQNQIIRNEKSKILIVQGAAGSGKT
SAALQRVAYLLYRHRGVIDAGQIVLFSPNFLFNSYVSSVLPELGEENMEQATFQEYIEHRLGRKFKCESAFDQLEYCLTE
TKEGDFPTRLAGITWKAGLSFQQFINEYVTRLSSEGMIFKNIIFRGQKLITKEQIQSYFYSLDQNHSIPNRMEQTAKWLL
SELNKLEKKERRKDWVVHEAELLDKEDYLDVYKKLQERKRFSESTFNDYQREQQLLAAIIVKKAFKPLKQAVRLLAFLDV
TQLYLQLFSGWGGKFQHEKMDAIGELTRSAFTDNKLLYEDAAPFLYMQDLIEGRKKNTKIKHLFIDEAQDYSPFQMAYMR
SIFPAASMTVLGDINQSIYAHTIHGDQRMDACFEDEPAEYVRLKRTYRSTRQIVEFTKAMLQDGADIEPFNRSGEMPLVV
KTEGHESLCQKLAQEIGRLEKKGHETIAVICKTAQQCIQAHAHMSEYTDVRLIHKENQPFQKGVCVIPVYLAKGIEFDAV
LVYDASEEHYHTEHDRRLLYTACTRAMHMLAVFYTGEVSPFVTAVPPHLYQIAE

Nucleotide


Download         Length: 2325 bp        

>NTDB_id=1040972 KJP51_RS17030 WP_213379853.1 3286658..3288982(-) (helD) [Bacillus subtilis isolate NRS6105]
ATGAATCAGCAGGATAAGGAATGGAAGGAAGAGCAGTCGAGAATAGATGAGGTGCTGAAGGAGCTCGAAAAAAAAGAGCG
GTTTCTGGAAACGTCTGCGGGCGGGTTGAAGCATGATATCATCGGATTAAGAAAAAGCTTTTGGGAGGATGTTAAGGTTA
ATTTTGATGATGCCCATGAAGCGATTGAAACGATGGCAAGCATTAAGCAGCAGGCAGAGCTGCTGTCTGATCGGGAACAG
AATCATCGGCGCATGGATCAGCAGCTCAAACGAATTCATCAATTGAAAAAATCGCCTTATTTCGGCCGGATTGATTTTAT
TGAAAACGGCGAGGCGGAGGCAGAGCGAATTTATATCGGTTTAGCTTCCTGTTTGGATGAGAAAGAGGAACACTTTCTGA
TCTATGACTGGAGGGCGCCGATATCAAGTTTGTACTACAATTATTCTCCAGGAAAAGCGGAGTACGAGGTGCCCGGTGAA
ACGATAGAAGGGGAAATGGTGCTGAAACGCCAGTTTATGATCAAAAACGGCACTCTCAAGGCGATGTTTAATACCGATAT
GACGATTGGCGATGAAATGCTGCAAGAGGTATTAAGCCATCACTCCGATACCCAAATGAAAAACATCGTGTCTACGATTC
AGAAAGAACAAAATCAGATTATCCGTAATGAAAAAAGCAAGATCCTGATCGTGCAGGGAGCGGCTGGCAGCGGGAAAACA
TCGGCTGCGCTTCAGCGTGTCGCTTATTTGTTATACAGGCACCGCGGCGTCATTGATGCCGGACAAATCGTTTTGTTTTC
TCCCAACTTCTTATTTAACAGCTATGTCTCCTCTGTTTTGCCGGAGTTAGGAGAAGAGAATATGGAGCAGGCGACGTTTC
AGGAATATATCGAGCATCGTCTTGGCCGCAAGTTCAAATGTGAAAGCGCCTTTGATCAGCTCGAATATTGCCTGACCGAA
ACTAAGGAAGGCGATTTTCCAACAAGGCTCGCGGGAATCACATGGAAGGCGGGTTTATCCTTTCAGCAATTCATTAATGA
ATACGTCACACGGCTTTCCTCTGAAGGGATGATTTTTAAAAATATCATATTCCGCGGACAAAAGCTGATCACAAAGGAGC
AAATTCAATCCTATTTTTACTCATTGGATCAAAATCACTCCATTCCGAATCGGATGGAGCAAACCGCGAAGTGGCTGCTG
AGTGAGCTTAACAAGCTTGAGAAAAAGGAACGGCGAAAGGATTGGGTTGTTCATGAAGCTGAGCTGCTTGACAAAGAGGA
CTACTTGGACGTGTACAAAAAACTGCAGGAAAGGAAACGGTTCAGCGAGAGTACGTTTAACGATTATCAAAGAGAGCAGC
AGCTGCTTGCCGCCATCATTGTGAAAAAAGCTTTCAAACCGCTCAAACAGGCGGTCAGACTCCTTGCATTTCTTGATGTT
ACACAACTTTATTTGCAATTGTTTTCTGGCTGGGGAGGAAAATTTCAGCATGAGAAGATGGATGCGATAGGTGAGCTGAC
CCGTTCGGCATTTACGGATAATAAATTGCTCTATGAGGACGCGGCACCGTTTCTTTATATGCAGGATCTGATTGAGGGCA
GAAAGAAAAATACGAAGATCAAACATCTATTTATTGACGAAGCCCAGGACTATTCACCGTTTCAGATGGCTTACATGAGA
AGCATTTTTCCGGCTGCCAGCATGACAGTGCTCGGTGATATCAATCAGTCCATCTACGCGCATACCATACACGGGGATCA
GCGTATGGATGCGTGCTTTGAGGATGAGCCTGCTGAGTATGTTCGTTTAAAGAGAACATACAGATCAACAAGGCAGATTG
TCGAGTTTACCAAAGCGATGCTTCAAGATGGAGCGGATATTGAGCCGTTTAATAGAAGCGGGGAAATGCCGCTCGTTGTC
AAAACTGAAGGACATGAGAGCCTTTGCCAAAAGCTCGCGCAAGAAATTGGCCGGCTCGAGAAAAAAGGGCACGAAACAAT
AGCCGTCATCTGCAAGACTGCGCAGCAATGCATACAGGCGCACGCCCACATGAGTGAATATACAGATGTTCGCCTGATTC
ATAAAGAAAATCAACCATTTCAAAAGGGTGTTTGCGTGATTCCGGTGTATTTAGCGAAGGGAATTGAATTTGACGCAGTG
CTTGTCTATGATGCATCTGAAGAACACTATCATACAGAGCACGACCGCAGGCTTTTATATACTGCGTGCACCCGTGCGAT
GCACATGCTGGCGGTATTTTATACAGGTGAAGTCAGTCCGTTTGTAACCGCTGTGCCGCCTCACTTATATCAGATTGCTG
AATGA


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

98.837

100

0.988


Multiple sequence alignment