Detailed information    

insolico Bioinformatically predicted

Overview

Name   addA   Type   Machinery gene
Locus tag   P5623_RS09545 Genome accession   NZ_CP120625
Coordinates   1704739..1708443 (-) Length   1234 a.a.
NCBI ID   WP_146269913.1    Uniprot ID   -
Organism   Bacillus altitudinis strain DSM 103869     
Function   homologous recombination; plasmid transformation (predicted from homology)   
Homologous recombination

Genomic Context

Location: 1699739..1713443
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  P5623_RS09530 (P5623_09530) - 1699829..1700128 (-) 300 WP_017360217.1 hypothetical protein -
  P5623_RS09535 (P5623_09535) sbcC 1700146..1703541 (-) 3396 WP_061418621.1 exonuclease subunit SbcC -
  P5623_RS09540 (P5623_09540) sbcD 1703538..1704713 (-) 1176 WP_007499123.1 exonuclease subunit SbcD -
  P5623_RS09545 (P5623_09545) addA 1704739..1708443 (-) 3705 WP_146269913.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  P5623_RS09550 (P5623_09550) addB 1708421..1711930 (-) 3510 WP_268414171.1 helicase-exonuclease AddAB subunit AddB Machinery gene
  P5623_RS09555 (P5623_09555) - 1712097..1712543 (+) 447 WP_268414174.1 ferritin-like domain-containing protein -
  P5623_RS09560 (P5623_09560) - 1712734..1713144 (-) 411 WP_008348626.1 DoxX family protein -

Sequence

Protein


Download         Length: 1234 a.a.        Molecular weight: 142739.62 Da        Isoelectric Point: 5.0956

>NTDB_id=807204 P5623_RS09545 WP_146269913.1 1704739..1708443(-) (addA) [Bacillus altitudinis strain DSM 103869]
MQIPKPNNSTWTDDQWNAIVSEGQDILVAAAAGSGKTAVLVERLIRKMTRPEQPVDVDRLLVVTFTNASAAEMKHRITEA
LEKELSKNPGSLHMRRQLSLMNRANISTLHSFCLQVLRTFYYEIDLDPGFRLADQTEGELLGDEVLDELFEDEYKAGKPS
FFELVDRYTSDRHDLDLQWLVKRIYEFSRSHPAPEQWMRAFLSLYDVDTQTKVEELPFYPYIKEDLSLVLRSCQELLEQA
LTLSKEPGGPAPRAENFIDDLEQVNELIRHQDDFGTLYELLPNINFKRLKTCKGDDYDPALLEKATDARNQAKKQLEKLK
DEYFMRSPDQHLKSLAEMKPVVETLVELVIQYGERFERAKQEKSIVDFSDLEHYCLRILAKQDAEGNLIETEAAKYYQQQ
FEEVLVDEYQDTNLVQETILKLVSKGKHPAEGNRFMVGDVKQSIYRFRLAEPMLFLNKYKQFKADSKETGKRIDLNKNFR
SRADVLDSTNFLFKQLMGETVGEIEYDEQAELKLGASYPQSEDTTSEMLLVHLDQHDTENDEEREELETVQFEARVIAKK
IKELVEQPFQVYDAKQQLTRNLQYRDIVILLRSMPWAPQMMEELKKQGIPVYANLSSGYFEATEVSVILSLLKVIDNPYQ
DIPLAAVLRSPLVHLDENEMALIRTSDKKGTYYDAVKAFMSVTHSDHPTCRKLERFFLQLRKWRDFSIQHSVAELIWEVY
RDTQYLDYVGGMPGGKQRQANLRALYDRAKQYEKAAFRGLFRFLRFIERMQERGDDLGAAKTFSETEDVVRMMTIHSSKG
LEFPVVFTAGLGRNFNMMDLNQSYLLDKELGFGSKYIHPELRISYATLPLIAMKKKMRKELLSEELRVLYVALTRAKEKL
FLVGSVKNQVKALSKWQNAANGDDWLLPDFERYQARTYLDFIGPALIRHQAMSSLLEESREVVLSHPSSFSITFHQASDL
LQEDISLEKQKQDEVVQALMEGVPVQGYGDYEEEVKERLSWRYPYLAASQVGTKQSVSEIKRMKEIQDEYSVPSSIRKAH
ATLYERPAFMKKKTLTAAEQGTAMHTVMQHIPLPSNEPYDESRVEELLHSLKEKDLLTDEQIQSINREGIVAFFSTAIGQ
KLRKADWVKREVSFSMVLPVKEVYSHIDAEGEPVLIQGMIDCLFEADGKLYLLDYKTDRVTGRFSGGLEEAEAMLKKRYE
TQISLYTAAVERLTNRTLEEKILYFFDENLEISL

Nucleotide


Download         Length: 3705 bp        

>NTDB_id=807204 P5623_RS09545 WP_146269913.1 1704739..1708443(-) (addA) [Bacillus altitudinis strain DSM 103869]
ATGCAAATACCAAAACCGAATAACAGTACTTGGACAGATGACCAATGGAACGCCATCGTTTCAGAAGGACAAGATATTCT
TGTTGCTGCGGCGGCAGGGTCAGGGAAAACAGCGGTCTTGGTTGAACGGCTCATTCGAAAAATGACTCGGCCGGAGCAGC
CAGTTGATGTGGACAGGCTGCTCGTAGTGACTTTTACCAATGCTTCAGCAGCAGAAATGAAGCACCGGATCACTGAAGCA
CTTGAAAAAGAACTATCTAAAAACCCTGGTTCCCTTCATATGCGGAGACAGCTGTCACTTATGAATCGTGCCAATATTTC
TACCTTGCACTCTTTTTGTTTGCAAGTTCTCCGTACCTTTTATTATGAGATTGACCTTGATCCAGGTTTTCGTTTGGCTG
ATCAAACAGAAGGAGAATTATTAGGAGATGAAGTGTTAGATGAACTGTTTGAGGATGAGTATAAGGCTGGAAAGCCGTCA
TTCTTTGAACTCGTTGATCGTTACACATCTGATCGGCATGATTTAGATCTTCAATGGCTTGTCAAAAGAATTTATGAGTT
TTCTAGGTCACATCCAGCGCCCGAACAATGGATGCGGGCATTCCTTTCTCTTTATGATGTGGATACACAGACAAAGGTAG
AAGAGTTACCCTTTTATCCATATATCAAAGAGGACCTTTCTCTCGTTTTAAGAAGCTGTCAGGAACTGCTGGAACAAGCG
CTCACTTTATCAAAAGAGCCGGGCGGTCCAGCACCGAGAGCAGAGAATTTTATAGATGATTTAGAGCAAGTAAATGAATT
AATAAGGCATCAAGATGATTTTGGAACACTTTATGAGCTTTTGCCAAACATCAATTTTAAAAGGTTAAAGACTTGCAAAG
GGGATGACTATGACCCAGCTCTGTTAGAAAAAGCAACAGATGCACGCAATCAAGCCAAAAAACAATTAGAAAAGCTAAAA
GATGAATACTTTATGCGCAGTCCCGATCAGCATTTAAAAAGCTTGGCTGAAATGAAGCCAGTTGTAGAAACACTTGTAGA
GCTTGTGATTCAATATGGCGAGCGTTTCGAGAGAGCAAAACAAGAAAAATCAATCGTAGACTTTTCTGATCTAGAACATT
ATTGTTTGCGCATTTTAGCGAAGCAGGACGCAGAAGGAAATCTCATTGAAACAGAAGCGGCTAAATACTATCAACAGCAA
TTTGAAGAAGTACTCGTGGATGAATACCAGGATACAAACCTTGTCCAAGAAACGATTTTAAAGCTCGTGTCTAAAGGAAA
ACATCCTGCCGAAGGCAACCGCTTTATGGTTGGTGATGTGAAGCAGTCCATTTATCGCTTTAGACTTGCAGAGCCGATGC
TCTTTTTAAATAAATATAAACAATTCAAAGCAGATAGCAAAGAAACAGGTAAAAGAATTGATCTAAATAAAAACTTCCGC
AGCCGGGCTGATGTTTTAGACAGTACCAACTTTCTGTTCAAACAGCTGATGGGAGAAACAGTTGGAGAAATTGAATATGA
TGAACAAGCTGAATTAAAGCTTGGAGCGAGTTATCCGCAAAGCGAAGACACGACGTCAGAAATGCTTCTTGTTCATTTAG
ATCAGCACGACACAGAAAACGATGAAGAACGAGAAGAGTTAGAGACGGTACAATTTGAGGCGAGAGTGATTGCGAAGAAA
ATAAAAGAACTGGTAGAACAGCCTTTTCAAGTGTACGATGCAAAACAGCAGCTGACCCGCAACTTGCAGTATCGAGACAT
TGTGATCTTGCTTCGCTCAATGCCGTGGGCTCCGCAAATGATGGAAGAGTTGAAGAAGCAGGGAATCCCTGTTTATGCGA
ATCTTTCCTCAGGTTATTTTGAAGCTACAGAAGTATCTGTCATTCTTTCTTTGTTAAAAGTGATTGATAATCCATATCAA
