Effector profile
PlantPEAD ID: PlantPEAD00374 Uniprot ID: Q888Y1 Source: Article
Localization: Cytoplasmic(Pre) Pathogen taxonomy ID: 317 Pathogen type: Bacteria
Species: Pseudomonas syringae Strain: pv. tomato strain ATCC BAA-871 / DC3000 Other name: Pseudomonas syringae tomato
Gene name: HopR1 NCBI Gene ID: AE016853
Entry name: Q888Y1_PSESM Protein name: Type III effector HopR1
DOI: 10.3389/fpls.2018.00978
Gene/Protein information
Gene sequence:
ATGGTCAAGGTTACCTCTTCCGGATTTACTGCCAACCCTCTCTCTCATCATGCGGACAGTGTTTCCCCCGCGAACAGTCCCCCTCAGTTACCGGAGCCTGTGCATCTGGTTGATTTAAGCGAGTCGTCCCGCAAGGGCGGCATGCGAAATCGGCCGCATGCCAGTTTGAACAGTCAGGTGCTCGAACTGCAAGCGGTGCCGTCGCAACGTGGAAAGCATGTTCGTGTCAGAAGTCATGCCGATGGCGAGAGTGTCATTAATGCCTGGCTGGCAAAGCGCCCCTCGGTTCAAAGCGAAACCAGTCTTGATAACGATGGCAAACTGGTGCGTTACACCCCCGTGAATCATGAGCCGCTGGCGCCGCGCAATGAGGCGTTTTTCACCTCGGTGCCGGGGATGTTGATGGCCGTTTTGACGGTCCACCCCGAGATGGAACATGGCATCAGCGGGGACATAACTGCTGATGCTGTGGCTGCCCGGCTTGCCGAACCGCCAATAGGGTTGCTAACCGGAATCTGGCAGTCTTCCCATGATCGAGCCTATCTGGAGCGTGGCGGTGTGGTGCATACCGCCAATATGGAAGAGCGCTGGGCGCCGTTGACGCTGCCAGGCATCAATCCCCGAGAGCCCCTGCGAATGGCCGGTTTGCAGGCCGATGGTGGAGTCTATCTGCATAACGGCAGCCAACTGTGGCGCTTGACCGAAACTGCCGCCGAGTCCGTGACCACCGAAAACCTTCCTGAAGGTGCGGCGGTACGCATTGGCGCCGGTGGCGAGGTGCATGGGCTGCATGAAGGCGCGCTTCATTCGAATGGCATTTCCCGTCCAATCGAGCTTTGGCGGCCAAAAGCTGGCGCGCCGGGGCGCGAGCAGAGTCCGGCGCGCCCCGTTGATTTGCTGCCGTTACCGGGTGGCACCGCTGCACTGATCCTTGATGACAAGGGACGTATTTATCACGCTGATCTGAAAGGCACAGGCGCTGTTGAAGCCCACCGGCTGAAATTACCTGCTGACTTTGCGCAGGGTAAAGGTTGGGCCGTGACCGCCATGGGATTGTCCCGAGACGACACTGTTCATCTGATGCTGCAGGATCAGAACGGGCGTCGCATGAGCTTGCAGCGAGCACCGGGCGAGGCGCTGTTTCGTCCTGCGTACCTGCTGGATCGCCCGTTGCTGCTGCTCTATACCGAAGGGCTGCATGTTCCGTCGGAGGCCGCGGTGCAGTCGCACGTTCAGCTTGATGGTCATGCTCAACTGGGGCATATCGATGGCGTGCTGCATTATAAAGCGGCTCCCGATCAGTCATGGGAACGGCTAAAGCAGTCGGGCGGCGAACCGCTGACGGGTTTGACTGCTCTTTATTCCAGCCCGCTGGGATTTATCGACAGGAAACCGGTTTTCGCTTTAGTGGGGGATGCCCGGCAGGTGGTCGAGTTGAAACTGGAGGGGCGTACATCCTGGTTGCCGAGCGATGCCGAGCTTCCGCGTCACCCTGCGGGCGGGCCTTTGGCGGTGATACCGGATACGGTAGCGTTACGCACCAGCCCGATCGCGCAGTTTGACGAGCCTGTACAGGCGCTGGCGGTTCACGGTAATCGCCGGGTCGTCGCGCTGACGGATTCGGGGCGATTAATGGCTGCCGATGCGGACACCCCAGCCCGCCGACTTCCCACGTTGCAGCGCCCCATCGCCATCGCCGTAGGGCTCAACGATCAGTTACTGGTGCTGCATCATCCCCATAGCCAGCGCCCCCAGTTGAAACGGTTGAGTGCGAAAGATGACTGGGAGCCGGTGCCGATAATTCTGCCGGGTATTGTTCACCCTTCAAGTCTTCGCGCTACTCGCACGGGGCAAATACAAGTGCAGCTGGGAGAAAACTGGCATACGTTGCTGCCATCAATGACGTCGCACGATAATCAGCGCTTACCTGCCCGCGTAAAACCTGAACCAGAGGGGGATGAGGCGCCGTCGGCGAATTTCCTGGCGGGTAGCAACGCCCTCGCCAATCAGCAGCAAGCCAGTCGTATCAGCACACCGCATCATGACGCATCGGTGGTTACGACGCTGGCGGGGACAACAGCCAACAACCCGTTGACGATGGCGTCGAGCCTACAGGCAGTGGTTGATACGACCCGCGCTCAGGTAGGCGCGTTGGCGAGAGATGTAGTGGGCGCAGCGGCGAACAGCACGATGCGGGCAATGGCGCATACCTTGGGTGTTGTACTGCCGCCAACGCCTCAGGAGAAGCGCCTGGCCAGTTTCCATAATGAGGCGAAACAGGCTTATACATCAGGAAAAATACTGTTTGAGCATCTGCCGTCACTCGCGCAAGTGCGCGTCGCTTCAGCCGTAGGGCCGTCGGACGGAGAAAGATTCGGGCTGTCACATCAGCAAACGCAACGCTTGTTGACGCTGCGAGAGGGGAAGCTGGAAGCGCTGTTACGCGACTTGCGCAAGATCGGCTTTCATGAAGGGGTGATCATGGGCGATATGGGCGACAGCGACAGTGCGCACGGTCTTGTTTCGACGACATCGACACCAACGTTCCGGCTGGCCGAGCTATGGCGACGGCAGCATTCGCGAGTGGATAAGGCGCTGTCTTCCGCTGGATTATCCAGATCGGAAGATATTTTTCCGGACTTGAACCTAAGTATCAACGCGTTGGCTGGCGGCGCGGCGCTGAATGCGGATCGTATGAGCGAACGTGAAGCTGAGTTGTTGAGCGTTTTGTGCGAGGTCAGCGAAAAAATGATGCGCGCTGGCGTACGCTTGCCGGCAGATGATGGAAGCGTTGACAGCGCCCACAGCCAGGCGCCATACGGCTTGAGAACAGCAGGATTGATTGCAGGTCTGGTGGACTATGATGCGCTGTTGAGCAGTACCGACGCGCAGGCGCTGGAAATGGCGGAGCGACTTCAGCAAGATGCCAGGCTTGCTGCATTGTGCAAACTCGGTCTGTCTTCGTGGGGTCAATTAGCGGCCTTCGATGATGTGGTGACGACGTTTCGCGAACAGATATCGTTACCGGGCTCGGCACGCCGCACCCAGTTGCTCAAAAATCTTGGCTTGCCACCCGATGCCGCGCCGGACGAAATGGCGGCGCGCATGTCCGACTTACTCCTGGATCTGTTCAACCGGAGCACCTTCTTTTCGACGCAGTCGCGTGGTCTGGAACTGCGCGGTTCGTTGGGATCGGCTGACTGGAAACATCTCAATGCGTTCAGCGTCGGCGTGACTGGCGAGGCGCTTCAAGTGCTCGGCGTAGAGCGCATCGGCGATGGCAAGGACGGCGATGCCGGGTTGGTCGCGTTTTTTGTGCGCCACGCCAAAGCCTCTGTATCTGCGACGTCAGGGATCGGAATCGATTTCAAGCCAGGCCCCGGCACTGGCGGCCGTGTTATTGATTCGCGACCGGGTCGCTCGATGAACTCGACGTGGGGAGGCTCTACCAACCTGGGTATTTCCGGCGCGTACCAGCATGGTCAGGGCGCCGCCGTGATCATCGCACCGTCGACGATCTCCGATTTCGTGCGGCTGTTATTCGATGTCAACCATCCCGATACCACCCAAATCCTGCGCACCGGTGTGAACGGTGGTTCGATTGGTCTTGATCTGTTTGAAACCAATGTGAATGCCTCTGTGGGGGCGAACGTCAGCGTATCGCCATTCAGCCTGAGCCAGAAATATGGGCCACAGAAACCGACGGCAGATGCGGCCGTCTCTGGCCCAGACAATCGGCGCAGCACCGCGTCAGGGTCGTTGTCGGTAGGCGGGACGGCTCAGGCTGGCGCGCACTGGGGGCAAATGGAGTTGCACCTGGATCACGCCTGGGCCGATATTATCGGTCTGGAATTTCAGGGCCGCACGGATTTCAATCTTGAATTCAATAGCGGCCTGAATCTGGGAGGCGCGCTGTCTTCCGCGCTGGGCGATAACCCCCAAAAGTTGATAAATGCGTCCACTGGAAACGGCAATCTGCAACTCGCCGGCATCCGCGTCGCGTCAAGCGATGTGCAGTTGCCGACCGATGCTGTGGTTGACGACAAGCGCCGTGGCCCCTTCCTGTCGACGGCCAGCTATAAACGCACCTTCGATACCGAAGTTGCCAAGCCTGTTACGGCCGGGGAGTGGAGCCAGATGCGCCAGCGCCTTGCCAAAGCCTTTCCTGACAATATCGCAGAGTTGGGCGCGCTCGATTACCCCACCAGGCCCGGTGAGCGTATCGCGACCATCAAACAGGTGATTGACCGCATACAAGGTGCGAAGGCGCGTAGCGTGGAAGCCGTCGGTGCAATGGACGGAAAGGCATTGCACCGTCAGCGTTTCGATGCCGCGAGAGAAATGTCGAACGCCGGCAACAGCGTATGGCGGGCGAGTTCCGAAATTGAGCGCGCCTCGATCGTGGAGATGCTGCATCAGTTGCGTCAGCAGGAACAAAGCGCCGTCCAGAATCACGCCCGAGCCATTCCCGGCGCGCGTGTGGAATTCAACCTGTTCGGTCGTGAATCGCTGGAAACGGTGGTCTTTCACGCCATCGGTCATCTGGGGCTTGGCAGCAAGCTGAACGATCTGGCGGAGCTGCGTCGCAAGGTGCCGGGTCTCGATCAGGTCATGCTGAGTTTCCAGTCGTTGCCCAAGGTCAATCAGGTGCGCTACGTTTTTGAGATGCGCCCTCAGGCGAGGTTCGCCATCAATGACGCGCTACTGGCGCGCGAGCAGCAGGCATCGGCACGTGCGCTCGGTTTGCAGGGACCCTCGGGAAGTGAATTGAATTGGCGCGGCGTTCTGGACAAGATCAAAACCACGCCTGACCTTTATCGGCTGGCGGCGATCGCCGTACATAACACCGATGAAAACCCCGTGACCTCAAGAATAGGGCTGCCGCTGCTGAATGTGTCGGCCACAGGCGCGACATCGCATCAGTTGTTCGAGGCGGAAATCCAGTTCCGATACGGTCTGTATGACGGTCTGCAAGGGGTTGAGTTGCTGGAGGCCGGAAACAGGGCATTGCAGTCGCCGTTACGGGCATTACAGCAATCCGGTATTCAGGCCCTGGGGCAGAGAACCCAGGCCGGGGAGGTTGCGTATGGCCCCCCTTCGCCGCGCAAAGAGTCGCCGTTGCGCACCGCAGTGGATGCTGCTGCGCTGACAACGAGTGACATCGCGCGACAACTTGAGGTTAAAGTCCAGCGCATGAATACCGCGCATGAGCGTGAGGCGAATGCTATCAGTTCGTTCCAGCAGGCTTATGGGATCGCGTCCGCGCATCTAGACAGGCTGCTTTTGCGCATTCCTGAATTGCCATTACCTGAAATTGATGACCGCGACGTCGATGGAGGACGTGTGCGCGGTACATTTGCGTCGCTCCAGCGACATCATCAGGCGCTGGATGACGCTATAAGTGCCATGCATCAGGCCAGCGAAAAGGTGTACACGATACCTGGCAAGCAGGCCACTCAAGAGCAAGACCCGGCGCTGGCTCAACTGCTCTCTGTTGAAAAACGTCGGCGTTCGCTCGGGCATGCCTTGGAAACACTGGCGGGCAGAGGGGTGGAAGCGGGCACGGCCACAGGGCTTGAACTTAACAGGGTCTCATCGCAAGTGAATGATCTGGTCGCTCGCCGGGACGCGCTGCTAAGGCAGCGTGAAAGCGGTGTTCAGGAGGGCGGTCTGGATAGCGAAGAGCTGGAAATGGAACTTCAATTGACCACCTCAGTGCTGCAGCGGTTGCGCGCCGATTTGCTCGGCGAGCGGCAGGCGATGGAGGCTACCGCCAAACGCCTGGATCAGGCGAGCCGCGCTGCCCTCGAAGGTGAGCGCAGCTTCAGCGACGCCGTGCGTGACAGGGCGTGGGGCGAACTCGATAACGTGTAG
Protein sequence:
MVKVTSSGFTANPLSHHADSVSPANSPPQLPEPVHLVDLSESSRKGGMRNRPHASLNSQVLELQAVPSQRGKHVRVRSHADGESVINAWLAKRPSVQSETSLDNDGKLVRYTPVNHEPLAPRNEAFFTSVPGMLMAVLTVHPEMEHGISGDITADAVAARLAEPPIGLLTGIWQSSHDRAYLERGGVVHTANMEERWAPLTLPGINPREPLRMAGLQADGGVYLHNGSQLWRLTETAAESVTTENLPEGAAVRIGAGGEVHGLHEGALHSNGISRPIELWRPKAGAPGREQSPARPVDLLPLPGGTAALILDDKGRIYHADLKGTGAVEAHRLKLPADFAQGKGWAVTAMGLSRDDTVHLMLQDQNGRRMSLQRAPGEALFRPAYLLDRPLLLLYTEGLHVPSEAAVQSHVQLDGHAQLGHIDGVLHYKAAPDQSWERLKQSGGEPLTGLTALYSSPLGFIDRKPVFALVGDARQVVELKLEGRTSWLPSDAELPRHPAGGPLAVIPDTVALRTSPIAQFDEPVQALAVHGNRRVVALTDSGRLMAADADTPARRLPTLQRPIAIAVGLNDQLLVLHHPHSQRPQLKRLSAKDDWEPVPIILPGIVHPSSLRATRTGQIQVQLGENWHTLLPSMTSHDNQRLPARVKPEPEGDEAPSANFLAGSNALANQQQASRISTPHHDASVVTTLAGTTANNPLTMASSLQAVVDTTRAQVGALARDVVGAAANSTMRAMAHTLGVVLPPTPQEKRLASFHNEAKQAYTSGKILFEHLPSLAQVRVASAVGPSDGERFGLSHQQTQRLLTLREGKLEALLRDLRKIGFHEGVIMGDMGDSDSAHGLVSTTSTPTFRLAELWRRQHSRVDKALSSAGLSRSEDIFPDLNLSINALAGGAALNADRMSEREAELLSVLCEVSEKMMRAGVRLPADDGSVDSAHSQAPYGLRTAGLIAGLVDYDALLSSTDAQALEMAERLQQDARLAALCKLGLSSWGQLAAFDDVVTTFREQISLPGSARRTQLLKNLGLPPDAAPDEMAARMSDLLLDLFNRSTFFSTQSRGLELRGSLGSADWKHLNAFSVGVTGEALQVLGVERIGDGKDGDAGLVAFFVRHAKASVSATSGIGIDFKPGPGTGGRVIDSRPGRSMNSTWGGSTNLGISGAYQHGQGAAVIIAPSTISDFVRLLFDVNHPDTTQILRTGVNGGSIGLDLFETNVNASVGANVSVSPFSLSQKYGPQKPTADAAVSGPDNRRSTASGSLSVGGTAQAGAHWGQMELHLDHAWADIIGLEFQGRTDFNLEFNSGLNLGGALSSALGDNPQKLINASTGNGNLQLAGIRVASSDVQLPTDAVVDDKRRGPFLSTASYKRTFDTEVAKPVTAGEWSQMRQRLAKAFPDNIAELGALDYPTRPGERIATIKQVIDRIQGAKARSVEAVGAMDGKALHRQRFDAAREMSNAGNSVWRASSEIERASIVEMLHQLRQQEQSAVQNHARAIPGARVEFNLFGRESLETVVFHAIGHLGLGSKLNDLAELRRKVPGLDQVMLSFQSLPKVNQVRYVFEMRPQARFAINDALLAREQQASARALGLQGPSGSELNWRGVLDKIKTTPDLYRLAAIAVHNTDENPVTSRIGLPLLNVSATGATSHQLFEAEIQFRYGLYDGLQGVELLEAGNRALQSPLRALQQSGIQALGQRTQAGEVAYGPPSPRKESPLRTAVDAAALTTSDIARQLEVKVQRMNTAHEREANAISSFQQAYGIASAHLDRLLLRIPELPLPEIDDRDVDGGRVRGTFASLQRHHQALDDAISAMHQASEKVYTIPGKQATQEQDPALAQLLSVEKRRRSLGHALETLAGRGVEAGTATGLELNRVSSQVNDLVARRDALLRQRESGVQEGGLDSEELEMELQLTTSVLQRLRADLLGERQAMEATAKRLDQASRAALEGERSFSDAVRDRAWGELDNV
Protein structure:
NONE
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Main properties of effector
Molecular weight Sequence length Theoretical pI GRAVY Instability index
210394 1957 6.38 -0.293 39.45
Plant infestation information
Experimental plant: Nicotiana benthamiana (no common name found)
Susceptible plant: Solanum lycopersicum, Arabidopsis thaliana Disease name: Bacterial speck
Host classification: Eudicots NCBI Species: 4081, 3702
Pathogen-plant protein interaction
Uniprot ID Protein name Gene name Species Protein sequence
No Record found.