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scnpilot_p_inoc_scaffold_4095_1

Organism: scnpilot_dereplicated_Eukaryote_unknown_16

partial RP 39 / 55 MC: 26 BSCG 17 / 51 MC: 6 ASCG 21 / 38 MC: 8
Location: comp(3..6071)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Putative vacuolar protein sorting-associated protein n=1 Tax=Danaus plexippus RepID=G6CNK0_DANPL similarity UNIREF
DB: UNIREF100
  • Identity: 20.5
  • Coverage: 829.0
  • Bit_score: 121
  • Evalue 1.00e-23
Putative Vacuolar protein sorting-associated protein {ECO:0000313|EMBL:CEJ92546.1}; TaxID=1531966 species="Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes; Hypocreomycetidae; Hy similarity UNIPROT
DB: UniProtKB
  • Identity: 31.8
  • Coverage: 223.0
  • Bit_score: 121
  • Evalue 1.80e-23
hypothetical protein similarity KEGG
DB: KEGG
  • Identity: 28.9
  • Coverage: 270.0
  • Bit_score: 118
  • Evalue 2.00e-23

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Taxonomy

Torrubiella hemipterigena → Torrubiella → Hypocreales → Hypocreomycetidae → Ascomycota → Fungi

Sequences

DNA sequence
Length: 6069
ATGTTTGAGAGCATTCTGTCCAAGGTGCTGAATAGCACTGTGGGTCAGTTCCTGAAGGATGTTTCCTCCGACCAGCTCAAGTTCTCTATGGGCGGTGAGCTCACGCTGAAGAACGTCGAAGTCAAGCCCGACGCCTTCGACTTCCTTAAGCTCCCGGTCTCTATCAAGGCTGGCAAGGTCGGCCTTCTCAACGTCAAGCTCTCTTGGACCGGGCTCACCAGCACGCCCGTTAAGGTTCTCGTGCAGGATGTGTCGATTGTCGTCGGCCCTGGCAAGGACGTCCCCATGGCTGAGGCCGAGGCCGCTGCCCAGCTGCTGAAGCAGAAGCTCGAGCAGCTCGACAACTGGGAGCTGCTGAACTTCCCCGAGAAGGAGATCCAGGAGGATTCCAAGGGTTTCCTCATGCGCACCGTAGACACTATCGTCGACCACGTCACGGTGCAGGTTGACCGCGTTCACGTCGTATTCGAGGGCCCCAACATCAACCTCGGTGTCGGTATCCGCGAAGTCTCCGTCAAGCCCTGCGATGCGCAGTGGAACCCCGTCACTAAGTGCATCGACACCACCGTCGCCGGCCGCCGTCAGATTGCCGTCAACGACGTGTGCGTTTATTTCAACACGCCCACCCAGGTTGACGACGCGAGTATGCGTGCCGCCCTCGACTCCATCACCCACACATCTACCAACAACGACAATAAGAACTCTGCTGCTCCTGGCTCCGCTCTCGCGCAGTACAACAAGAACAAGTCCAACACTGCCCCCGCCGCGGCCGCTACATCCACGTCGAAGGCCGTGACCGGTGCTAGCGGCAGCACCGAGCCCGCCCCCTGGCCTGTGCCCGTCCCCGGCTCCGCACTGCCCCCCGTCGACTACGACTACTGTTCCTCGCTCTTCACCACGATGCACGAGGCGCGCTGGTCGTACATCCTGCCGCCGACGTCGATGGCGGCCAAGCTCACCATGCACAAGGGCTCGCTGGAGTCTCTGCAGAAGCTCTCTCCGCCCGCGCCGGCCATTGGCGTCGAGGTGCACTTCACCGAGATCGGCCTCGCGATCCAGAAGAACCAGTACCAGGGCCTGCTGCTCATCCTCGCGCAGCTCTCGCACTCACCCGCCGCGCTGGCCATGCTTGAGCGGCAGCAGGAGGAGACTCTGGCGCAGCTCAAGCTCAAGACCGAGATCGACGCCGCGAAGCAGGAGGCGATGGTCACCCGCGGTATTCAGTACGCCGACCTCTACAAGCGCAACTTCCAGGGCTACCCCGAGCTTGCCGAGGCGGATACGGAGCTGCTGAAGCTGATGGAGAAGGAGGAGGCCATGTCCACGCTGCTCGCCTGGCGTGCTGTCGCGCTTAAGGTCGTCCAGATCGAGTACGCCCAGGACGACAAGCCCTTCTGGCGCCCCAAGCCTTCTAAGGGGCTGTTCTCGGGCTGGTTTGGCCCCAAGGGCCCCGCGAAGCCGACCAAGGTCGCCGACCACGCGCTTGTGCGGCGCATGGTGCTCGAGCCCGCTGCGGTGCAGCACGAGGAGGAGGAGAAAGCGATGAAGAATGTCAACGCCAAGTACGTCAAGATCGAAGTCATCGCGCGCCTCGACGCCCTTTCCATCAAGCTTATGTCGCCCACGCGCGCCCCGCTGCTCGCGCTCGCTATCACGGGCATCGGCGCCGAGGTGCGTTTGCGCCCGTCGTCGACGGCCGTGTCCGCCGTCGTGGGGGCTATCGAGGCCGTGGACCACATGACCCCCGGCACGGTGCACGAGGTCTTCATGCGCCGCTCCAAGCGCCCCGCTGCGGCCGGCCGCATCGGCGCGGACCGCCCCCTGGTGTCCGCGACTGTGTCGCTCAATGACAAGGCCGTGAACCCCGACGACGGGCTCGACATGAAGCTCGGCGTCGAGCTTGCCGCCGTCGACATCATCGTCAACACCGGCATGCTGCTGCAGCTCGCGCAGTTCTTTGAGCCTCCCGCCGAGGCCAAGTTCATGGGCGAGGCCAAGGAGCGCGCGATGGCCCGCTTCAACGACGTCCGCGGCTCCATGCAGTCTGCCGCCGTGGCTGCGCTCGAGAACCGTGGCCGCAACCTCATGGATGTGCGCGTTGAGGCGCCCACCATCATCATTCCCAACGACCCCAACGACATCAACTCGCACGTGCTCGTCGTCGACCTTGGTCTGCTCACGTTTAAGTCCGCGCCGCCCAGTATGGAGGAGATCAAGGAGCAGAAGGTGCTGCTGCAGAAGGCGACTAAGGACCCCGGCGTGTTGGCGCAGCTCCCCGTGAGCGATCAGCTGCGTTGCTTCTATGACAACTTCCACGTCTCGCTCACCGCGCTCACCGTGTACGCGGGCGCGCCGTCGTTCCTCTTCGCGCCCGACGCGTCGGTGTTCATCGTGCGTCCGTTCGAGGTGTTCGTCGGGCTCCACGTCTGCCTCATTAACGCCGCGCAGTCCACTGCCGACGCCGCGATCGCACAGCGCGCCCCTGCCGCTGCGGCCAGCAGCAAGGACAGCAAGAAGGACAAGAAGGACAAGAAGGAGACGGCCGTCGTTGTCGCTCCCGCGCCGTCGCAGCAGCGCCACGTCGTGCTTAACCTGCCCCAGACCATCATCTCCGTGAGCCTGCCTGCGATCGAGGTGACCGTGAGCCCGCTCAAGGTGGCGCGCCTGCTGCGTCTCGTCAAGGCTCTGCTGCGCACGCTCAAGAGCGACGCCGACGCCAAGGCTCAGGCCGAGGCCGCGAGCAAGGTCGTCGCCAACGGGTCCTCGCTCACCGCGCGCATCAACAACGAGCTCAACGCCATTGAGGCTGCGGAGGCCAACGCCGCTGCCGCCGCGGAGGCTTCCACCAACAGCAGCTCCACTGCGCTCACTGTCGCCGGCAAGAACTCCGCCGATGACTCGAGCGCGGGTGAGAAGACGCCCGCTGCGCCCGCCGTGAACCCGGAGGCGATCAACATCGCGCTCGACTTTAAGCTCGGCCTTATCTGCGTCACCATCGCAAACGACCTGGTGCCCGAGTTCCCGGTCGACGTCCTCTCGCTCGCCATCAAGGACATCGCCGTCGACTTCCAGATGCGTCCCTACGACATGTCCGTCAAGACCGCGCTCGGCGGCATGTTCATCGAGGACTGCCTGCACGCCTTCAGCCCCAGCACCAAGTACCTCATGCACACCTCGACCGTGCCGGTGACTGCGTACAACAGCAAGTTCGCGCCCTTCGCGCCCGCGCAGTCGCCGCTCGCGCAGCCCGGCGCGACGCTCACGGCGGCCTTCATGGCCGTGCAGGTGGACCTCGTCCAGCGCGAGTCCCCCCGTTACGCCTACGCCAACACCATCGTCAACGCGCAGTTCGGCAAGGTGAACCTCGCCATCAACCGTGAGTCGCTGCCGGCCCTCATGTTCTTTTTCATCAAGCAGCTGATGCCCAACAAATTCATCGTCAACGTCGAGGACGCCACTCAGGGCTCTGCCATTCTCGACGACGAGGCTGACGCCGCTGCTGCTGGCGCCACCAAGGACGCTGCTGCGGCCAAGGATGCTCCAGCCCCGGCCGCGGGCAAGAAGTCTGCTGCTGCTACTGCTGCTACCGCGACGTCCGTGGGCCTCGAGCCCGACGCCGGCTTTGCGCCCAGCTTCGACTCACCCGGCTACGCCACCTCCGTAGACACTAGCTCCGTCGAGGTCGACATCGAGGCTGCCGCTGCGCGGTCCGCGTACCTCGAGGACAGCGAGTTCGACACTCTCTACGACCGTCTGTACGCCGGCGAGGACGCCGAGCTGGCCGCGCTGATCGCAGAGGACGAGGCCGAGCGCGCACGCGCCCAGCGCCGCGCCGCCGAGCGTGAGGCACAGGTCGACCAGCTGCTCGCCAAGCTCAAGAACGACACCATCACGTCCGTCGAGCTCCTGCTGCTGCACCGCCGCGCCAACCTCCAGGTGCAGACGCGCCTGCTCGCGCTTAAGGACGAGCTGGCCAACGTCGAGCGCTCCGGCGGTGGCTTCGACCGCCGCGTCGAGCTTTCGGGCCAGATCGCCGCACTTGAGGAGCTCCTGCAGCGCCGCCGCGCGCGCCTGCTCGCCCTGCGCTCGCGCGAACGCGTGACGAAGAACGACTCGCGCGTGTTCCGCGTGTCCTCGGCCGTGTGCGATGAGACGCAACGTGTCGGTGTGCTGGCTGTGCCCAAGAACCTCTCTGGCCGCGCCGTCGCGCTCGACCGCGCGCTGCGCTCTGGCGACATCCCCGTGTCGGCAAAGCCCGGCGGCGCCGTCAGCGTGCCTCCGTCGACCGCGATGCTGACCGGCACCGAGCGCGCCGTCGCGCCGCTCTTCTCCGCCCACGATATCACCGAGGAGAAGGCGGACGAGGCTGGTTTCAAGATCCTCTCGCTTTCTGTGCTCGTTGCAGCGACATTTGCTGGCGTTACCGTCACGCTAAACAGCCGCGGCACTGGCGTGCTCGGCCTCGCCGTGACCGACTTCACCACCGGTTTCGCGCAGGCGGACTCCGGCATGGCTGTGCGCGCTCAGCTCGGCGCTTTCACCGTGTCCAACCTGGCCGTCAAGAAGGACGTCAAGGCCACGCGCGACTACGTTGACCTTGCTCTCCGCGCGCCTTCGCTCTCACCCGAGACCATCGCTGCGGCCACTGCCGCCACTGCTGGCGCTACCGCCGGTGCCGCGCCCTCGGCGTTGCGCCAGGCCTCGATCAACCCCAGCGCCAGCGGCAAGGACGCCCTCGCGGGCGCGGCCGGTGAGCTGCACGCGTACGTGCACCACTGGTTTAAGGCGCAGTCCTCCGCGCCCAAGAACGCGAGCGCGCGCGTGCAGCGCGCCTACCTGAACCGTGCGACGGCCAAGGTCGAGTATCCCGAGATTGTGTACACGTCGACCACCGCTGCCAAGGCGCTCGACACGGGCTTCGGTGACGAGGACGAGGACGACGAGGACAACGTTGCTGGCAACTCCAAGGCTGGCACGGCGCTGATCGACGTCTCGTTCTACATGCGCACCCCCGAGCCCGTCGTGCTGGACGACCTGGACGAGGAGGAGTACTTCTCTTTCGCGCACGCCATTGCCGTGATGCGCGCTGGCGGCATCGACGAGGCTGCTCGCGACGTTGCCACCGCGCGCGGGCTCTTCTTCGCCTCCAGCGCGCCTGCCTCCTCCGCCGCGCTGGCCATCGTGCCGCCCCGCGGCCACGGCCTCGCCGCGATCCGCGAGGTTGCGACTCCGCGCGCGGCCGGCACTGGCTCCCCCGCTTCGGACGGCAAGAGTGGCGACGCCTTCTCGTTCGACCCCTCGCCGCTGCCCGAGCCCGCGCCGTCTGGCTTCGAGAACGACTACAACGTGCCCGCGCTTGCCGTGCTCACCCAGGGCCGCGCGCCGCGTTTCGCGCACTCGATGGTGGTCCGTGCCAAGTTCTCCGGCCTCCGCGTCGTGGCGTGCTACAAGTTCGTCGACTCCGCCCTCGCGTGGGCCAAGGATATCGACAAGGTCATCGCTGCCGTCACCGCCGTTCCCGCCGCGCCCGCTGGCGTGCAGACGCCCGCGGACATCGCCGCCGCGGCCGTCGCCAACTCGTCCAAGCTCCACTCCAAGAACAGCAAGGCCGGCTCCGTCGCGGGCTCCAAGAAGGGCTCCGCCGTGCACTCGGCTAACGGCACCCCCGGCGCCGGCGCCAACTCTGTGCGCCGCTCCTCCGCCGGCGCGGCTCTGCTCGGCGGCGCGATGTCCAAGACGACCAACCGCGACGCCTTCGCAACGCCCTCGGCGCCCGCTCGTGGCCTTGCGCTGCCCAGCAACGCGCCCACCGGCCCCGTTGCTGCGAAGCCCTCCACGACGGCTCTTTCTGCGGCCGAGTCGAAGCCTCTGATGCTCATCTCGCTCTCTGTGGACCTGGAGGATATCGCGGTCGTGATTCCCGCCTCGTCCACGTCCCCCGAGCTCCTCGTGCTGCGCCTCGACGGCATCCACATCAACAACAAGGTCAAGCTTGCGCGCGCCAGTGCTGTTGCCAAGCAGGCCGCCAGCGCTCCCGGTGCGGCCAACGCCTTCTCTGGCTCCGCCACG
PROTEIN sequence
Length: 2023