GATATTCCGCTCGCTGCTGTTTTAAGGTCACCTCTTGTTCATTTAGACGAAAATGAGATGGCACTGATTAGAACAAGTGA
TAAAAAAGGCACTTATTATGACGCTGTGAAGGCATTTATGAGTGTGACACACTCTGATCATCCGACATGCAGAAAGCTGG
AGCGTTTCTTCCTTCAATTACGCAAATGGCGTGATTTTTCGATTCAGCATTCGGTAGCAGAACTGATTTGGGAAGTGTAC
CGAGATACACAATATCTAGATTATGTCGGCGGGATGCCAGGAGGTAAGCAAAGACAGGCAAACCTTCGGGCTTTATATGA
TCGAGCGAAACAGTATGAAAAGGCTGCATTTAGAGGGCTGTTTCGATTTCTTCGATTTATTGAAAGAATGCAAGAGCGTG
GAGATGATCTTGGAGCGGCAAAAACGTTCAGTGAAACAGAGGATGTTGTCCGCATGATGACCATTCATAGCAGTAAAGGA
CTCGAATTCCCTGTTGTGTTTACTGCAGGACTTGGCAGGAACTTTAACATGATGGATTTAAACCAGTCCTATTTGCTCGA
TAAAGAATTAGGTTTTGGCAGCAAATATATTCATCCTGAGCTGAGAATTAGTTATGCAACATTACCGCTGATCGCGATGA
AAAAAAAGATGAGAAAAGAACTATTATCTGAAGAACTGAGGGTTCTATATGTGGCGCTCACAAGGGCAAAGGAAAAATTA
TTTTTAGTCGGCTCTGTCAAAAATCAAGTGAAAGCTTTAAGCAAGTGGCAAAATGCCGCAAACGGAGACGACTGGCTTCT
TCCTGATTTTGAACGATATCAAGCGAGAACATACTTAGATTTTATTGGCCCAGCTCTTATCCGTCATCAAGCGATGTCTT
CTCTTTTAGAAGAATCGAGAGAAGTCGTTCTCTCGCATCCATCATCATTTTCTATCACCTTTCATCAAGCGTCCGATCTT
CTACAAGAAGACATATCACTTGAAAAACAAAAACAAGACGAAGTGGTACAAGCATTAATGGAAGGTGTGCCTGTTCAAGG
ATATGGCGATTACGAGGAGGAAGTAAAAGAAAGACTTTCATGGCGTTATCCATATTTAGCGGCCTCCCAAGTAGGGACAA
AGCAGTCAGTTTCTGAAATCAAAAGAATGAAAGAAATACAGGATGAATACAGTGTGCCTTCTTCCATTCGAAAAGCTCAT
GCGACACTGTACGAACGACCGGCTTTTATGAAGAAAAAAACACTCACAGCCGCAGAACAAGGGACGGCCATGCATACAGT
TATGCAGCATATCCCTCTTCCTTCAAATGAACCATATGATGAATCTCGTGTAGAAGAGCTGCTCCATTCTTTAAAAGAGA
AAGACTTACTAACAGATGAACAAATCCAGTCCATCAATCGAGAAGGAATTGTGGCCTTCTTTTCTACTGCTATTGGTCAA
AAACTGCGGAAAGCGGACTGGGTGAAACGAGAAGTATCGTTTAGTATGGTTTTACCGGTTAAAGAGGTATACAGCCATAT
TGATGCAGAAGGTGAACCTGTGCTCATTCAAGGAATGATTGATTGTTTATTTGAAGCAGATGGCAAGCTCTATTTACTTG
ATTATAAAACAGATCGAGTGACTGGCAGATTCTCAGGTGGCTTAGAGGAAGCTGAAGCGATGTTAAAAAAACGCTATGAA
ACGCAAATATCGTTGTATACAGCAGCGGTAGAGCGTTTAACAAACAGAACATTAGAGGAGAAAATCCTTTATTTCTTTGA
TGAAAATCTAGAAATTTCTTTATAG

Domains

Predicted by InterproScan.

UvrD/REP helicase N-terminal domain (UvrD-helicase)

(11-463)

PD-(D/E)XK nuclease superfamily (PDDEXK_1)

(1052-1227)

UvrD-like helicase C-terminal domain (UvrD_C)

(473-883)


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
  addA Bacillus subtilis subsp. subtilis str. 168

66.992

99.676

0.668