Effector profile
| PlantPEAD ID: PlantPEAD02935 | Uniprot ID: D9N1A1 | Source: Orthologous |
| Localization: Cytoplasmic(Pre) | Pathogen taxonomy ID: 5599 | Pathogen type: Fungi |
| Species: Alternaria alternata | Strain: SH20 | Other name: Alternaria rot fungus,Torula alternata |
| Gene name: ACTTS3 | NCBI Gene ID: AB516321 | |
| Entry name: ACTS3_ALTAL | Protein name: Highly reducing polyketide synthase ACTTS3 | |
| DOI: | ||
Gene/Protein information
Gene sequence:
ATGACGCCTCTTAGAGAACCAATTGCTGTTATCGGGTCCGCATGTCGCTTTCCAGGTGGTGCAAACTCGCCTCATAAACTCTGGGAGTTGTTGAGAGATCCTAGAGACATATTGCGTGAGTTTCCTGATGACAGATTGGTCTTGTCGAAGTTCTACAATGGTAATGCGAACCACCACGGCAGTACGAATGTCAGAAACCGATCGTACCTTCTTTCCGAAGATATACGAGCATTTGATGCACCCTTTTTCCACATCAACCCTCGAGAAGCCGATGGTATGGATCCTGCTCAACGTATTCTCCTCGAGGCTGTTTATGAAGCACTTGAAGCTGCTGGATATACAATGGAGCAAATGCAGGGTACCCACACGTCTGTGTTTGTTGGTGTCATGAATTCCGATTGGTGGGATCTGCAGATGCGCGATACCGAGACGATTGCCACCCATGCGGCAACTGGAACAGCTCGCAGCATTGTTTCTAACCGTATTTCCTACGTGTTTGATCTCAAAGGCGTATCCATGACCATTGACACAGCTTGTTCTAGTTCCTTGGTTGCGCTACATCAAGCAGTGCAAAGCTTACGGAGCGGTGAATCTACAGCTGCCATTGTGGGGGGTGCCAATATTCTTCTTGATCCTGCAATGTATATCGCCGAGTCAACATTACAAATGCTGTCACCAGAATCTCGCTCACGTATGTGGGACAAATCGGCAAATGGTTATGCAAGAGGCGAGGGATGTGCAGCGGTCTTCCTGAAGCCATTAACGAGGGCCATAGCCGATGGTGATCATATCGAGTGTGTCATCAGGGAAACAGGAGTCAGTTCTGATGGGCGCACACAGGGAATCACCATGCCCAGTGCTGCAGCACAGGCAGCATTGATCAAATCGACATACCGCAGCGCTGGATTGGACCCGTTGGCAGATCGCTGCCAGTATTTTGAATGTCATGGAACCGGAACCCCAGCAGGTGACCCCATCGAGGCCCAGGCCATCGCAGAGGCATTTTTTTCGCATTCTGGAGAGGATGCAGAAATCTACGTTGGGTCCATCAAAACAGTGATTGGACACCTGGAGGGATGTGCAGGCCTAGCAGGTCTGCTAAAAGCCTCTCTGGCAATCCAAAATCGCACCATACCCGCCAATATGCTTTTCAACGACTTGAATCCATTGATTGGGCCATATTACAGAAACTTAAAGATACTTCAAGCGGCAAAACCGTGGCCGCAGGACATACACGGCCCCCGCCGAGCTAGCGTCAATAGCTTTGGTTTTGGTGGGACAAACGCGCATGTTATCCTGGAGAGCTATGAGCCTGAAATGCAGGGAACGCATGTTTTACAGGAAAGGTCTTTCCATGGCCCGTTGACATTCTCGGCCTGCTCGAAATCGTCTTTATTGGCAACGATCAGCAACTTCACCAGCTACATCAAAACGAATCCTGCAGTTGATCTGCAAAACCTAGCCTGGGTTCTACAAAGAAAACGCACCGAATTTCCGGTCAAGCAGCATTTCTCGGGCTCCACGCACGCTAGGTTGATCGAGTCCATGGAAGCCTATCTCCAGAATGCAGGTTCCAGTGGCCTTCATAACACAACCATTGACACAAAGCTGTTGTACCCAAGTGAAATTCCTAGGGTTCTTGGGATTTTCACTGGTCAAGGCGCACAATGGGCTACTATGGGAAAAGAGTTTATTCAAAATTCATATCTCTTCCGAGAGTCAATCGACCGAAGCGAGGCAGCTCTTGTAGCTTTGCCTGATCCCCCTTCTTGGTCTTTGATATCTGAACTCTTCGCCACAGTTGAAACATCTCGACTCAATGAAGCGGAACTTAGCCAACCACTGTGTACTGCTATACAGATTGCCATCGTGGATCTTATGTTCGCAGCAGGTGTTAAGCTAGATGCTGTGGTGGGCCACTCTTCTGGCGAAATCGCTGCTGCCTACGCATCAGGGATCATTTCTGCAGCGGATGCTATGGCTATTGCCTATTACAGGGGCTTTCATGCTAAAAGGTCGCATGGAACTGGTGGGAAGAGGGGTGGAATGGTAGCTGCTGAGCTTTCGTATGAAGCTGCCCTTCAGTTCTGCGAGAAGGTTGAATGGGCTGGGCGTTTAGTGCTTGCTGCCAGCAACTCTCCGTCTAGCATCACATTGTCGGGAGACCTTGACGCTGTTCAAGAAGCCCATGCATACTTTGAGAAGGAGAACATATTTTCCAGGTTGTTACGAGTCGACACTGCTTACCACTCTCACCATATGATTCCCTGCGCCGAACCTTATCTAACATCTCTGAAGGCTTGTAACATCCAAGTAAGCCAAGCTCGGTCGGACTGCATCTGGATATCTAGCGTATCCGGGGATGTTCAATCGTCAAGCGAGGAGCAAGGAGCTTTGACAGGAGAATACTGGGTTGACAACATGGTGAAGCCAGTTTTGTTTTCCCAGGCCGTCCAATGTTCAATTTGGAACAGCGGCCCCTTCGAATCAATCGTAGAGATAGGACCGCACTTCGCACTGAAGGGGCCCACCACCCAAGTCATGGAAGCGGTGCTTGAATCATCACCGCCGTATCTGAGCTTCATGCGCCGTGGACATGGAATCGAAACATTTTCTGATGGATTAGGGCGTCTATGGTCCAAGCTTGGTCCATCTTCTGTTGACTTGACGGGGTACTGGAAAGCTTGCAGCAGTAGCCACATCAAGTTTCAGATGCTGAAAGGGTTGCCAGCATACGCATGGGACCATGATAAGGTTTACTGGAAGGAAGGACGCATCTCCCGTAACCACCGCCTTCGTAAGGACGTTCCACATGAGCTCTTGGGTCGCCGTACTGCAGATGACTCTGATTATGAGCTGCGGTGGCGCAATGTGCTACGATTGACCGAAATCCCTTGGATCCGGGGCCACAAATTCCAGGGTCAAGTTCTGTTTCCTGCTGCTGGCTACGTGACAATGGCCTTGGAGGCCTCCAAGGCTTTGGTAGGGGATCGGCACGTTAGGCTGTTTGAGCTTCGAGATATTTGCATCCGAAAGGCTTTGGTCTTAGAAGAGGATCAATCTAGCCTTGAGACTGTGTTTTCTGTCAAACGACTAAATGCAGACTTTGGGATACATGATGAGAATATGGACCTCCTCGAGGCTGAGTTCTCTTGCTATGTTTGTGCTGACGAGACTGTTGGCACTCTTGAGAAGACTGTGTCAGGTAGGATCATAATTCACCTTGGAAGCGGAGTTGATGTGAAGTTGCCGCCAGCTGCACACTTCTGTACTGATCTCTCACCTGTTGATCTAGACAGATTTTACTCCACTGTCGAAGAACTCGGCTTAAGCTACCAAGGCCTTTTTAAAGGTCTAGATCATGCTGAGCGGATGCTGAACCACTCCCATGCTCTTGCGGTATGGGAAAACCATAGCATGGGAGCAGGATCTATGGTTCACCCTGCACTATTGGACGTCATGTTTCAGGCGATCTTTGTAGCTTCCATTTCACCGGCCGCTCCCAGTACTCTCTGGACACCCTATCTTCCCGTCTCTATCGATCGCATCATCGTGGATCCTGATCATATACCTGTATATTCTCACCCTGAAGTGAGGGCTCATATACAGGCGTACGTTACAAAGTCATCGGCATCTTCAATTGTTGGTGACATTCACCTTCTGGATTCGAATGGCATTCATAATGGCATCCAGGTTGAGGGATTGTCTCTAAAGTCAGTCGCCGAACCTACTGAAGAGAACGATCGCTCGATTTTCTCCCAGACTGTCTGGGATACAGACATTGCCAGCGGTACAGATTTTCTTAGAGACCGAAAGGAGGATGCGCAAGAAAGTAAGCTCATCCACGCCATAGAGCGAGTCGCGTTATTTCACTTTCGAAGCCTTGTTGAGGCAATAACCGTGGAGAAAGCCAAAACCCTTGCGTGGCACCACCAGCTCTTCCTCAAAGCCGTAAAAGCAAACATAGAGACAATCAGAACTGGCGGGAACCCAGTAGTTCGGCAAGAATGGCTATGCGATACTCGAGAAACGATTGAAGACCTTCGAGCTCAACATCCAGGTCAGATTGACCTCAACCTAATGCACGCAGTTAGTGAAAAGCTCATATCAATTGTCTGTGGGGAAACACAGATTTTGGAAGTCATGCTCCAGGATGACATGCTCAACGACTTTTATATGCGAGGTCGCGGTTTCGAGACGATGAATAACTGTATTGCCCGTGCTGTGCAGCAGATTGCACACAAGCACCCCCGTGCTAAGTATTTGGAGATCGGTGCAGGGACCGGAGGCACGACTCACCGCATCCTGGACACCATTGAGTCAGCTTACACTTCGTACGAGTACACCGATATATCCTCTGCGTTTTTCGAAAAAGCCTCCCACAAATTCGACAAACATGCGAGTAAGATGGTGTTCAAGGTGCTCGATATTGAGAAGGATGTGGTTGACCAAGGGTTCGAGAACGGCGCGTATGATGTTGTCATCGCTGCGAATGTTCTTCATGCTACACGCACGTTGTCTGGAACAATGGGCCATATAAGGTCTCTATTGAAACCTGGTGGCTACTTGATCTTCATGGAGGTCACTGGAGATCAACTCAGGCTTTTGTTTCTTTTTGGCGCCCTACCCGGATGGTGGCTCGGAGCTGGGGAGGGTCGCAGCCTAGGCCCTGGAGTCTCGACCATCGCTTGGGACAACATCCTCCGTAACACGGGGTTTTCAGGCGTAGATGACGTATTCTACGATTTTCCCGATCGCTCGAGGCATACATGCTCTGTGATGATTAGTCAGGCGGTCGACGACCAGCTCAGACTTCTCCGTGATCCACTAGCCGCCACAGGCATGCCTATTAGCGAGCAAGTCCTCATTATCGGCGGAGACACATCATCGGTTTCCCAACTGGCATACGATACAAAGCGCCTCATTTCGCCATGGGCAAGTTGTGTGGCGATTAATAACATTGATGGTCTAGACTCTCGTCGGCTACCATCTAGATTTTCAGTAATTTGCTTGACAGAACTGGACAAGCCGTTATTCTCGGAAATCATGAGCGAGCAGCGACTGAGTAATTTACAAAACCTATTTGCGACCGCAAATGTCGTTTTCTGGATTACCAGCGGCTGTAATGAGGGAACTCCGGTCGCTAATATGATGGTAGGAATCGGCCGCGCTCTTGCCACCGAGTTACCCCATCTTACGCTGCAATTCCTGGATGTAAAAACAGTTGAAAGGCTCAAACCCTCTATTGTTGCACAATCATTCTTTCGCTTAGTTCTGGCCAAACCATTAGTCATGGCAGAGAAAAGTATGCTCTGGACAACTGAGCCCGAACTTGTGTTTGATGGAGATGACATATTGATCCCACGTGTCCTACCAGATAAAGAGATGAATAATAGGTTCAATGCGGCTCGCCGTCCTATCAGCGAGAACCTCTGGAAGGAGAGCACCTGCATCGAGCTCAGCAACGCCGACAATAGCAGCGCACCAGCTCTATTCGAGATAAAGAACACAATAAGGCCTGGCGAAACGACCATCGATGTCAAGTACTCAGTATGTCTAGGAAAGAGATGCACCTTCGTTCTTGGTGTGGTTTCGGGTACTTCAGATACGGTTCTTGCTATTTCTGATACGAATGCCTCTTCTGTTCGTATCTCGAAGGAGCACGTCTTCTTTCTGCCCCATGATTTCAGTGGTAATTCCGCAACGCTGCTGTTGGACACCGCGAATCATGTTCTTGCTGCAAAGCTTTTGAGATGTATCTCGCCTAACAGTATTGCTCTTATTTATGAGCCCGGAGTCCGACTTGCTGCAGCAATACGACATCATGCGCACGAAAATACAGTTGATGTCTTCCCGGCAACCTCTAATCGTGAAAAATGTGGAGAAGGTTGGGCTTTTATACATCCACACGCCACAGAACGAGATATACGTACTATTATCCCTCGGAACACTGGTTGCTTCATCAATCTTAGCTTTAAACCACCAGGTGCACTCTCCCGTGCTCTCCTGCAACAAACCATCATCCATGGACCTGATTGTCTCAGCCAAATTGTCTCTTCAGCCGATGGCTTCCTCCTAGAAGCTGCATTTAACTGGGCAACTACGGGTCTGTTAAGCTTGGATAGTGTAGAGACGGTCAGTGTCCAGAGTTATGTAGGTACAACCAGACCTAGCAGGGACTTCCCGCTTGTATTTGACTGGACAGCGCCTCGACTGCCTGTTACCGTCAAGCCTCTGGAGCCCAAAGGCTTGTTCCTTCCTGATAAGACTTATCTCATGATTGGTATGACAGGAGATCTGGGGCGCTCTCTCTGCAGATGGATGGCCGAACATGGTGCTCGATATGTAGTGCTCACCAGCCGTAATGCTGAGGTTGACAGTGCTTGGATTGAGAGCATGGCCGCGATAGGCGCTACCGTCAAGGTCTACAAGATGGATGTGTCCAATCGAAAATCGGTCCTTGGCGTCTACACCACCATCAAAAATTCGCTTCCAACGATAGCAGGCGTTTGCAATGCAGCCATGGTGCTCGAGGATAGGCTCTTTGCTAATATGACCGTTGGTGCCTTGAGCAAAGTTTTTGAACCAAAGGTTGAGGGGTCAAAAGTCCTGGATGAGATTTTCCACGAACTAAATTTGGATTTTTTCATACTTTTTTCTTCACTGACTAGTATCCTTGGCAATGGTGGTCAATCCAATTACCACGCCGCTAATCTATTCATGACTAGTATGTGCGCTCAACGCCGTGCTCGAGGTCTTGCTGCATCGGTCATGCATATCGGCATGGTTGCGGATATTGGGTACGTTGCCAGGAGTGACCGGCATATTGAAAACCACCTTCGTAAGCTTCAATATCACCCCATGTCAGAGACCGATATGCATTACCTCTTCGCTGAGGCCGTTATGAGCAGCCGTGCAGATCATCCGGGCAATTGGAACATTGTATCTGGCATCGAAACATTTGTCGACGCCCCTGGCGTAAAGCTCCGCCCACCTCACTACCACAACCCGCGCTTCGCTCACTATGTCCGCGAAGAAAATGCTAGGAAGGAGGATTTGCGAACCGACAAGACAGAAAAGAGTGTAAAAGAACTCCTTGAGGATGCAATTTCAGAAGAGGATGTTACGACAGTATTTCAACAGGCCTTTCTGATAAAGCTGGAGAGGCTGACACAGCTGGAGTCCCACAGAATCGATGCCAATAAGTCGCTTCTTAATCTAGGTGTGGACTCTCTGTCCGCCGTAGAGATCCGCAATTGGTTCTTGCAGACTGTTGGTGTGGATATTCCAGTTTTGAAACTACTTCGCGGCGATACAGTCTCTGAAATCAGCATTGATGCCACCAAAAAGTATCTTGCACAAAGGACTTCCTAA
Protein sequence:
MTPLREPIAVIGSACRFPGGANSPHKLWELLRDPRDILREFPDDRLVLSKFYNGNANHHGSTNVRNRSYLLSEDIRAFDAPFFHINPREADGMDPAQRILLEAVYEALEAAGYTMEQMQGTHTSVFVGVMNSDWWDLQMRDTETIATHAATGTARSIVSNRISYVFDLKGVSMTIDTACSSSLVALHQAVQSLRSGESTAAIVGGANILLDPAMYIAESTLQMLSPESRSRMWDKSANGYARGEGCAAVFLKPLTRAIADGDHIECVIRETGVSSDGRTQGITMPSAAAQAALIKSTYRSAGLDPLADRCQYFECHGTGTPAGDPIEAQAIAEAFFSHSGEDAEIYVGSIKTVIGHLEGCAGLAGLLKASLAIQNRTIPANMLFNDLNPLIGPYYRNLKILQAAKPWPQDIHGPRRASVNSFGFGGTNAHVILESYEPEMQGTHVLQERSFHGPLTFSACSKSSLLATISNFTSYIKTNPAVDLQNLAWVLQRKRTEFPVKQHFSGSTHARLIESMEAYLQNAGSSGLHNTTIDTKLLYPSEIPRVLGIFTGQGAQWATMGKEFIQNSYLFRESIDRSEAALVALPDPPSWSLISELFATVETSRLNEAELSQPLCTAIQIAIVDLMFAAGVKLDAVVGHSSGEIAAAYASGIISAADAMAIAYYRGFHAKRSHGTGGKRGGMVAAELSYEAALQFCEKVEWAGRLVLAASNSPSSITLSGDLDAVQEAHAYFEKENIFSRLLRVDTAYHSHHMIPCAEPYLTSLKACNIQVSQARSDCIWISSVSGDVQSSSEEQGALTGEYWVDNMVKPVLFSQAVQCSIWNSGPFESIVEIGPHFALKGPTTQVMEAVLESSPPYLSFMRRGHGIETFSDGLGRLWSKLGPSSVDLTGYWKACSSSHIKFQMLKGLPAYAWDHDKVYWKEGRISRNHRLRKDVPHELLGRRTADDSDYELRWRNVLRLTEIPWIRGHKFQGQVLFPAAGYVTMALEASKALVGDRHVRLFELRDICIRKALVLEEDQSSLETVFSVKRLNADFGIHDENMDLLEAEFSCYVCADETVGTLEKTVSGRIIIHLGSGVDVKLPPAAHFCTDLSPVDLDRFYSTVEELGLSYQGLFKGLDHAERMLNHSHALAVWENHSMGAGSMVHPALLDVMFQAIFVASISPAAPSTLWTPYLPVSIDRIIVDPDHIPVYSHPEVRAHIQAYVTKSSASSIVGDIHLLDSNGIHNGIQVEGLSLKSVAEPTEENDRSIFSQTVWDTDIASGTDFLRDRKEDAQESKLIHAIERVALFHFRSLVEAITVEKAKTLAWHHQLFLKAVKANIETIRTGGNPVVRQEWLCDTRETIEDLRAQHPGQIDLNLMHAVSEKLISIVCGETQILEVMLQDDMLNDFYMRGRGFETMNNCIARAVQQIAHKHPRAKYLEIGAGTGGTTHRILDTIESAYTSYEYTDISSAFFEKASHKFDKHASKMVFKVLDIEKDVVDQGFENGAYDVVIAANVLHATRTLSGTMGHIRSLLKPGGYLIFMEVTGDQLRLLFLFGALPGWWLGAGEGRSLGPGVSTIAWDNILRNTGFSGVDDVFYDFPDRSRHTCSVMISQAVDDQLRLLRDPLAATGMPISEQVLIIGGDTSSVSQLAYDTKRLISPWASCVAINNIDGLDSRRLPSRFSVICLTELDKPLFSEIMSEQRLSNLQNLFATANVVFWITSGCNEGTPVANMMVGIGRALATELPHLTLQFLDVKTVERLKPSIVAQSFFRLVLAKPLVMAEKSMLWTTEPELVFDGDDILIPRVLPDKEMNNRFNAARRPISENLWKESTCIELSNADNSSAPALFEIKNTIRPGETTIDVKYSVCLGKRCTFVLGVVSGTSDTVLAISDTNASSVRISKEHVFFLPHDFSGNSATLLLDTANHVLAAKLLRCISPNSIALIYEPGVRLAAAIRHHAHENTVDVFPATSNREKCGEGWAFIHPHATERDIRTIIPRNTGCFINLSFKPPGALSRALLQQTIIHGPDCLSQIVSSADGFLLEAAFNWATTGLLSLDSVETVSVQSYVGTTRPSRDFPLVFDWTAPRLPVTVKPLEPKGLFLPDKTYLMIGMTGDLGRSLCRWMAEHGARYVVLTSRNAEVDSAWIESMAAIGATVKVYKMDVSNRKSVLGVYTTIKNSLPTIAGVCNAAMVLEDRLFANMTVGALSKVFEPKVEGSKVLDEIFHELNLDFFILFSSLTSILGNGGQSNYHAANLFMTSMCAQRRARGLAASVMHIGMVADIGYVARSDRHIENHLRKLQYHPMSETDMHYLFAEAVMSSRADHPGNWNIVSGIETFVDAPGVKLRPPHYHNPRFAHYVREENARKEDLRTDKTEKSVKELLEDAISEEDVTTVFQQAFLIKLERLTQLESHRIDANKSLLNLGVDSLSAVEIRNWFLQTVGVDIPVLKLLRGDTVSEISIDATKKYLAQRTS
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Main properties of effector
| Molecular weight | Sequence length | Theoretical pI | GRAVY | Instability index |
|---|---|---|---|---|
| 271083 | 2457 | 5.89 | -0.087 | 40.48 |
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.
External Links
Interpro: IPR001227,IPR036736,IPR014043,IPR016035,IPR018201,IPR014031,IPR014030,IPR016036,IPR013217,IPR036291,IPR032821,IPR020841,IPR042104,IPR020807,IPR049551,IPR049552,IPR013968,IPR020806,IPR009081,IPR029063,IPR016039
Pfam: PF00698,PF16197,PF00109,PF02801,PF08659,PF08242,PF21089,PF00550,PF14765
SMART: SM00827,SM00826,SM00822,SM00825,SM00823
KEGG:
PRINTS: