Homologs
Mythimna_separata, Bemisia_tabaci, Cotesia_congregata, Spodoptera_exigua, Spodoptera_littoralis, Diadromus_collaris, Daktulosphaira_vitifoliae, Drosophila_melanogaster, Frankliniella_occidentalis, Gryllus_bimaculatus, Glossina_morsitans, Hypothenemus_hampei, Dendrolimus_kikuchii, Tenebrio_molitor, Oncopeltus_fasciatus, Rhodnius_prolixus, Sogatella_furcifera, Solenopsis_invicta, Nasonia_vitripennis, Aedes_aegypti, Tribolium_castaneum, Pediculus_humanus_USDA, Bombus_terrestris, Bombus_impatiens, Musca_domestica, Apis_mellifera, Camponotus_floridanus, Plutella_xylostella, Linepithema_humile, Bombyx_mori, Stomoxys_calcitrans, Cimex_lectularius, Halyomorpha_halys, Acyrthosiphon_pisum, Dendroctonus_ponderosae, Zootermopsis_nevadensis, Myzus_persicae, Galleria_mellonella, Ostrinia_furnacalis, Osmia_bicornis_bicornis, Manduca_sexta, Sitophilus_oryzae (self), Thrips_palmi, Spodoptera_frugiperda, Anopheles_stephensi, Nilaparvata_lugens, Culex_pipiens_pallens, Frieseomelitta_varia, Helicoverpa_zea, Pieris_napi, Helicoverpa_armigera, Anthonomus_grandis_grandis, Anopheles_gambiae
DNA sequence
ATGCTTAGTTATATATTTTCGTTCTTCAGAAAGTCTGATCCCGAATCAGAATTATCTTTGGAAGATTGTACGAAGATTTTAGCATCGGAAAACTATTCTCCTGAAATAAACGAGGAGGAAATCGAACCCCAGATCGGAGTGGACGGTTCCTACAAGGAGGAATACAATTTTGCAAGCAGGAAAGGTGTTATAACGGCTAGAAACACTTCCAATAGTTATGTTATCGATGATTTATATTCCTTCACCTCAGATACCGATACATTCAGTATAGGAACGGTAGTTTCGTACCAAAAACTAGTTTACGACGGGAAAATTGATATTTACAATGTAGCAGAGATACAGAGTGACTGGGATACGAACATTGAAAAAGATTCTTTTGTAAATACGCGAGTTTTGATATGTAAAGTCGAGAAAAGAGACAAAAGAATACTTCACCTAAGCCACGAAAATATGAAACTCGATTTAGACAAAGTCGCCACTGTATTTGTCCCTATAGTAGGTGATTGGATTGAACTCCTTGTTAAATGCGAGGTAAACGACCAAACAATAGATTTAAGTGGTGATGTCATTACAATAGACAAAATATCCCCCGTCAGGGCTCATATAATAACTGGACAGATCTCAGCATGGGACTCACTGGACTGTACCGGCACTATAAACCGAGATATATTTTTTAATAAGGATTCTTTAAGCTGTGGTTATGTTCCAGTAGTAAAAGACAAAGTTGTTGCTGAGATTATCGAGTCAGACCAAGGAAGATGTATTTTTAGGGCTTTAAAAATCATCCCTGAATCGATTAAAAATAGATTTGATGTTTTTAAGAACTCTGATAATCAGTGTCTGGAGGAATCTCATCCAGGACTTGAAATTTCTGGTACAAAAGTGAATTTTAGTAAACTAGGTGATAGTGAACAGTTAAGAGTTGTATTAAGTAACAAATCTAGTGATATATTCAAGTTTATAAGAGCAGAACTTAGTGATAATTGTACACAAATTGTTTTATCACAAAATAGTCCCGAATCTGTTGAAATAAGGCCTGAAGAAAGTTTAGAAATTTTACTAAATTGTACAGCAAAAAACATCGGTGTGTCTAATGAATTATTAACGCTAATTTTTGAAAATTTTATTGTTAACAAATATATTAATCTACATGTTAATATAAATGTGAAGAACCCTGGGAGTTACCAAAGGAACAATTACAATTATAGTAATAATGTACCACAAAATGGACAAATAATTCGCGGACAAAGGCAGCACCAGGTTGCCAGATTTCAAATAAGGAGACTGCCTGACTATGCAGTACCAAGACATCTGCTGAATGTATATGAGAATTACTATGGGGCTCAGAATCGGATGCTTTTTACTGAAGAACTGAAAAAAGTAAAAAGGAGTGTTTTTAATAGTCTGAATCATATGAATTATGAAGAAAAATTTCATACTTTGCTGCACATGGACGAAATAGTACAACTGATGCATATGAGACGTTATAACCAAGATAGAGTCTGTTTTATACCAAATGGAGAGTTTCTAATGTTAGAAATAGAAAATTTAGCTGAAAGACGACCATCTATAGTTATTGGTGACAGAATCCAGGCCAGCGATCCTTTGGGTCATACAAACGAGATTTATGAAGGAAATGTGACAAAAGTTGGAGCAAAACATGTTTATTTAAAATTCTCGGAACTTTTCCATCAGATGTATAACGGGGAAGATTATACAATTCGAGTTATACCAGGTCGCGCATCTTACAAGAGACAGCATCACGCAGTGTTTCTTATTTCGAGAAACCTGGGAAGAAATTGGTTATTTCCAGCTAAGATAGAAGAAAAAAATGCTCAAATTGAGTTTTGGTACGAACCCTATCCAAATATAGTGAACACCAATAGTTCAGAGAGTGCAAATAAAAGAAATGTCAAGCTACTTGTAAGCTTGGCAAAAGAAATTAAAATAAAAAAAGAACTAGAAGAGCTGAATAAGAATGTTCTTAAATTAGAATGGTACAACAAAACTCTGAATTGCAAACAGAAAGACGCAGTGGTGAATATACTGAAGGGAACGTGTAGGCCGTTGCCTTATGTGATTTTTGGGCCACCCGGTACAGGAAAAACCGTCACTGTTATAGAAAGTATTCTGCAGGTACTCAGGATGCTTCCCGGTAGCAGAATTTTGGTCACTGCTCCATCCAATAGCGCTGCAGATTTGATAGCTCTGCGATTAATAGATTGGGGGGTACTTAAACCCGGTGACTTAGTACGACTAGTTTCTGTCAACTACGCTTTGGGCGAACAAATTCCTCCGAAATTGGTGCCTTATTGTGCTACAGGGAGCGTAGCCAAGGAAGGCACAGCCGAAGAGAACATTAGGGCCCCAAACGGCATGCTCCTAGATTGTAGCAGATTTGTACTGGGTCGACACAGGATAACAGTATCCACGTGCTCCAGCGCAGGCGTACTCTTCATGATGGACTTCCCGCGCGGTCACTTCACTCATATTTTCGTAGACGAGGCAGGACAGGCTGCCGAATCTGAAGTTATGATCGCCTTGTCCTTTTTGGACAAGTACAACGGTCAAGCTGTCCTAGCAGGTGATCCTATGCAACTAGGACCAGTGGTCTTATGCTCTGTGGCATCTGAATGTGGCCTCAATGAATCCTATTTGGAAAGATTGCTCAACAGGTTTCCTTATGTCAGAGATACAGAGGGTTTTCCCGAATCCGAAGGCTTCGACCCGAGATTAGTCACCAAATTGCTATACAACTATCGATCTATGGAGGTTATTTTGAATATGTTCAGTTCACTGTTTTACAATGGAGAATTGATACCGACGATATCAGACGAAGATAGTAGAGAAGCTGTACTATTAAATTCTCTGGCTTCGATTTTACCTAAAACCAGGACTGGAAAAGTGCCTTCTGTGGTGTTCCACAGTGTGGATGGTGAAAATTTTCAAACGCCAGATTCTCCATCATGGTATAACCCCCACGAAGCAGCCCAAGTCTTTTTCTACCTGAACGAACTCTATCGGCTCGGCCTTAAATCTGACAACGTCGGTATCATCACCCCGTACACGAAACAAGTGCGCGAAATACGAGGACTGTTGAAAGAAGCCGACTTTGACGTGCCCAAAATCGGAACCGTCGAGGACTTTCAAGGTCAAGAATTTGACGTTATACTGCTGTCAACTGTCAGATCTGGCGAGGAATTCGTGTCGCGCGACCTGGAACACTCGCTGGGCTTTGTGGCCAGCCCTAAGCGGCTCAACGTTGCCATATCTCGGCCGAAGGCTTTGCTGGTGGTGGTTGGCAACCCCGCAGTGTTGAGCTCCGACGTGCATTGGAGGTCTGTGATTGCGTACTGTTGGGAGAGAGGCGCTTATATTGGATCTCCCCTGCTCAGTGATTGA
Protein sequence
MLSYIFSFFRKSDPESELSLEDCTKILASENYSPEINEEEIEPQIGVDGSYKEEYNFASRKGVITARNTSNSYVIDDLYSFTSDTDTFSIGTVVSYQKLVYDGKIDIYNVAEIQSDWDTNIEKDSFVNTRVLICKVEKRDKRILHLSHENMKLDLDKVATVFVPIVGDWIELLVKCEVNDQTIDLSGDVITIDKISPVRAHIITGQISAWDSLDCTGTINRDIFFNKDSLSCGYVPVVKDKVVAEIIESDQGRCIFRALKIIPESIKNRFDVFKNSDNQCLEESHPGLEISGTKVNFSKLGDSEQLRVVLSNKSSDIFKFIRAELSDNCTQIVLSQNSPESVEIRPEESLEILLNCTAKNIGVSNELLTLIFENFIVNKYINLHVNINVKNPGSYQRNNYNYSNNVPQNGQIIRGQRQHQVARFQIRRLPDYAVPRHLLNVYENYYGAQNRMLFTEELKKVKRSVFNSLNHMNYEEKFHTLLHMDEIVQLMHMRRYNQDRVCFIPNGEFLMLEIENLAERRPSIVIGDRIQASDPLGHTNEIYEGNVTKVGAKHVYLKFSELFHQMYNGEDYTIRVIPGRASYKRQHHAVFLISRNLGRNWLFPAKIEEKNAQIEFWYEPYPNIVNTNSSESANKRNVKLLVSLAKEIKIKKELEELNKNVLKLEWYNKTLNCKQKDAVVNILKGTCRPLPYVIFGPPGTGKTVTVIESILQVLRMLPGSRILVTAPSNSAADLIALRLIDWGVLKPGDLVRLVSVNYALGEQIPPKLVPYCATGSVAKEGTAEENIRAPNGMLLDCSRFVLGRHRITVSTCSSAGVLFMMDFPRGHFTHIFVDEAGQAAESEVMIALSFLDKYNGQAVLAGDPMQLGPVVLCSVASECGLNESYLERLLNRFPYVRDTEGFPESEGFDPRLVTKLLYNYRSMEVILNMFSSLFYNGELIPTISDEDSREAVLLNSLASILPKTRTGKVPSVVFHSVDGENFQTPDSPSWYNPHEAAQVFFYLNELYRLGLKSDNVGIITPYTKQVREIRGLLKEADFDVPKIGTVEDFQGQEFDVILLSTVRSGEEFVSRDLEHSLGFVASPKRLNVAISRPKALLVVVGNPAVLSSDVHWRSVIAYCWERGAYIGSPLLSD