Detailed information    

insolico Bioinformatically predicted

Overview


Name   comA   Type   Machinery gene
Locus tag   XFC3_RS09200 Genome accession   NZ_CP009829
Coordinates   2012785..2015262 (-) Length   825 a.a.
NCBI ID   WP_031337969.1    Uniprot ID   -
Organism   Xylella fastidiosa strain 3124     
Function   DNA uptake (predicted from homology)   
DNA binding and uptake

Genomic Context


Location: 2007785..2020262
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  XFC3_RS09180 (XFC3_09220) lpxK 2008914..2009933 (-) 1020 WP_010893599.1 tetraacyldisaccharide 4'-kinase -
  XFC3_RS09185 (XFC3_09225) msbA 2009930..2011678 (-) 1749 WP_031336930.1 lipid A export permease/ATP-binding protein MsbA -
  XFC3_RS09190 (XFC3_09230) - 2011696..2012133 (-) 438 WP_004089267.1 biopolymer transporter ExbD -
  XFC3_RS09195 (XFC3_09235) exbB 2012138..2012800 (-) 663 WP_004085189.1 MotA/TolQ/ExbB proton channel family protein Machinery gene
  XFC3_RS09200 (XFC3_09240) comA 2012785..2015262 (-) 2478 WP_031337969.1 DNA internalization-related competence protein ComEC/Rec2 Machinery gene
  XFC3_RS09205 (XFC3_09245) lolD 2015611..2016333 (-) 723 WP_023906833.1 lipoprotein-releasing ABC transporter ATP-binding protein LolD -
  XFC3_RS09210 (XFC3_09250) - 2016326..2017567 (-) 1242 WP_010893595.1 lipoprotein-releasing ABC transporter permease subunit -
  XFC3_RS09215 (XFC3_09255) - 2017593..2018045 (-) 453 WP_023906834.1 hypothetical protein -
  XFC3_RS09220 (XFC3_09260) - 2017996..2018244 (-) 249 WP_023906835.1 succinate dehydrogenase assembly factor 2 -
  XFC3_RS09225 (XFC3_09265) - 2018365..2019150 (-) 786 WP_010893592.1 succinate dehydrogenase iron-sulfur subunit -

Sequence


Protein


Download         Length: 825 a.a.        Molecular weight: 90732.61 Da        Isoelectric Point: 9.0670

>NTDB_id=114035 XFC3_RS09200 WP_031337969.1 2012785..2015262(-) (comA) [Xylella fastidiosa strain 3124]
MDDMKPEQRHVLQRCWVDVLSVTRHATCLRYLGFPALLPSAVALLLGCLAALTLPRLPPVWVLWIFLFAGVMLAVVVRRV
AWCGVVLFGFANCCLHGQFGLRHQLSFALEGRDLVLRGRIVSLPVPETRRTRFLLRVDTDQDQEPALRGRLLQLSWYDEN
KVVAPGPRNALHAGSVWQLHVRLRAPHSLLNPGGFDSERYALAQGIVATGYVRAPTMAREVAAATGINAWRERMSVRIAD
AVLSEASVYLRALALGDTRGLSQQDWEVLRATGLTHLIAISGFHVGMVAGACALLVSLLWRLFPHLAWRCPRPLAMALIA
VPAAAGYTVLAGASLPTVRTALMIGIVALARLTRRRAMPGHVLGLALLVVLVWDPLAILSAGFWLSFAGVAWLLWCMQDG
HAAPWRGFLSAQGVATLGLLPFTVALFGQVSFVGPFANLIAIPLWTFVVVPLALLGTALEALVPGWGSPMWRLGGTCFEW
SWQLFEYLAQTDFALWWLPESDGVALWLALLGAFWLLLPRGTPGKWLALLLWLPLLWPERERPRPGEFEMQMLDVGQGLS
IVVRTSGHTLLYDAGPAVNDGFDAGERVVVPALRASGIRRLDALVASHADSDHVGGLPAVLKAYPVDISYAPPDAPLDVE
RRCSAGDSWLWDGVQFRFLHPAPHSTYLGNESSCVLRIDTRWGSALLTGDIGKVVERGLLSQDRESVRADVVVVPHHGSA
GSSSLGFVRAVNARLALVSSGDGNRFGHPRCSVVESWSETADVLLTAHSGAVRIWVGQQGLQLRERRVWRRRFWDAVERR
RSAAILSATEDVSKERRRNETCWNW