MFESILSKVLNSTVGQFLKDVSSDQLKFSMGGELTLKNVEVKPDAFDFLKLPVSIKAGKVGLLNVKLSWTGLTSTPVKVLVQDVSIVVGPGKDVPMAEAEAAAQLLKQKLEQLDNWELLNFPEKEIQEDSKGFLMRTVDTIVDHVTVQVDRVHVVFEGPNINLGVGIREVSVKPCDAQWNPVTKCIDTTVAGRRQIAVNDVCVYFNTPTQVDDASMRAALDSITHTSTNNDNKNSAAPGSALAQYNKNKSNTAPAAAATSTSKAVTGASGSTEPAPWPVPVPGSALPPVDYDYCSSLFTTMHEARWSYILPPTSMAAKLTMHKGSLESLQKLSPPAPAIGVEVHFTEIGLAIQKNQYQGLLLILAQLSHSPAALAMLERQQEETLAQLKLKTEIDAAKQEAMVTRGIQYADLYKRNFQGYPELAEADTELLKLMEKEEAMSTLLAWRAVALKVVQIEYAQDDKPFWRPKPSKGLFSGWFGPKGPAKPTKVADHALVRRMVLEPAAVQHEEEEKAMKNVNAKYVKIEVIARLDALSIKLMSPTRAPLLALAITGIGAEVRLRPSSTAVSAVVGAIEAVDHMTPGTVHEVFMRRSKRPAAAGRIGADRPLVSATVSLNDKAVNPDDGLDMKLGVELAAVDIIVNTGMLLQLAQFFEPPAEAKFMGEAKERAMARFNDVRGSMQSAAVAALENRGRNLMDVRVEAPTIIIPNDPNDINSHVLVVDLGLLTFKSAPPSMEEIKEQKVLLQKATKDPGVLAQLPVSDQLRCFYDNFHVSLTALTVYAGAPSFLFAPDASVFIVRPFEVFVGLHVCLINAAQSTADAAIAQRAPAAAASSKDSKKDKKDKKETAVVVAPAPSQQRHVVLNLPQTIISVSLPAIEVTVSPLKVARLLRLVKALLRTLKSDADAKAQAEAASKVVANGSSLTARINNELNAIEAAEANAAAAAEASTNSSSTALTVAGKNSADDSSAGEKTPAAPAVNPEAINIALDFKLGLICVTIANDLVPEFPVDVLSLAIKDIAVDFQMRPYDMSVKTALGGMFIEDCLHAFSPSTKYLMHTSTVPVTAYNSKFAPFAPAQSPLAQPGATLTAAFMAVQVDLVQRESPRYAYANTIVNAQFGKVNLAINRESLPALMFFFIKQLMPNKFIVNVEDATQGSAILDDEADAAAAGATKDAAAAKDAPAPAAGKKSAAATAATATSVGLEPDAGFAPSFDSPGYATSVDTSSVEVDIEAAAARSAYLEDSEFDTLYDRLYAGEDAELAALIAEDEAERARAQRRAAEREAQVDQLLAKLKNDTITSVELLLLHRRANLQVQTRLLALKDELANVERSGGGFDRRVELSGQIAALEELLQRRRARLLALRSRERVTKNDSRVFRVSSAVCDETQRVGVLAVPKNLSGRAVALDRALRSGDIPVSAKPGGAVSVPPSTAMLTGTERAVAPLFSAHDITEEKADEAGFKILSLSVLVAATFAGVTVTLNSRGTGVLGLAVTDFTTGFAQADSGMAVRAQLGAFTVSNLAVKKDVKATRDYVDLALRAPSLSPETIAAATAATAGATAGAAPSALRQASINPSASGKDALAGAAGELHAYVHHWFKAQSSAPKNASARVQRAYLNRATAKVEYPEIVYTSTTAAKALDTGFGDEDEDDEDNVAGNSKAGTALIDVSFYMRTPEPVVLDDLDEEEYFSFAHAIAVMRAGGIDEAARDVATARGLFFASSAPASSAALAIVPPRGHGLAAIREVATPRAAGTGSPASDGKSGDAFSFDPSPLPEPAPSGFENDYNVPALAVLTQGRAPRFAHSMVVRAKFSGLRVVACYKFVDSALAWAKDIDKVIAAVTAVPAAPAGVQTPADIAAAAVANSSKLHSKNSKAGSVAGSKKGSAVHSANGTPGAGANSVRRSSAGAALLGGAMSKTTNRDAFATPSAPARGLALPSNAPTGPVAAKPSTTALSAAESKPLMLISLSVDLEDIAVVIPASSTSPELLVLRLDGIHINNKVKLARASAVAKQAASAPGAANAFSGSAT