Effector profile
PlantPEAD ID: PlantPEAD02107 Uniprot ID: A0A9P4T6Y6 Source: Orthologous
Localization: Cytoplasmic(Pre) Pathogen taxonomy ID: 90978 Pathogen type: Fungi
Species: Curvularia kusanoi Strain: strain 30M1 Other name: Cochliobolus kusanoi
Gene name: PKS5 NCBI Gene ID: SWKU01000026
Entry name: A0A9P4T6Y6_CURKU Protein name: T1pks
DOI:
Gene/Protein information
Gene sequence:
ATGTCCGCGCCCAGCGTCCCAATCGCCATCATTGGCATGAGTTGTCGCTTTGCTGGCGGCGCCACCGATCCCGAAAAGCTCTGGCAGCTTTGCGCGGAAGGAAGAACAGGCTGGAGCGAGGTTCCTGAGGATAGGTACAATATCAATGGACATTATCATCCGCGGCCAGACAACCTCAACACTACCAATGTAAAGGGGGCATGTTTCCTCGATGAGGACGTCGGCAACTTTGATGCGACGTTCTTCAACCTTCCTGCCGAAACGGCTGCGTGCTTGGATCCGCAGTTCCGTCTCATGCTCGAGGGTACATACGAAGCTTTCGAAAACGCAGGGCTTACTATGAATGATGTGGTGGGCTCTAATACGTCAGTCTATGCGGGTTCCTTCTTCAAGGATTACCATGATGCCGGACTCCGCGACGTTACCACACTACCTCGATTCTTCCTGGTTGGTGTTGGTTCGGCCATGGCATCCAACCGTCTTTCCCATTACTTCGATCTAAGGGGAGCTTCGATGTCCATCGATACTGGATGCTCTACAACACTTACTGCACTGCATCAAGCATGCAATGACCTGAGGAACCACGAGTCTTCAATGTCCGTTGTGTCAGGTGCCAATCTGATGTTGAACCCGGATATGTTCATTACCATGTCATCCATTGCGCTGATCTCGAAAGACGGTCGGTCCTTTGCGTTCGACAGCCGTGCGAATGGATACGGACGCGGAGAAGGAGTCGCAACCCTTGTACTGAAGCGTCTTGACGATGCCGTTCGCGACGGAGACCCTATCCAAGCTGTGATTAAGGAAACTGGTCTCAACCAGGATGGCAAGACCGAAACAATCACAACTCCAAGCCAAGCTGCGCAAATTGCGCTCATGCAGCGCATCTACAAGAAAGCCGGGCTTGACCCGAAAGATACGGGCTATTTCGAGGCCCACGGCACCGGAACACCAACCGGGGATCCCCTTGAAGTCGGCGCCATCGCTGCGGTATTTAAAGACTCAAGAGCGGCCGATACACCGCTGCCCATCGGATCGATCAAGCCGAATGTGGGACATACAGAATGTGCTTCTGGATTGGCCAGTATCGTAAAGGTCGTCAAAGCCATCGAGAAGGGTCTCATTCCTCCCTTGGCAAACTTGCAGACCATCAACCCTAAACTGAAACTCGGAGAATGGAACCTAAAGATTCCCCGGGTTACAGAGCCCTGGGATGCGGCTCTGCGCCGTGCATCAGTAAACAACTTTGGATATGGAGGAGCAAACTCACACGTCATCCTTGAAAACTATACCCAAAAGCGTCCTGCTTTCAACGTCAATGCGGCATTGCCCTCCCGGGTATATGTGCTCAGTGCCAAGGATGAGCACGCTGCCAAAGCTATGGTGTCCAACCTGCGAGATCATTTGACTGATGTCAGCGATAGCTTGTCGTATCAGAACGACCTTGCATATACTCTAGGAGAACGTCGTTCAGCGTTTCCATGGGTGGCTGCCACATCTGCATCTTCCATTGCCGAATTGATTCGACTCATTGATGCTGGTAAAATGAAGCCGAGACGCAGGAACGATGCTCCCAGACTAGGTTTTGTCTTTACAGGTCAGGGAGCTCAGTGGTGGGCCATGGGTCGCGAGCTCATCTCTGCGTACCCAGTCTTCCGTGAGACTTTGTGTGAAGCAGAGCGCTACCTCCGCGAATTTGGCGCCACATGGAGCCTCATGGAAGAGCTGCACCAGAGCGAGAAGACAACGCGAGTCAACGAAGCAGCCTTGGGACAGCCAGTTTGCGTCGCAGTACAGATCGCACTGGTACGCCTGCTGGAATCCTGGGGTGTAAAGCCTACTGCAGTGAGCAGTCATTCCAGTGGTGAGATTGCCAGTGCGTATGCCGCAGGTGTTCTCAGCCTTCGCAATGCGATGGGCGTGGTGTTTGCCCGTGGTATGCTGGCTTCCGAAGTCGCAAAGTACTCTAATCTGGGACCCGGCGGTATGATGGCTGTCGGACTGGGTGTCAATGACGTACAGAAGTATGTTGACCGGCTTACTGCAGGACGTGTCGTAGTAGCCTGCCAGAACAGTCCGTCCAGCGTTACCATTTCAGGAGATCTCCCTTGTATCGAAGAACTAGAGACACTGCTGAAGGCAGACGCGGTCTTCGCACGCAAGCTCCAGGTTCCCGCAGCATACCACTCTCACCACATGGAGCCTCTTGCGGAAGCTTACGCAGAGTGGCTGAACGCAAATATCTCCCCGGAACCTCAGATGGGAGATGTGATATACTCCTCGCCAACCACAGGCCGCAGGATGACAGACGTGAAAGAGATTGGTGCTGCAGACCACTGGGTCAAGAGTCTAACGCAGCCAGTACTCTTTGTTGAGTCTTTCACGAATATGTGCTTCTCTGCGACAGACGAGCCCAGCGATGTGGACATGGTAATTGAGCTGGGAGCACACCCTGCTCTTTCCGGACCCATCCAGGACATAACTACACTCGATGTTTTCAACGGTTCCTCTGTTGGTTATGCTAGCTGCTTGGTACGCAAGAAGAACGCCGTCGACACAATTCAAATTTTGGCGTGCGAACTGCTTCAAAAAGGATACCCGCTCAATATGGCTGGCGTGAATCTTACGCAGCAGGGCCAAGTGCTGACAGATCTTCCAAAGTACGCCTGGAACCATCAAAGTCGCCACTGGTATGAGCCGCGAATGAACAGAGCGCATCGTATGTTGTCTGAAGGACCACACGACTTACTTGGATCCCTCGTCACAGGTACCAACCGTATCAATCCTACGTGGCGCCATGTCATCAAGCCTTCTTCTATGCCCTGGATCAGAGATCATATGCTCCAGGGTACGACCGTCTACCCGGGAGCTGGGTTCATCTGCATGGCTTTGGAGGGCCTAATTCAGGCTGAGCAGCAAAACAATAAAACAGTTTCTGGATATCGCCTGCGCGACATTGACATGCTTGCAGCGCTGGTCATTCCAGAGGGCGAGGACGGTGTGGAGGTTCAATTATCACTCAAGCCTTGCGGTGATAAGGCCATCTATGCTAAAGGATGGAAAGAGTTCCAGGTTTTCTCAGTCACTCACGACGATAAGTGGAGCGAACACTGTCGAGGCCTCATCTGCATCGAGTACGATGGCAAAAGTGCTCCGAGGTCCCCCGTCACTGTACGTGAAGCAACTGACTACCGAGTTCGCATCAGCCCCTCGGATGTGTACGACTCCATGCATCGCGTAGGAATTCAGCACGGCCCGATATTCCAGAACCTAAAAGCGGTACGAGCTCGATCACAAGGCTCTCTTGCAACTGTTGAGATTGTTGACACTGCATCTCTCATGCCCTATCAGTTCGAGCATTCGCATCTCATCCACCCAACAACCCTGGACACTGTCTTCCAAGCGATATATGCAGCGCTGCCTGCCGCTGGAGCACAGCTTCCATCTGCCCAAGTTCCACGCTCGATCAAGAACTTGTGGATCTCCAACGATATCAAGCACGGCTCAGGGACCACTTTCAATGCTCATTCGAAGGTTCGCGACAATGACAGGCAGGGCTTCAAGGCTGATGTCACAGTTCTCGACAGCGAAAAGGGCCAGACTGTCATCACAATCGAAAACTTCCTGTTTCAGTCCATTGGTAATGCACTCAGGAGCAATGAGCCCTGCGTGAATGACAAGTTCCTTACTTCGAAATGGGTACCAGATGTATCACTCATGAAGCCGGCACAGCTTAAGAAGCAGCTGGCTTGCGAGCCCAGTCTCATCGAAGAACAAGAGCTGGCTGACACGAAGCGAGTGTGTTCTTGGTTCCTCGAGGATGCTCTTGCAGCGATTTCGTCCGCTGAGATTGAAGGCATTCATGGTCACTTCAAGCGTTACTATGCATGGATGAAGGCACAAGTACTGACTAGTAAATCAACTCCTGCAACGCAAGAAGAGAAAGATGCACTTATCTCAAAGGTCGCGGCAAGCAGTACCAACGGCAAGCTTATGTGTAACGTCGGACCTCACCTAGTCGATATACTCTGTGGGCGTGTGTCGCCGTTAGAATTGATGCAAGATGCTCAGCTGCTTCATCTCTACTACGCCGAGTGCCTAAAGCTTGACCGCAGCAGAAGTCATCTCGCAGAGGTTGTACGCCTGTATGCGCTCAAGAATCCTCGCGCTAAGATCCTTGAGATTGGCGCAGGAAGCGGAGGTACAACTCACCAGATCCTGGAAGCCCTCGGATCAGAGGATCCCCTTTGCGGTTCCTACGATTACACCGATGTCTCCGATAGCTTCTTCGAGACTGCTCAAGAAGAGTTCAAAGCATGGAAGAATCTTCTGTCATTCCAGAAGCTGGATATCGAAAAAGATCCCTCGGTGCAGGGCTTCGATTCAGGATCCTACGACCTTGTGATCGCCTCGCAGGTGTTGCACAGAACCAGGTCTATGGACGAGACGGTCGCAAATGTGCGCAAACTATTGAAGCCAGCTGGAAAACTCGTCATCTTGGAGTCAACTCATGACCAGCCAGATATTCGGATGACCTTTGGTCTATTACCCGATCAATGGCTCGGCGAGGAAGAGTATCGCATGCTGACATCTTCGTTCCCTGCAAACACGTGGAATGAGATTCTCAAGACCAACGGCTTCACTGATCTTGATATCGAAGTCCGTGATTGCGAGAGTGATGAACTTTACTCTTACAGCGTTATGGTGTCTTCTGCTGAGACTGTACAGCCGGCCTTTCACTCAGACGTTGTGATCGCAGTTCCTGCATCCGCTCCTCCAAAGGAGTGGCTGGATAGCTTAGCCGCCGCTGTCGCCGCCATCACCGGCTCAAAGCCTGCAATTCAGCCCTATGACTCCCTTGATTGTGAAGGTAAAATAGTTGTGTTCCTTCCTGAACTTTCTTCCAAGCTGCTTGTCAGTCCGAACGATGAGCAATTTGCTGCAGTACGAGACATATGCACCAAGTCCAAAGGTATGCTTTGGGTAACAAGCGGTGGTTCCATCGAAAGCCCTGATCCCTTCTCGAGTTTGGCCTCTGGCTTCCTTCGCATTCTTCGCCTTGAGTACGTTGGCAAGCCCCTTGCAACTCTCGATCTCGACATGAGCGCAGGTGTCTGGTCTTCCTCCGCGGTCTCCACAATCAGCAGCGTCTATGCCAACGCTTTCGCAAACCCCACCGAAGATCGGCCACGCGACTTTGAGTTTGCAGAGCGCGGTGATGTCGTTCAGGTCTTGCGGTACTTCAAAGACCACGAACGAAACGAGACCTGGTTTCCTGATACTACCGAAGTGGAGACCACGGTATTGCAGAAGTTCGCCGACAAGCCAGTCCATCTTACCATCGAAAGCCCTGGACAACTAGACAGTATTGCTTTTGCAGCCAGTCCTGACCTTGCAAACGTTGCTATCGCAGAGAATGAGCTCGAAATTCGACCCCAAGCCTTTGGAATTACGCCTCGAGACATCAGCGTGGCGAGTGGCACTCTTCAAGACAGGGCTATGGGGTTCGAGTGCGCCGGAATCATCACCAAAGTCGGGTCTACAGCATCGAAAGAGGGCTACAAGATTGGCGACCGTGTGGCGGCTGTAACAAACGGCGATTTTGGCAATGCAGTCCGTGTGCCTTGGACCAGCGTTGTCCAGATCCCAGCCGCTATGGGGTTCGAGCTGGCTGCGGCCCTGCCTGTGGCTTATGTGACTGCTTGGATTGCGCTCATGGACATTGCTCGTATCGAAAAAGGCAACAAAATCCTCATCCATGACGCTGGATCTGCGATCGGCCAAGCTGCGATCTCCCTTGCCAAATACGCTGGCGCTGAGATCTTTGCCACAGTAAGCAGTTCCGAACACGGCAGCTTTCTTAGGCGTGTTGTTGGGGTCAAGGCCGATCACATCTTCTCCACCACCGATGCTGCCTTCCCTGCAGCCATTCACGAGAACACAAACGGACGCGGCGTTGATGCGGTTCTCAACACATTGGAAGGATCCCTTCTTCAAGAGACACTTAACTGTGTTGCCCCTCTGGGCCACTTTGTTCAGCTTGGAAAGAAGGATCTGGAGCAACACAGCCGTCTGGACATGGGTGCTTTTGCCCGTGGCATCACATTCTCGGCGATCGATATTGCCATGTTGGCGGAACATAAAGGACGCCAAGTTCACCGAGCTTTAAACTCAACGATGGAACTCCTCAAGGGTAGAAAGATTCGTGGTGTTCCGATTTCTGTTCAGGACATTTCCGACGTCCTTCAGGCTTTCCGCAATGCACAGTCCGGTAGCACCCCCGGAACAATTGTACTGTCAGTGAAACCTGATAGCCTCGTGCCGGTTGTCCGCCAAATGCCCACAGTGAAGTTGCACGCTGACGCATCATATGTCGTCGTTGGTGGCTTCGGAGGCATTGGCCAAAGCATCTGTCTTTGGCTTGCTGAACATGGAGCGAGAAATCTTATTGTGCTCTCCCGAAGTGCCAACGCAGCTGCGCGCGCGGGGCCACTTCTCAACGACCTTAGCAACCTGGGTTGTCAGGTCAGGCCTGTTGCCTGTGACATAGCCGATGAGAACGACGTCAAGCGTGCCGTGGAGAGTTGTAAGGATATGGCTCCTATTCGCGGAGTAATCCAAGGTGCTATGGTCCTGCGTGATTCTATCCTGGAGCAGATGTCCCTGACAGACTACATGGCTGGTCTACGTCCCAAGGTACAAGGAACGTGGAATCTACATACTGCTTTTGCAGCCACGCCCCTCGACTTCTTCGTCATTCTTTCCTCAATCGCCGGCATTATTGGTATCGCATCGCAATGCAACTATGGTGCTGGTGGTGCGTTCCAGGACGCTTTAGCTGCTCACCGCACAAGCCAAGGCCTTCCTTGTGTCTCCATCGACATAGGAGCTGTCAAGAATGTCGGTTATGTTGCCGAGCACGATGAGACCCATACATATCTCAAGAAGCAGGGCCACATGGTTTTGTCTGAGGGTGACGTGCTGAAGTCACTTGCATGTGCAATCACCTCGCCATTCGCAACTCAGCTTGTATTTGGTATCAACACATCACCAAGCAGTGCGTTGTGGGATGAAGGCCCTGCATCTCGCGACCTTCGCTTCTGGCCTGCCAAATACAGATCTACAGGTGACGAAGGTACAGGCACAGGTATGGCTGACACACTTGCTGGCCGTATCGCATGCGCAAAGTCGCTTGAAGAGGCTGCTACAGCAGTGGGAGCAGAAATCACAGCTAAGATCATGGATATTTTCATGATACCTGAGGCAGAGGTTTTCCCGAACAAGCCAATGGCTGACTTCGGAGTGGACTCGCTCACAGCTGTGGAATTGAGGAATGCGTTGGCGACAAAAGCCAGTGCAGAGGTTTCTATCTTTGACATCATGCAGAGTCCAAGCTTGAGTGCTTTAGCTCTGTCAATTGCTGCGAAGAGCGCGCATCTAAACCCAGCGTTGGTCGTATCGTCGTAA
Protein sequence:
MSAPSVPIAIIGMSCRFAGGATDPEKLWQLCAEGRTGWSEVPEDRYNINGHYHPRPDNLNTTNVKGACFLDEDVGNFDATFFNLPAETAACLDPQFRLMLEGTYEAFENAGLTMNDVVGSNTSVYAGSFFKDYHDAGLRDVTTLPRFFLVGVGSAMASNRLSHYFDLRGASMSIDTGCSTTLTALHQACNDLRNHESSMSVVSGANLMLNPDMFITMSSIALISKDGRSFAFDSRANGYGRGEGVATLVLKRLDDAVRDGDPIQAVIKETGLNQDGKTETITTPSQAAQIALMQRIYKKAGLDPKDTGYFEAHGTGTPTGDPLEVGAIAAVFKDSRAADTPLPIGSIKPNVGHTECASGLASIVKVVKAIEKGLIPPLANLQTINPKLKLGEWNLKIPRVTEPWDAALRRASVNNFGYGGANSHVILENYTQKRPAFNVNAALPSRVYVLSAKDEHAAKAMVSNLRDHLTDVSDSLSYQNDLAYTLGERRSAFPWVAATSASSIAELIRLIDAGKMKPRRRNDAPRLGFVFTGQGAQWWAMGRELISAYPVFRETLCEAERYLREFGATWSLMEELHQSEKTTRVNEAALGQPVCVAVQIALVRLLESWGVKPTAVSSHSSGEIASAYAAGVLSLRNAMGVVFARGMLASEVAKYSNLGPGGMMAVGLGVNDVQKYVDRLTAGRVVVACQNSPSSVTISGDLPCIEELETLLKADAVFARKLQVPAAYHSHHMEPLAEAYAEWLNANISPEPQMGDVIYSSPTTGRRMTDVKEIGAADHWVKSLTQPVLFVESFTNMCFSATDEPSDVDMVIELGAHPALSGPIQDITTLDVFNGSSVGYASCLVRKKNAVDTIQILACELLQKGYPLNMAGVNLTQQGQVLTDLPKYAWNHQSRHWYEPRMNRAHRMLSEGPHDLLGSLVTGTNRINPTWRHVIKPSSMPWIRDHMLQGTTVYPGAGFICMALEGLIQAEQQNNKTVSGYRLRDIDMLAALVIPEGEDGVEVQLSLKPCGDKAIYAKGWKEFQVFSVTHDDKWSEHCRGLICIEYDGKSAPRSPVTVREATDYRVRISPSDVYDSMHRVGIQHGPIFQNLKAVRARSQGSLATVEIVDTASLMPYQFEHSHLIHPTTLDTVFQAIYAALPAAGAQLPSAQVPRSIKNLWISNDIKHGSGTTFNAHSKVRDNDRQGFKADVTVLDSEKGQTVITIENFLFQSIGNALRSNEPCVNDKFLTSKWVPDVSLMKPAQLKKQLACEPSLIEEQELADTKRVCSWFLEDALAAISSAEIEGIHGHFKRYYAWMKAQVLTSKSTPATQEEKDALISKVAASSTNGKLMCNVGPHLVDILCGRVSPLELMQDAQLLHLYYAECLKLDRSRSHLAEVVRLYALKNPRAKILEIGAGSGGTTHQILEALGSEDPLCGSYDYTDVSDSFFETAQEEFKAWKNLLSFQKLDIEKDPSVQGFDSGSYDLVIASQVLHRTRSMDETVANVRKLLKPAGKLVILESTHDQPDIRMTFGLLPDQWLGEEEYRMLTSSFPANTWNEILKTNGFTDLDIEVRDCESDELYSYSVMVSSAETVQPAFHSDVVIAVPASAPPKEWLDSLAAAVAAITGSKPAIQPYDSLDCEGKIVVFLPELSSKLLVSPNDEQFAAVRDICTKSKGMLWVTSGGSIESPDPFSSLASGFLRILRLEYVGKPLATLDLDMSAGVWSSSAVSTISSVYANAFANPTEDRPRDFEFAERGDVVQVLRYFKDHERNETWFPDTTEVETTVLQKFADKPVHLTIESPGQLDSIAFAASPDLANVAIAENELEIRPQAFGITPRDISVASGTLQDRAMGFECAGIITKVGSTASKEGYKIGDRVAAVTNGDFGNAVRVPWTSVVQIPAAMGFELAAALPVAYVTAWIALMDIARIEKGNKILIHDAGSAIGQAAISLAKYAGAEIFATVSSSEHGSFLRRVVGVKADHIFSTTDAAFPAAIHENTNGRGVDAVLNTLEGSLLQETLNCVAPLGHFVQLGKKDLEQHSRLDMGAFARGITFSAIDIAMLAEHKGRQVHRALNSTMELLKGRKIRGVPISVQDISDVLQAFRNAQSGSTPGTIVLSVKPDSLVPVVRQMPTVKLHADASYVVVGGFGGIGQSICLWLAEHGARNLIVLSRSANAAARAGPLLNDLSNLGCQVRPVACDIADENDVKRAVESCKDMAPIRGVIQGAMVLRDSILEQMSLTDYMAGLRPKVQGTWNLHTAFAATPLDFFVILSSIAGIIGIASQCNYGAGGAFQDALAAHRTSQGLPCVSIDIGAVKNVGYVAEHDETHTYLKKQGHMVLSEGDVLKSLACAITSPFATQLVFGINTSPSSALWDEGPASRDLRFWPAKYRSTGDEGTGTGMADTLAGRIACAKSLEEAATAVGAEITAKIMDIFMIPEAEVFPNKPMADFGVDSLTAVELRNALATKASAEVSIFDIMQSPSLSALALSIAAKSAHLNPALVVSS
Protein structure:
NONE
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Main properties of effector
Molecular weight Sequence length Theoretical pI GRAVY Instability index
269511 2488 5.59 -0.079 37.5
Plant infestation information
Experimental plant:
Susceptible plant: Disease name:
Host classification: NCBI Species:
Pathogen-plant protein interaction
Uniprot ID Protein name Gene name Species Protein sequence
No Record found.