Nucleotide


Download         Length: 2478 bp        

>NTDB_id=114035 XFC3_RS09200 WP_031337969.1 2012785..2015262(-) (comA) [Xylella fastidiosa strain 3124]
ATGGACGATATGAAACCCGAGCAGCGACACGTGTTGCAGCGATGTTGGGTTGACGTGTTAAGTGTGACCCGGCACGCAAC
CTGCTTGCGTTACCTCGGGTTTCCGGCGTTGTTGCCGAGTGCTGTTGCGTTGCTGTTGGGTTGTCTTGCTGCGCTCACCT
TGCCGCGATTACCGCCCGTATGGGTGTTGTGGATTTTTCTGTTTGCCGGAGTAATGCTCGCTGTTGTCGTGCGCCGTGTT
GCTTGGTGCGGTGTGGTGTTGTTTGGTTTTGCTAACTGTTGCTTGCATGGTCAGTTTGGTTTGCGACATCAATTGTCGTT
CGCGTTGGAGGGCCGCGATCTGGTGTTACGTGGTCGGATCGTTTCTTTGCCGGTTCCAGAGACCAGGCGCACACGTTTCT
TGTTGCGTGTGGATACCGATCAAGATCAGGAACCAGCGCTGCGTGGTCGACTGCTGCAGTTATCCTGGTATGACGAGAAT
AAGGTGGTAGCGCCGGGGCCACGCAATGCATTGCATGCTGGATCTGTATGGCAGTTGCACGTGCGTTTGCGTGCGCCGCA
CAGTTTGCTGAATCCCGGAGGTTTCGACAGCGAGCGTTATGCCCTAGCCCAGGGGATTGTTGCGACCGGTTACGTACGTG
CGCCGACGATGGCACGTGAGGTGGCGGCAGCCACTGGCATCAATGCTTGGCGGGAACGGATGTCTGTGCGTATTGCTGAT
GCGGTGTTGTCGGAAGCATCGGTGTATTTACGTGCGTTGGCGTTGGGTGATACCCGGGGCTTGTCCCAACAGGATTGGGA
AGTATTGCGCGCTACAGGGCTGACGCATTTGATTGCGATCTCGGGGTTCCATGTCGGTATGGTCGCTGGTGCCTGTGCGT
TGCTTGTGTCGTTGCTGTGGCGGCTTTTCCCACATTTGGCGTGGCGTTGTCCGCGACCACTCGCCATGGCACTCATTGCG
GTACCGGCCGCCGCCGGCTACACCGTCCTGGCTGGGGCGTCACTGCCCACAGTCAGAACCGCTTTGATGATCGGCATCGT
CGCATTGGCGCGCCTCACTCGGCGTCGTGCCATGCCGGGGCATGTCCTGGGGCTTGCCTTGCTGGTCGTACTGGTTTGGG
ATCCATTAGCCATTCTTAGTGCTGGCTTCTGGCTCAGCTTTGCCGGTGTCGCTTGGTTACTGTGGTGTATGCAAGACGGT
CATGCCGCGCCTTGGCGTGGCTTCTTATCGGCACAAGGTGTTGCAACCCTTGGGTTATTACCATTCACCGTGGCTTTATT
TGGTCAGGTTTCGTTTGTTGGGCCTTTCGCTAACTTGATTGCGATTCCGTTATGGACCTTTGTCGTTGTACCGCTGGCGT
TGTTAGGGACTGCGCTGGAAGCGTTAGTGCCAGGGTGGGGTAGCCCCATGTGGCGTTTGGGGGGAACTTGTTTCGAATGG
AGTTGGCAGCTATTCGAATACTTGGCACAGACTGATTTCGCATTGTGGTGGTTGCCGGAATCTGATGGTGTTGCATTGTG
GTTGGCCTTGCTGGGAGCGTTTTGGTTGCTGTTACCACGCGGTACGCCTGGTAAGTGGCTGGCGCTGTTGCTGTGGTTGC
CTTTGTTGTGGCCTGAGCGTGAGCGTCCCCGCCCCGGGGAGTTTGAGATGCAGATGCTGGACGTGGGGCAAGGACTGTCG
ATTGTGGTGCGTACCTCAGGCCATACGTTGTTGTACGACGCAGGTCCAGCAGTGAATGATGGTTTCGATGCCGGTGAGCG
TGTTGTGGTGCCGGCATTACGTGCCAGTGGCATCCGTCGCTTGGATGCATTGGTGGCTAGTCATGCTGATAGTGATCACG
TCGGAGGTTTGCCCGCGGTCCTGAAGGCTTATCCGGTTGATATCAGCTACGCTCCGCCGGATGCTCCACTCGACGTGGAG
CGCCGTTGCAGTGCTGGGGACAGTTGGCTGTGGGATGGAGTCCAGTTTCGTTTCTTACATCCTGCACCGCATTCGACGTA
TTTAGGTAACGAGTCCAGTTGTGTATTGCGTATCGACACGCGCTGGGGCAGTGCTTTGTTGACGGGTGACATCGGCAAAG
TGGTCGAACGTGGTTTATTGAGTCAGGATCGTGAGAGTGTACGTGCCGATGTGGTGGTCGTACCGCATCATGGGAGCGCC
GGTTCTTCCTCGCTTGGGTTTGTCCGTGCGGTTAATGCGCGGTTAGCTTTGGTATCCAGTGGTGATGGTAACCGCTTCGG
TCATCCGCGCTGTTCGGTGGTGGAGAGCTGGAGTGAAACGGCAGATGTGTTGCTTACTGCGCATAGCGGCGCAGTACGGA
TTTGGGTTGGACAGCAGGGTCTGCAGTTACGTGAACGCCGTGTTTGGCGTCGTCGATTCTGGGATGCGGTCGAACGTCGC
CGATCCGCTGCTATCCTATCCGCCACTGAAGATGTATCCAAAGAGCGTCGGAGAAACGAGACATGCTGGAACTGGTAA


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
  comA Ralstonia pseudosolanacearum GMI1000

37.153

100

0.373