Detailed information    

insolico Bioinformatically predicted

Overview

Name   addA   Type   Machinery gene
Locus tag   Q6357_RS19825 Genome accession   NZ_CP130888
Coordinates   3859418..3863122 (-) Length   1234 a.a.
NCBI ID   WP_304717295.1    Uniprot ID   -
Organism   Bacillus altitudinis strain 28M1-1     
Function   homologous recombination; plasmid transformation (predicted from homology)   
Homologous recombination

Genomic Context

Location: 3854418..3868122
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  Q6357_RS19810 (Q6357_19810) - 3854508..3854807 (-) 300 WP_017360217.1 hypothetical protein -
  Q6357_RS19815 (Q6357_19815) sbcC 3854825..3858220 (-) 3396 WP_061418621.1 exonuclease subunit SbcC -
  Q6357_RS19820 (Q6357_19820) sbcD 3858217..3859392 (-) 1176 WP_056705134.1 exonuclease subunit SbcD -
  Q6357_RS19825 (Q6357_19825) addA 3859418..3863122 (-) 3705 WP_304717295.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  Q6357_RS19830 (Q6357_19830) addB 3863100..3866609 (-) 3510 WP_304717296.1 helicase-exonuclease AddAB subunit AddB Machinery gene
  Q6357_RS19835 (Q6357_19835) - 3866776..3867222 (+) 447 WP_007499129.1 ferritin-like domain-containing protein -

Sequence

Protein


Download         Length: 1234 a.a.        Molecular weight: 142827.75 Da        Isoelectric Point: 5.1242

>NTDB_id=861570 Q6357_RS19825 WP_304717295.1 3859418..3863122(-) (addA) [Bacillus altitudinis strain 28M1-1]
MQIPKPNNSTWTDDQWNAIVSEGQDILVAAAAGSGKTAVLVERLIRKMTRPEQPVDVDRLLVVTFTNASAAEMKHRITEA
LEKELSKNPGSLHMRRQLSLMNRANISTLHSFCLQVLRTFYYEIDLDPGFRLADQTEGELLGDEVLDELFEDEYKAGKPS
FFELVDRYTSDRHDLDLQWLVKRIYEFSRSHPAPEQWMRAFLSLYDVDTQTKVEELPFYPYIKEDLSLVLRSCQELLEQA
LTLSKEPGGPAPRAENFIDDLEQVNELIRHQDDFETLYELLPTINFKRLKTCKGDDYDPALLEKATDARNQAKKQLEKLK
DEYFMRSPDQHLKSLAEMKPVVETLVELVIQYGERFERAKQEKSIVDFSDLEHYCLRILAKQDAEGNLIETEAAKYYQQQ
FEEVLVDEYQDTNLVQETILKLVSKGKHPAEGNRFMVGDVKQSIYRFRLAEPMLFLNKYKQFKADNKETGKRIDLNKNFR
SRADVLDSTNFLFKQLMGETVGEIEYDEQAELKLGASYPQREDTTTEMLLVHLDQHDTESDEEREELETVQFEARVIAKK
IKELVEQPFQVYDAKQQLTRNLQYRDIVILLRSMPWAPQMMEELKNQGIPVYANLSSGYFEATEVSVILSLLKVIDNPYQ
DIPLAAVLRSPLVHLDENEMALIRTSDKKGTYYDAVKAFMSVTHSDHPTCRKLERFFLQLRKWRDFSIQHSVAELIWEVY
RDTQYLDYVGGMPGGKQRQANLRALYDRAKQYEKAAFRGLFRFLRFIERMQERGDDLGAAKTFSETEDVVRMMTIHSSKG
LEFPVVFTAGLGRNFNMMDLNQSYLLDKELGFGSKYIHPELRISYATLPLIAMKKKMRKELLSEELRVLYVALTRAKEKL
FLVGSVKNQVKALSKWQNAANGDDWLLPDFERYQARTYLDFIGPALIRHQAMSSLLEESREVVLSHPSSFSITFHQASDL
LQEDMSLEKQKQDEVVRALMEGVPVQGYGDYEEEVKERLSWRYPYLAASQVGTKQSVSEIKRMKEIQDEYSVPSSIRKAH
ATLYERPAFMKKKTLTAAEQGTAMHTVMQHIPLPSNEPYDESRVEELLHSLKEKDLLTDEQIQSINREGIVAFFSTAIGQ
KLRKADWVKREVSFSMVLPVKEVYSHIDAEGEPVLIQGMIDCLFEADGKLYLLDYKTDRVTGRFSGGLEEAEAMLKKRYE
TQISLYSAAVERLTNRTLEEKILYFFDGNLEISL

