Detailed information    

insolico Bioinformatically predicted

Overview


Name   priA   Type   Machinery gene
Locus tag   F1539_RS05160 Genome accession   NZ_CP043772
Coordinates   984398..986590 (+) Length   730 a.a.
NCBI ID   WP_013525560.1    Uniprot ID   -
Organism   Haemophilus influenzae biotype aegyptius strain HE24/F3037     
Function   DNA puliing through the inner membrane (predicted from homology)   
DNA binding and uptake

Genomic Context


Location: 979398..991590
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  F1539_RS05135 (F1539_05140) napA 979615..982098 (-) 2484 WP_013525562.1 nitrate reductase catalytic subunit NapA -
  F1539_RS05140 (F1539_05145) - 982135..982416 (-) 282 WP_005669058.1 chaperone NapD -
  F1539_RS05145 (F1539_05150) napF 982409..982939 (-) 531 WP_005688962.1 ferredoxin-type protein NapF -
  F1539_RS05150 (F1539_05155) - 983145..983489 (-) 345 Protein_1008 YggL family protein -
  F1539_RS05155 (F1539_05160) trmB 983574..984314 (-) 741 WP_013525561.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB -
  F1539_RS05160 (F1539_05165) priA 984398..986590 (+) 2193 WP_013525560.1 primosomal protein N' Machinery gene
  F1539_RS05165 (F1539_05170) - 986632..987678 (-) 1047 WP_005649088.1 AI-2E family transporter -
  F1539_RS05170 (F1539_05175) glnB 987678..988016 (-) 339 WP_005627040.1 nitrogen regulatory protein P-II -
  F1539_RS05175 (F1539_05180) mog 988018..988611 (-) 594 WP_013525559.1 molybdopterin adenylyltransferase -
  F1539_RS05180 (F1539_05185) - 988694..989050 (-) 357 WP_005627042.1 diacylglycerol kinase -
  F1539_RS05185 (F1539_05190) relA 989065..991296 (-) 2232 WP_013525558.1 GTP diphosphokinase -

Sequence


Protein


Download         Length: 730 a.a.        Molecular weight: 82378.57 Da        Isoelectric Point: 9.2276

>NTDB_id=338692 F1539_RS05160 WP_013525560.1 984398..986590(+) (priA) [Haemophilus influenzae biotype aegyptius strain HE24/F3037]
MKIVRVALAVPLLRLFDYFVPDDVSLQIGMRVFVPFGTQKRVAIVADFPTKSDVPEDKFKAILQPLDLAPLFTPIYWDWL
HWAANYYQAGLGDVLFQSLPVKLRNGESAVKNDRTFWRITDAGKNALEQGLLKRSKKQAEALQYLSETDLEKGNNNFSSA
IWSALKAKGFIEEITIQTNPLSWQQRLGNNPIVNAENRLTLNKQQALAFSQLLFHSGFNVWLLDGVTGSGKTEIYLQYIE
EILKSGKQVLVLVPEIGLTPQTVQRFKARFNVEIDVLHSNLTDTQRLYVWDRARSGQSAIVIGTRSALFTQFSNLGAIIL
DEEHDSSYKQQDSWRYHARDLAIVLAQKLNIAVLMGSATPSLESINNVQNGKYQHLVLSKRAGNSTALRHFVIDLKNQNI
QNGLSKPLLERMKAHLEKGNQVLLFLNRRGFAPVLLCHECGWIAQCPHCEKPYTYHQHQNVLRCHHCGAQKTIPRQCGDC
GSTHLVTTGLGTEQLEETLKTLFPHYSVARIDRDSTARKGKLEGYLEDIQQGKSQILIGTQMLAKGHHFPNVTLVALVNV
DSALFSLDFRAEERLAQLYIQVAGRAGRADKQGEVVLQTHYPDHPLLTTLLANGYQAFAKETLQLRHSMGLPPFTFQALF
KAQARHSDLAENCLSQIADFFQSKQITGLQMLGPMPAPFSKKAGQYRWQLLLQHPSRMTLQKALREYQQAELEKNSLVRL
ILDVDPQDLS

Nucleotide


Download         Length: 2193 bp        

>NTDB_id=338692 F1539_RS05160 WP_013525560.1 984398..986590(+) (priA) [Haemophilus influenzae biotype aegyptius strain HE24/F3037]
ATGAAAATTGTCCGAGTGGCACTGGCTGTGCCGCTTCTTCGTTTATTTGATTATTTCGTCCCCGATGATGTTTCATTACA
AATCGGTATGCGTGTTTTTGTGCCTTTTGGTACGCAAAAACGTGTCGCCATTGTGGCTGATTTTCCGACAAAATCGGACG
TGCCAGAGGATAAATTCAAGGCTATTCTTCAACCATTGGATTTAGCCCCACTTTTTACGCCCATTTATTGGGATTGGCTT
CATTGGGCAGCAAATTATTATCAAGCGGGATTAGGCGATGTGTTATTTCAATCCTTGCCTGTGAAATTGCGTAACGGCGA
AAGTGCGGTGAAAAATGACCGCACTTTTTGGCGAATTACAGATGCGGGGAAAAATGCCCTTGAACAAGGCCTGTTAAAAC
GCTCGAAAAAGCAAGCTGAAGCCCTACAATACTTATCTGAAACTGATCTTGAAAAAGGCAATAATAATTTTTCCTCTGCC
ATTTGGTCTGCCTTAAAAGCCAAAGGGTTTATTGAAGAAATTACTATCCAAACAAATCCCCTAAGTTGGCAACAAAGATT
AGGCAATAACCCAATTGTCAATGCTGAAAATCGTTTAACCTTAAATAAGCAGCAAGCCTTAGCCTTCAGCCAACTGCTCT
TCCATTCTGGTTTCAATGTATGGCTGCTCGATGGCGTGACTGGTTCAGGTAAAACAGAAATTTATCTGCAGTATATTGAA
GAAATTTTAAAATCGGGTAAGCAAGTATTAGTGCTTGTACCCGAAATCGGGCTAACACCTCAAACGGTACAACGTTTCAA
AGCGCGTTTCAATGTAGAAATTGATGTACTGCATTCTAATTTAACCGATACGCAACGGCTTTATGTATGGGATCGCGCCC
GCTCTGGACAAAGTGCTATTGTGATTGGCACGAGATCGGCATTGTTCACGCAATTTTCTAATCTTGGTGCAATTATTTTG
GACGAGGAACACGATTCGTCTTACAAACAGCAAGACAGTTGGCGTTACCATGCGCGAGACTTGGCGATTGTGCTGGCTCA
AAAACTAAATATTGCGGTATTAATGGGATCCGCCACGCCAAGTTTAGAAAGTATTAATAATGTACAAAACGGCAAATACC
AACATTTAGTGTTATCAAAAAGAGCGGGGAATTCTACCGCACTTCGTCATTTCGTTATTGATTTGAAAAATCAAAACATA
CAAAACGGGCTTTCAAAACCCTTATTGGAACGAATGAAAGCCCACTTAGAAAAAGGCAATCAAGTGTTGCTTTTCTTAAA
TCGTCGTGGCTTTGCACCCGTATTGCTTTGCCATGAATGTGGTTGGATTGCACAATGCCCTCATTGTGAAAAACCTTATA
CCTATCATCAGCATCAAAATGTATTGCGTTGTCATCATTGTGGCGCGCAAAAAACTATTCCTCGCCAATGTGGCGATTGC
GGTTCTACCCATTTAGTTACTACTGGTCTAGGCACAGAACAATTAGAAGAAACCTTGAAAACGCTATTTCCTCATTATTC
TGTAGCGCGAATCGACCGCGATAGCACGGCACGTAAAGGAAAATTGGAAGGTTATTTAGAAGATATTCAACAAGGCAAAA
GCCAAATTTTGATTGGCACACAAATGCTCGCGAAAGGACATCATTTTCCGAATGTTACTCTCGTTGCCTTAGTGAATGTA
GATAGTGCATTATTTTCACTGGATTTTCGTGCAGAAGAACGTTTAGCTCAACTTTATATTCAAGTTGCTGGACGTGCAGG
ACGTGCCGATAAACAAGGTGAAGTTGTGCTACAAACACATTATCCTGATCATCCTTTGCTTACCACTTTATTGGCAAATG
GCTACCAAGCTTTTGCAAAAGAAACCTTACAATTACGCCATTCAATGGGATTGCCGCCTTTTACTTTTCAGGCGTTATTC
AAAGCACAGGCTCGACATTCTGATCTTGCAGAAAATTGCTTAAGCCAAATTGCAGATTTTTTTCAATCGAAGCAAATTAC
GGGATTACAAATGCTTGGCCCAATGCCTGCACCGTTCAGCAAAAAAGCGGGGCAATATCGCTGGCAGTTATTATTGCAAC
ATCCGTCAAGAATGACGTTGCAAAAAGCATTAAGAGAATATCAACAAGCCGAACTTGAAAAAAACAGCCTAGTGCGGTTA
ATTTTGGACGTCGATCCGCAAGACTTATCATAA


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
  priA Acinetobacter baumannii D1279779

44.355

100

0.452


Multiple sequence alignment