Nucleotide


Download         Length: 3705 bp        

>NTDB_id=861570 Q6357_RS19825 WP_304717295.1 3859418..3863122(-) (addA) [Bacillus altitudinis strain 28M1-1]
ATGCAAATACCAAAACCGAATAATAGTACTTGGACAGATGACCAATGGAACGCCATCGTTTCAGAAGGACAAGATATTCT
TGTTGCTGCGGCTGCAGGGTCAGGGAAAACAGCGGTCTTGGTTGAACGGCTCATTCGAAAAATGACTCGGCCGGAGCAGC
CAGTTGATGTGGACAGGCTGCTCGTAGTGACTTTTACCAATGCTTCAGCAGCAGAAATGAAGCACCGGATCACTGAAGCA
CTTGAAAAAGAACTATCTAAAAACCCTGGTTCCCTTCATATGCGGAGACAGCTGTCACTTATGAATCGTGCCAATATTTC
TACCTTGCACTCCTTTTGTTTGCAAGTTCTCCGTACCTTTTATTATGAGATTGACCTTGATCCAGGTTTTCGTTTGGCTG
ATCAAACAGAAGGAGAATTACTAGGAGATGAAGTGTTAGATGAACTGTTTGAGGATGAGTATAAGGCTGGAAAGCCGTCA
TTCTTTGAACTCGTTGATCGTTACACATCTGATCGGCATGATTTAGATCTTCAATGGCTTGTCAAAAGAATTTATGAGTT
TTCTAGGTCACATCCAGCGCCCGAACAATGGATGCGGGCATTCCTTTCTCTTTATGATGTGGATACACAGACAAAGGTAG
AAGAATTACCCTTTTATCCATATATCAAAGAGGACCTTTCTCTCGTTTTAAGAAGCTGTCAGGAACTGCTGGAACAAGCG
CTCACTTTATCAAAAGAGCCGGGCGGTCCAGCACCGAGAGCAGAGAATTTTATAGATGATTTAGAGCAAGTAAATGAATT
AATAAGGCATCAAGATGATTTTGAGACACTTTATGAGCTTTTACCAACTATCAATTTTAAAAGGTTAAAGACTTGCAAAG
GGGATGACTATGACCCAGCTCTGTTAGAAAAAGCAACAGATGCACGCAATCAAGCCAAAAAACAATTAGAAAAGCTAAAA
GATGAATACTTTATGCGCAGTCCCGATCAGCATTTAAAAAGCTTGGCTGAAATGAAGCCAGTTGTAGAAACACTTGTAGA
GCTTGTGATTCAATATGGAGAGCGTTTCGAAAGAGCCAAACAAGAAAAATCAATCGTAGACTTTTCTGATCTAGAACATT
ATTGTTTGCGCATTTTAGCGAAGCAGGACGCAGAAGGAAATCTCATTGAAACAGAAGCGGCTAAATACTATCAACAGCAA
TTTGAAGAAGTTCTCGTGGATGAATACCAGGATACAAATCTTGTCCAAGAAACGATTTTAAAGCTAGTGTCTAAAGGGAA
ACATCCTGCAGAAGGCAACCGCTTTATGGTTGGTGATGTGAAGCAGTCCATTTATCGCTTTAGACTTGCAGAGCCGATGC
TCTTTTTAAATAAATATAAACAATTTAAAGCAGATAACAAAGAAACAGGTAAAAGAATTGATCTAAATAAAAACTTCCGC
AGCCGGGCTGATGTATTAGACAGTACCAACTTTCTGTTCAAACAGCTGATGGGAGAAACAGTTGGAGAAATTGAATATGA
CGAACAAGCTGAATTAAAGCTTGGAGCGAGTTATCCGCAAAGAGAAGACACGACGACAGAAATGCTTCTTGTTCATTTAG
ATCAGCACGACACAGAAAGCGATGAAGAACGAGAAGAGCTAGAGACGGTACAATTTGAGGCGAGAGTGATTGCAAAGAAA
ATAAAAGAATTGGTAGAACAGCCTTTTCAAGTGTACGATGCAAAACAGCAGCTGACCCGCAACTTGCAGTATCGAGACAT
TGTGATCTTGCTTCGATCAATGCCGTGGGCTCCGCAAATGATGGAAGAGTTGAAGAATCAGGGAATCCCTGTTTATGCGA
ATCTTTCCTCAGGTTATTTCGAAGCTACAGAGGTATCTGTCATTCTTTCTTTGTTAAAAGTGATTGATAATCCATATCAA
GATATTCCGCTCGCTGCTGTTTTAAGGTCACCTCTTGTTCATTTAGACGAAAATGAGATGGCACTGATTAGAACCAGTGA
TAAAAAAGGCACTTATTATGATGCTGTAAAGGCATTTATGAGTGTGACACACTCTGATCATCCGACATGCAGAAAGCTGG
AGCGATTCTTCCTTCAATTACGCAAATGGCGTGATTTTTCGATTCAGCATTCGGTAGCAGAACTGATTTGGGAAGTGTAC
CGAGATACACAATATCTAGATTATGTCGGCGGGATGCCAGGAGGTAAGCAAAGACAGGCAAACCTTCGGGCTTTATATGA
TCGAGCGAAACAGTATGAAAAGGCTGCATTTAGAGGGCTGTTTCGATTTCTTCGATTTATTGAAAGAATGCAAGAGCGTG
GAGATGATCTTGGAGCGGCAAAAACGTTCAGTGAAACAGAGGATGTTGTCCGCATGATGACCATTCATAGCAGTAAAGGA
CTCGAATTCCCTGTTGTATTTACTGCAGGACTTGGCAGGAACTTTAACATGATGGATTTAAACCAGTCCTACTTGCTCGA
TAAAGAATTAGGCTTTGGCAGCAAATATATTCATCCTGAGCTGAGAATTAGTTATGCAACATTACCGCTGATCGCGATGA
AAAAAAAGATGAGAAAAGAGTTATTATCTGAAGAACTGAGGGTTCTATATGTGGCGCTCACAAGGGCGAAGGAAAAATTA
TTTTTAGTCGGCTCTGTCAAAAATCAAGTGAAAGCTTTAAGCAAGTGGCAAAATGCCGCAAACGGAGACGACTGGCTCCT
CCCTGACTTTGAACGATATCAAGCGAGAACATACTTAGATTTTATTGGCCCTGCTCTTATCCGTCATCAAGCGATGTCTT
CTCTTTTAGAAGAATCGAGAGAAGTCGTTCTCTCGCATCCATCATCATTTTCTATCACCTTTCATCAAGCGTCCGATCTT
CTACAAGAAGACATGTCACTTGAAAAACAAAAACAAGACGAAGTGGTACGAGCATTAATGGAAGGTGTGCCTGTTCAAGG
ATATGGCGATTACGAGGAGGAAGTAAAAGAAAGACTTTCATGGCGTTATCCATATTTAGCGGCCTCCCAAGTAGGGACAA
AGCAGTCAGTTTCCGAGATCAAAAGAATGAAAGAAATACAGGATGAATACAGTGTGCCTTCTTCCATTCGAAAAGCTCAT
GCGACACTGTACGAACGACCGGCTTTTATGAAGAAAAAAACACTCACAGCCGCAGAACAAGGGACGGCCATGCATACAGT
CATGCAGCATATCCCTCTTCCTTCAAATGAACCATATGATGAATCTCGTGTAGAAGAGCTGCTCCATTCTTTAAAAGAGA
AAGACTTACTAACAGATGAACAAATCCAGTCCATCAATCGAGAAGGAATTGTGGCCTTCTTTTCTACTGCTATTGGTCAA
AAACTGCGGAAAGCGGACTGGGTGAAACGAGAAGTATCGTTTAGTATGGTTTTACCGGTTAAAGAGGTATACAGCCATAT
TGATGCGGAAGGTGAACCTGTGCTCATTCAAGGAATGATTGATTGTTTATTTGAAGCAGATGGCAAGCTCTATTTACTTG
ATTATAAAACAGATCGAGTGACTGGCAGATTCTCAGGTGGATTAGAGGAAGCTGAAGCGATGTTAAAAAAACGCTATGAA
ACACAAATATCGTTGTATTCAGCAGCGGTAGAACGTTTAACAAACAGAACATTAGAGGAGAAAATCCTTTATTTCTTTGA
TGGAAATCTAGAAATTTCTTTATAG

Domains

Predicted by InterproScan.

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

(11-463)

UvrD-like helicase C-terminal domain (UvrD_C)

(473-883)

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

(1052-1226)


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

66.774

100

0.669