BmTargetGene-11

Position

Chromosomechr24
Start3675825
End3810429
Strand-

view in Gbrowse: chr24:3675825..3810429

Most similar sequence in NCBI nr database

AccessionDescriptionE-valueScore
XP_012544766.1ryanodine receptor isoform X80.010685

ORF sequence (15333 bp)

ATGGCGGAAGCTGAGGGCGGGGCGAGCGAGCAAGATGACGTTTCCTTCTTACGAACGGAAGACATGGTGTGCCTCTCGTGTACCGCTACCGGGGAACGCGTGTGCCTCGCAGCTGAAGGATTTGGAAACCGGCACTGCTTCCTGGAGAACATCGCGGACAAGAACATACCACCCGATCTGTCGCAATGCGTCTTCGTCATAGAACAGGCGTTATCAGTGAGAGCTCTCCAAGAATTGGTGACGGCGGCCGGATCGGAAACCGGCAAGGGCACTGGATCCGGTCACAGGACACTGCTTTACGGAAACGCGATCCTTTTGAGACATCTCAACAGTGATATGTACTTGGCGTGCTTGTCGACATCATCATCTCAAGACAAACTGGCTTTCGACGTTGGTCTCCAAGAGCACTCCCAGGGTGAAGCGTGCTGGTGGACATTGCATCCGGCCAGTAAACAAAGATCGGAGGGTGAAAAAGTGCGAGTGGGAGATGATTTGATTCTTGTATCTGTTGCCACTGAGAGATATTTGCACACAACTAAAGAGAATGAAGTATCGATCGTCAATGCCTCGTTTCACGTGACACACTGGTCGGTCCAGCCATACGGAACCGGCATCTCGAGGATGAAATACGTCGGCTACGTCTTCGGGGGAGACGTTCTACGTTTCTTCCACGGAGGAGACGAATGCCTTACAATACCTAGCACTTGGACTCGGGATGGAGGACAGAATATTGTAGTATACGAAGGCGGATCGGTCATGTCACAAGCTCGTTCGCTATGGCGTTTGGAACTAGCTCGTACCAAATGGGCCGGAGGCTTTATCAACTGGTACCATCCAATGAGGATTCGGCACATCACTACGGGTCGATACTTGGGTGTTAACGACCAGAATGAACTCCATTTGGTCAGCAGAGAGGAAGCCACAACCGCTTCCTGCGCCTTTTGTCTTCGTCAAGAAAAAGATGATCAGAAACAAGTGCTTGAAGATAAAGATTTGGAAGTGATCGGAGCGCCAATTATTAAATACGGTGACTCAACAGTAATTGTGCAGCACTCTGAAACTGGCTTGTGGCTTTCATATAAGTCTTACGAAACAAAGAAGAAAGGCGTCGGTAAAGTAGAAGAGAAACAAGCCATACTACACGAAGAAGGTAAAATGGACGACGGCCTTGATTTCTCCAGGTCCCAAGAAGAAGAGTCGAGGACCGCCAGAGTCATCAGGAAGTGTTCTTCTTTATTCACTAAGTTCATCAATGGCCTTGAAACTCTTCAAGAAAACAGAAGACACTCGATGTTCTTCGCGTCCGTGAACTTAGGAGAGATGGTGATGTGCTTGGAGGATCTTATAAACTATTTCGCACAGCCCGATGAGGACATGGAACACGAAGAAAAGCAAAACAAGTTCCGTGCTCTTCGAAACCGCCAAGATCTTTTCCAAGAGGAGGGTATCCTGAATTTAATCCTGGAAGCAATCGACAAGATCAACGTGATCACGTCCCAGGGATTCCTTGCTGGGTTCCTAGCTGGAGACGAATCGGGACAGAGCTGGGAAATGATCTCTGGATACCTTTATCAGCTTTTAGCTGCTATTATAAAAGGAAACCACACGAACTGCGCACAGTTCGCAAACTCCAACCGTCTGAACTGGTTGTTCTCTAGACTCGGCTCACAGGCATCTGGCGAAGGAACTGGGATGCTGGACGTGTTGCATTGCGTGCTCATAGACTCGCCTGAAGCCTTGAATATGATGAGGGATGAGCACATAAAAGTAATCATAAGCTTATTAGAAAAGCACGGGCGTGACCCGAAAGTTCTCGACGTGCTGTGCTCGCTGTGCGTCGGCAACGGAGTGGCCGTGCGCTCGTCCCAGAACAACATCTGCGACTACTTGCTGCCAGGGAAGAACTTGCTACTGCAGACTCAGCTAGTAGACCACGTTTCCAGTGTGCGACCGAACATTTTCGTGGGCCGCGTCGAAGGATCAGCAGTGTACCGTAAATGGTACTTCGAAGTGACGATGGACCACATCGAGAAAACCACGCACATGATGCCCCATCTGCGCATAGGATGGGCTAACACTTCTGGATACGTACCGTATCCTGGTGGTGGCGAAAAGTGGGGCGGTAACGGTGTCGGTGATGATTTGTATTCCTTTGGTTTCGATGGAGCATATTTGTGGTCTGGTGGCAGGAAAACCCCGGTTAATCGCACTCACCACGAAGAACCTTATATCAGAAAAGGCGATGTGATTGGGTGCGCTCTGGACTTGAACGTTCCTTTAATCAACTTCATGTTCAACGGCGTCAGGGTGACCGGATCTTTCACCAACTTCAACTTGGAAGGCATGTTCTTCCCCGCCATCAGCTGCTCAAGTAAATTAAGTTGTCGGTTTCTATTCGGCGGCGAACATGGTCGTCTGCGTTACGCGGCTCCCGAGGGATACTCTCCGCTGGTTGAGTCGCTGCTTCCGCAACAGATCCTCAGTCTCGAACCCTGCTTCTATTTTGGCAACCTCAACAAGAGGGCTCTAGCTGGACCATCTTTAGTTCAAGATGATACCGCATTTGTGCCTACACCGGTTGATACGATGACGATATCTCTGCCAACATACGTGGAACAAATCAGGGATAAGCTAGCCGAAAATATTCACGAAATGTGGGCTATGAATAAGATTGAAGCCGGCTGGATGTACGGTGATCAGCGCGACGACATACATAAGATCCATCCTTGCTTGGTGCCCTTCGAGCGACTACCACCTGCTGAGAAGAGATACGATATCCAACTAGCTGTGCAAACATTGAAAACAATTCTTGCGCTTGGCTACTACATTACTTTGGATAAGCCACCAGCACGTATCCGCAACGTCCGACTTCCAAACGAACCATTTTTACAGTCAAACGGCTATAAACCAGCACCTTTAGACCTTGGTGCTGTTACTCTGACACCCAAAATGGATGAACTAGTGGACCAATTAGCTGAGAATACTCACAATCTTTGGGCCAGGGAAAGAATACAACAAGGTTGGACTTACGGTCTCAATGAGGATCCGGAGATGCATCGCTCCCCTCACTTAGTGCCGTATCCTAAAGTTGATGATGCCATAAAAAAAGCCAACCGAGACACCGCGTCTGAAACTGTCCGAACTTTATTGGTTTACGGATATAATCTGGATCCGCCCACTGGAGAACAGCATGAAGCTCTACTAGCGGAGGCTTCTAAGCAGAAACAAGCTGATTTCAGAACCTACAGGGCGGAAAAGAACTACGCCGTTAGTTCTGGGAAATGGTATTTCGAATTTGAAATATTAACGGCTGGGCCAATGAGGGTTGGTTGGGCTCATGCTGACATGGCTCCGGGCATGATGTTGGGACAAGACGAGAATTCTTGGGCGTTCGACGGATACAACGAGGAAAAGGTATACTCCAGTAGCACAGAAGCCTTCGGCAAGCAATGGGCAGTCGGTGATGTGGTTGGCGTGTTCCTTGATCTCATCGATAAGACGATAAGTTTCTCTCTTAACGGAGAGCTTCTGATGGATGCCCTTGGCGGGGAGACGACATTCGCAGATGTCCAAGGCGATAATTTCGTGCCGGCTTGCACACTTGGGGTCGGGCAGAAGGCCAGGTTGACATACGGACAAGACGTGAACACTCTAAAATACTTCACGACCTGCGGTCTTCAAGAGGGATACGAACCTTTCTGTGTCAACATGAAAAGAGATGTCACTCATTGGTACACAAAAGACCAGCCCATCTATGAAAACACAGATGAAATGGCCGACACAAGAATCGATGTAACCAGGATACCAGCTGGATCAGAGACTCCACCGTGTCTGAAAATATCTCACAACACATTCGAAACGATGGAAAAAGCCAACTGGGAGTTTCTGCGTTTGTCTCTACCGGTCATTTGCCATTCGCAGTTTATAGATGAATCAGAGAAAGCACGACGCTGGGTAGAGATTAAGGAACGTCAGCAGATCCTCATGAAAGAGGCCACCGAAGCTCAGATACCAGCTCACATCGACCAAATCATGAGGAGTGGATTTACTATGAATGACATAAAAGGTCTGCACTACGAAGACAATCAAGAAGAGATCCAGAGCTCCAAAGTGAAACGTCAGCCGTCCAGACCACCACGTAAGGGTTCAGTCACACGCGGTGTCACGATACAGAATTACAATACACCATCAGGACAACAAGTAAATGGAATTCATCGGTCCACCAGTGAAGCAGAAATGGCGAAATATGAATTAGGCGCTCAAACTTTAGCGCCAGATGAGAAGAAAGATAAAAGAGGACGTTCTCCTTTCAAATTTTTCAAGAGCAAACGTGCCGAGAGCAGTGATCGCGCCAAAATCCGCAAGTCCAAAACTCCAGATCCCTTCAGTGACACCGAACTGTCTCCTGACAGGGGGACGAAGAGACCCAACCCTCAGATCAAGGTGTCTCAGCCGAACCAAAGGTATAATAATGGCACGCAGCCCCGAGCAAGCAGACCCAACTTGTATGGAAGTCAAAGCGGTCTTAACATGGCGACTCCAACTCAGGAGAGAAAGCAGTTAATGACAACCACGAATCTGTCGGCCGCTGCGACGGAGACCGTCGGCAACGAGATATTCGACTCCGAGTGCTTAAAGCTCATTAATGAATACTTCTACGGGGTCAGAATATTCCCTGGCCAAGACCCAACTCACGTGTACATTGGGTGGGTGACCACTCAGTACCATCTGCACTCGAAAGACTTCAACCAAAACAAGGTGATGAAGTCATCAGTCATCATCACCGACGACTACGACCGGGTCATTGAAAGCGTAAACCGTCAGTCCTGCTACATGGTGCGAGCTGATGAGCTTTACAACGAAGTGATGGCGGAAGCTACGGCCAAGGGCGCGTCCCAAGGAATGTTTATTGGATGTTCAGTGGACACTTCCACCGGGACTGTAGCGTTCACATGCGAGGGAAAAAGCACTAGCATTAAATTCAAGATGGAGCCAGAGACCAAATTATTCCCGGCGATCTTCGTCGAAGCGACATCGAAAGAGATCCTCCAGATAGAGCTGGGCAGGTCTCCGACAAGTCTACCGCTAAGTGCCGCGGTGCTACCAACGAGCGACAAGCACGTCACGCCGCAGTTCCCGCCCAGGCTGAAAGTGCAGTGTCTCAAGCCGCATCAGTGGGCTAGAGTACCAAATTCATCGTTGCAAGTGCACGCTCTAAAGCTGTCTGACATACGAGGCTGGTCGATGCTGTGCGAAGACGCAGTTTCTATGCTCGCATTGCACATACCAGAGGAAGACCGGTGCATCGACATATTGGAGCTTATCGAAATGGATAAGCTGTTGAGCTTCCACTCGCACACCCTCACGTTATATGCAGCTTTATGCTACCAAAGCAACTACAGGGCTGCCCACGCTTTATGCCAGCATGTAGATCAAAAGCAATTGTTATACGCCATCAAGTCCCAGTACATGTCCGGGCCACTGCGCCAGGGTTTCTACGATCTACTCATTGCTCTACATTTAGAATCGCACGCAACCACGATGGAAACCTGCAAGAATGAATTTGTGATACCCCTGGGGCCGGAGCTGAAGGTTCTGTACGACGAGCCCGACATGGGGCACAGCCTCCGCTCGCTGCAGACGGAGAGCGTCAGACCGCAGTTGGAAATGACCGATATCACGGAAAAAAGTATAATGGACATAAGTAATCTGTACTCTCCGAAGTTCCCTCTGGAAGTTGTCCGTGAATTCGTGATGCAGGCACTCGCGGAGGCCGTGGAAACTAACCAGGTCCACAACAGAGATCCGGTCGGTGGAAGCAACGAGAATCTCTTCCTGCCGCTAATTAAGCTCGTGGACCGTCTACTCCTGGTCGGAAAAATGCGCGACGAAGACGTTGAGAAACTTCTCATCATGATCAACCCCGAGACCTGGGATCCAACGTTCAATAAAGAAGGCAAAGACGAACACCGAAAAGGACTTCTTCACATGAAAATGGCTGAAGGCGCTAAACTGCAAATGTGTTATTTGCTCCAACATCTGAACGACATGCAGCTACGTCACAGGGTTGAATCTATAGTGGCTTTTGCACATGACTTTGTCGGGGACCTGCAGTCCGACCAGTTGAGACGCTACACTGAGATCAAGCAGTCAGATTTACCGAGTGCGGTTGCAGCCAAGAAGACCAGAGAATTCCGTTGTCCTCCTAGGGAACAGATGAACGCAATCCTGAGTTTCAAACATCTTGAAGATATCGATAAGGAGAACTGTCCTTGTGGCGAAGAACTCATCGCTAGGATGAACGGCTTCCACGAAAGTCTCATGGTCCACGTATCTCTAAACGCCCTGCAAGAACCTGATCCTGAGGAGCCCACTGAACCAGAAATAAAGCCGGGGGCCATTAATAAATTATATAGCCTTATAAATACCGTCAAGGAACTAGAAGAGGAACCCAAGACATTAGAGGAACCAGCCAAGAAGACTCCGGAGGAACGTTTCCGGAAAGTACTCATACAGACGATCGTGAATTGGGCGGAGGAATCGCAGATTGAGACTCCCAAGTTAGTCAGGGAGATGTTTAGCCTACTGGTTCGCCAGTATGACGCCGTAGGAGAACTGATCCGAGCTCTCGAAAAGACTTACGTCATCAATGCGAAGACCAAGCAGGACGTGGCCGAGATGTGGGTGGGACTCAGTCAGATCAGAGCCCTGCTCCCGGTGCAAATGAGTCAAGAAGAGGAGGAACTCATGAGGAAAAGGCTTTGGAAACTGGTCAACAACCACACTTTCTTCCAGCATCCAGATCTGATAAGAGTATTGAGGGTACACGAAAACGTGATGGCTGTAATGATGAATACTTTGGGAAGGAGAGCCCAAGCGCAGTCTGATGCTGCACCGAACCAGCCGCTTGCCGAGGATACCAAGGAGAAGGACACTTCGCATGAAATGGTTGTGGCCTGTTGTCGATTCCTCTGCTACTTCTGTCGCACCGGTCGTCAGAATCAAAAAGCCATGTTCGATCACTTTGACTTCTTGCTGGAGAACTCCAATATTCTACTGTCGAGACCTTCGTTGCGAGGTTCGACTCCTTTGGATGTTGCCTACTCCAGTTTGATGGAGAACACGGAATTGGCTTTAGCTTTGAGGGAGCACTATCTTGAGAAAATAGCGGTATACCTTTCTCGTTGTGGACTACAGAGCAACTCTGAGTTAGTGGAAAAGGGGTATCCAGACCTTGGATGGGATCCGGTAGAAGGCGAGAGATATTTGGACTTCCTGAGATTTTGTGTTTGGGTAAATGGTGAAAGCGTAGAAGAAAACGCCAACTTAGTGATCCGCTTGCTAATCAGGCGGCCGGAGTGTCTTGGCCCGGCCCTTCGGGGAGAAGGCGAAGGTCTACTGAAGGCTATTGTGGACGCGAACAAAATGAGCGAAAGGATCGCAGATAGAAGAAAACTAAGAGAGATAGAACAGGAAGGGGATATTAATTTCAGCCATCCACTCCCGGAGTCGGACGACGACGAGGATTACATCGATACTGGAGCGGCCATACTTAACTTCTACTGCACCCTGGTCGATCTGCTGGGGCGCTGTGCTCCGGATGCGGCAGTAATTGCTCTTGGTAAGAACGAGTCGCTTCGGGCCCGTGCCATTCTGCGCTCCTTGGTACCGTTGGAAGATCTTCAAGGAGTGCTCAGTCTTCGGTTCACCCTCAACAATCCCGCTGCCGGTGAAGAGAGACCCAAGTCCGACATGCCATCCGGACTAATCCCGGGACACAAGCAGAGCGTCGGACTTTTCTTAGAACGAGTCTATGGCATCGAGACCCAAGAGCTTTTCTACAAGCTTCTCGAAGAAGCTTTCTTGCCAGACTTGAGAGCTGCCACTATGCTAGACAGGAACGACGGCTGCGAATCGGACATGGCGCTTTCAATGAACCGGTACATCGGGAATTCGATCCTCCCGCTGCTGATCAAACACGCCAACTTCTACAACGAAGCCGAGAACTACGCCAGTCTGCTGGACGCCACGCTGCACACCGTCTACAGATTATCCAAAAACCGCATGCTGACAAAAGGCCAACGTGAGGCTGTCTCCGACTTCTTGGTGGCTCTGACGTCAGCGATGCAGCCCTCCATGCTGTTGAAGCTGCTGAGGAAGCTCACGGTTGACGTCTCGAGACTGTCCGAGTACACCACCGTGGCTCTCAGACTCCTGACGCTGCACTACGAACGTTGCGCCAAGTACTACGGCAGCACTGGTGGGCAGGGAATATACGGAGCATCTTCTGATGAGGAGAAGCGTCTCACCATGATGCTCTTCTCTAACATCTTCGATTCCCTCAGCAAGATGGACTACGAACCCGAGCTGTTTGGGAAAGCTTTACCCTGTCTCATCGCTATAGGCTGTGCTCTACCACCAGACTACTCTCTATCGAAGAATTACGACGATGAATTCTATGGAAAGGAGCAAGCATCAGTAGGCTCCGACAACCCGCAGTACGATCCCCAGCCGATCAACACCTCATCAGTCGCCCTGAACAACGACTTGAACACGATCGTGCAGAAGTTCTCCGAGCATTACCACGACGCCTGGGCCTCCAGGAAAATTGAGAACGGCTGGGTGTACGGCGAGTCTTGGTCAGACAGCCAGAAGACGCATCCACGACTGAAGCCTTACAACATGCTCAATGACTATGAGAAAGAGCGGTACAAAGAACCGGTCCGCGAGTCGCTGAAGGCACTTCTGGCTCTGGGCTGGTCCGTGGAACATTCCGACGTAGACCTGCCCGCCAACAGTCGCGGCTCTGTGCGAAGACAGTCCAAGTCCGGACTGACCGACTCAGCAACCCCTTTCAACTACAACCCTCACCCCGTGGACATGACGAATCTGACGCTGTCCAGAGAAATGCAGAACATGGCCGAGAGACTGGCTGACAACGCACATGACATCTGGGCTAAGAAGAAAAAAGAAGAACTAGTTACTAATGGAGGGGGAATCCATCCTCAACTAGTTCCTTACGACCTCCTAACTGATAAAGAAAAGAAGAAAGACCGAGAACGCTCACAGGAGTTCCTCAAGTACCTCCAATATCAGGGCTATAAGCTGCACAGGCCAAGCAAAATCCCGCAGAGCGACACGGAACAGACCTCTGCCGGAGTGGCAATAGAGCTGAGATTCGCTTACTCGTTGCTAGAAAAGTTGATCCAGTACATAGACAGGGCTACAATCAACATGAAACTCCTGAAGCCATCGACGACGTTCAGTCGTAGAAGCAGCTTCAAGACAAGCACCAGAGATATAAAGTTCTTCTCGAAAGTGGTTCTCCCTCTAATGGAGAAGTACTTCTCGACCCATCGCAACTACTTCATAGCGGTTGCAACTGCCACCAATAATGTGGGAGCCGCGAGCCTTAAAGAGAAAGAAATGGTCGCCGCTTTGTTCTGTAAGCTGGCCAGCCTGCTTCGATCTAGACTAGCAGCTTTTGGCCCCGACGTCCGCATCACCGTTCGCTGTCTCCAAGTCCTCGTCAAGGGCATTGACGCTAAATCTCTGGTCAAAAACTGCCCGGAATTCATTCGGACTTCAATGCTGACCTTTTTCAACAACATGGCCGACGATGTTGGGCACACCATCATTAATTTGCAGGATGGCAAGTACGCGCACCTCCGCGGTACCCATTTGAAAACGTCTACATCTCTTGGATACATTAACGGAGTACAATTACCTGTACTGACTGCTATGTTCGATCACCTAGCGAACTGCGAATACGGATCAGATCTGCTTTTGGACGAAATTCAAGTTGCGTCATACAAGATGCTCGGGTCACTCTACACGTTGGGCACTGATGTAACGCTGACCCACGACCGCAAGTACTTGAAGACGGAGATTGAAAGACACAAGCCTGCTTTGGGTTCGTGTCTGGGCGCTTTCAGTTCAACCTTCCCCGTGGCGTATCTGGAGCCGCATCTCAACAAACACAACCAGTTTTCTCTGCTTAACAGGATCGCTGAGCATTCGCTCGAGGCCCAAGATATAATGGCGAAAATGGAGCAATCTATGCCGACTCTAGAGACGATCTTGAACGAAGTGGACCAATTCGTTGAATCAGACAAGACGTATAATGAAGCGCCGCATATTATCGACGTGGTCCTGCCATTACTGTGCTCTTACCTGCCGTTCTGGTGGGCGCAGGGACCCGACAACGTCACCCCTACTGGAGGGAACCACGTTACCATGGTAACGGCGGAGCACATGAACCAACTCCTCAAGAACGTGCTCAAACTAATCAAAAAGAACATCGGCAATGAAAGCGCCCCGTGGATGACGAGGATCGCCACTTACACCCAGCAGATCATCATCAACAGCTCCGAAGAGTTGCTCAGGGATTCCTTCCTGCCTCTCGCCGAGAGAGTCAGGAAACGAACAGACAATATGTTCCACAAGGAAGAGAGCTTGAGGGGCTTCATAAAGTCCTCGACCGACGACACTTCGCAAGTAGAGTCTCAGATACAAGAAGACTGGCAGTTACTGGTGCGAGACATCTACTCCTTCTATCCGCTTCTCATCAAGTACGTGGACTTGCAGAGGAATCACTGGTTGAGGAATAATGTTCCAGAGGCCGAGGAGCTATACAACCACGTGGCCGAAATCTTCAACATCTGGTCGAAGAGTCAATACTTCTTGAAGGAAGAACAAAACTTTATATCGGCAAACGAAATCGATAATATGGTCTTGATAATGCCAACAGCCACACGCCGAGTCACGGCCGTGGTCGACGGCACGTCGCAAAGTGGTGGGAAGGTGCGAAAAAAGAAGAAGCATCGCGACAAGAAACGTGACAAGGACAAGGAAGTTCAGGCGTCTCTGATGGTCGCCTGTCTGAAGCGGTTGCTGCCGGTAGGACTGAATCTCTTCGCTGGAAGGGAACAGGAACTGGTACAGCACTGCAAGGATAGGTTCCTGAAGAAAATGTCCGAGCATGACGTTGCCGAATTCGCGAAGACCCAGCTGACGCTACCGGATAAAATAGACCCGGCCGACGAGATGTCGTGGCAACACTACCTCTACAGCAAATTAGGGTCGAAAAGCAAGACTGCCATCACTCTGGAGAATGCCGAGAACAAAGCGAAAATCATCGACGACACCGTTGAGAGGATCGTCGCGATGAGCAAAGTGCTCTTCGGATTGCATATGATCGACCATCCGCAACAAATGAGCAAGAACGTTTATCGATCAGTGGTCTCCATACAAAGGAAGAGGGCCGTGATAGCGTGTTTCAGACAGACGTCCCTACATTCGCTGCCGAGACATCGTGCTTGTAACATCTTCGCGAGGACTTATTACGAGCTGTGGCTGGAGGAAGAAAACATCGGACAAGAAGTCATGATTGAGGATTTGACGCAATCGTTCGAGGATGCTGAACTCAAGAAGAGTGATGTGGTAGAGGAGGATGGGAAGCCAGATCCACTGACCCAGTTGGTCACGACCTTCTGCAGGGGAGCTATGACGGAACGGTCCGGAGCCTTGCAGGAAGATCCACTGTACATGTCGTACGCGCATATCATTGCGAAGTCATGCGGAGAAGAGGAGGAGGAAGGAGGCGGAGAGGAGGAGGAGGGAGGAGGAGAAGCGGAAGGGGAAGAGGAAGGTCGGGCCAGTATACACGAGCAAGAAATGGAGAAGCAGAAGCTACTCTTCCACCAGGCGAGGCTCGCCAACAGGGGGGTCGCGGAGATGGTGCTCCTACACATATCTGCGTCCAAGGGGGTGCCCAGTGAAATGGTCATGAAAACGCTACAGCTCGGCATATCCATACTGCGCGGCGGGAACATTGACATACAGATGGGAATGCTGAACCATTTGAAAGACAAGAAAGACGTGGGCTTCTTCACGTCCATAGCTGGCCTCATGAACTCTTGCTCTGTGTTGGATCTGGATGCCTTCGAAAGGAACACTAAGGCTGAAGGTCTCGGGGTGGGGCTGGAGGGAGCCGCCGGCGAAAAGAACATGCACGACGCAGAGTTCACGTGCGCTCTCTTCAGATTCATCCAGCTGACTTGCGAAGGGCACAACTTGGATTGGCAGAACTACCTCCGGACCCAGGCCGGGAACACGACTACCGTGAACGTCGTGATCTGCACTGTGGACTACCTGCTACGTCTCCAGGAGTCCATCATGGACTTCTACTGGCACTATTCGAGCAAGGAACTGATCGACCCGGCCGGTAAAGCGAACTTCTTTAAGGCGATCGGCGTCGCTTCGCAAGTCTTCAACACGCTCACTGAAGTCATCCAGGGACCTTGTACTCAGAACCAGCAGGCCTTAGCCCACTCCAGACTGTGGGACGCTGTGGGAGGGTTTCTCTTCCTGTTCTCGCACATGCAGGACAAGCTGTCGAAGCACTCGTCACAAGTGGACCTGCTGAAGGAGCTACTCAATTTGCAGAAGGACATGATCACCATGATGCTTTCGATGCTCGAAGGAAACGTCGTCAATGGTACCATCGGTAAGCAGATGGTGGACACATTAGTAGAGTCGGCTTCAAACGTGGAACTGATCCTCAAGTACTTCGACATGTTCCTGAAGCTGAAGGACTTGACCTCTAGCGCCAGTTTCCAAGAAATCGACGCCAATAACGACGGCTGGGTCCTGCCGAAAGACTTCAAAGAGAAGATGGAACAGCAAAAGAGTTACACGCCCGAAGAGATAGAGTTCTTACTCGCTTGCTGCGAGACGAACCACGACGGTAAACTTGACTACGTGGGCTTCTGCGACCGTTTCCACGAACCGGCCAAAGAAATCGGCTTCAACCTTGCCGTACTGCTGACCAACCTCTCGGAGCACATGCCCAACGAACCAAGATTGGCCCGTTTCCTGGAAACAGCTGGCTCGGTGCTGAACTACTTCGAGCCATTCCTCGGCCGCATCGAGATCATGGGTGGATCGAAGCGCATCGAACGAGTCTACTTTGAGATCAAAGAATCTAATATTGAACAGTGGGAGAAGCCGCAGATCAAGGAATCAAAGCGCGCGTTTTTCTACAGCATCGTAACCGAAGGCGGCGACAAGGAGAAGCTGGAAGCGTTCGTGAACTTCTGCGAGGACGCCATCTTTGAGATGACCCACGCGTCGGGTCTGATGGCCGCTTCGGACGACACCGCCGGCGGACCTAAGAACAGGGAGGCCAGCTACATGTACATGGGAGACGACGATGATGATCGTGCCGGCAAGGATCCGTTCCGTCGCGGCATCCAATCAGTGAAAGACGGCATCTCCACGGCGTTCTCGTCTTTATCACCGTCGAACATAAAGGCGAAAATTGCAGATCTACAGCAAATGCCACCGGCAGAATTGGCCGTCGGCTTCTTCAAAATGTTCTTCTATATGTTCTATTACTTGGGCTATGGAGTGCTGGTCGTTGTCAGGTACATATTCGGAGTGCTCCTTGGACTAATGCGGGGCCCGCAGGTGGAGGAGCCACCACCAGAGCCAACTGAAGAGGAGAAAATCGGTCCGAGACATCTGCCAGCTTTACCGCCTGCTGATGACACTGGACAGATGCAAGTCTCGGCCTTCGGTTTGGACATAACTAAAGAAGACAACGGGCAGATCCAGGTGAAGCCGCACGAGTCTCCTACTACATCGACGCCGTCTTCAGGTGAAGAGGCTGACGCGTCTCTCGACGAGGGACTGGAACACTCCGAAGAGCAACGACCACCGTCGCTGATCGACTTATTAGGCGGGGAACAAGCAAAGAAACAAGCTCTAGAGCGCATTGAGGCTCAGGCCGCGCAACAGGCCGCCATGTCGGCGATCGAGGCCGAGAGCAAGAAGGCCGTCCAGGGTCCTGCTTCGTCGTCAGCTCTCTCCCAAGTGGATCTGTCGCAGTACACACGGCGAGCCGTTTCGTTTTTGGCCAGAAACTTCTACAACTTGAAATACGTGGCCCTCGTGCTGGCTTTTTGCATCAACTTCGTGCTTTTGTTTTATAAGGTTTCGACTCTTGATGGCGAAAAAGCCGAAGGTTCGGGCATCGGAGATATCATTGCGGGGTCTGGTTCTGGGCAAGGCTCTGGCAGTGGTGACGGAAGCGGCGAAGAAGACGACGCATTAGAAGTGGTACATATCGATGAAGACTTCTTCTATATGGAGCACGTCATCAAAGTGGCAGCGGTCCTGCATTCCATCGTGTCCCTGGCTATACTGATCGGGTATTATCATTTGAAGGTACCGCTTGCGATCTTCAAACGCGAGAAGGAAATAGCTCGTAAACTGGAGTTTGACGGCCTGTACATCGCCGAGCAACCCGAAGATGATGACTTCAAAAGTCATTGGGATAAACTCGTCATATCCGCTAAGTCCTTCCCTGTGAACTATTGGGACAAATTCGTGAAGAAGAAAGTACGAGCTAAGTACTCTGAGACCTACGACTTCGATTCAATATCGAATATGCTCGGGATGGAGAAGACTTCGTTCTCAGCTCAAGAAGACGAAGGCAGCAAGGGGTTGCTCCACTACATTATAAACATCGACTGGCGTTACCAAGTGTGGAAGGCCGGCGTCACGATAACGGACAACTCCTTCTTGTACTCGCTGTGGTATTTCGCTTTCTCGGTCATGGGAAATTTCAATAATTTCTTCTTCGCGGCCCATCTACTGGACGTCGCCGTCGGCTTCAAGACTCTAAGGACGATTCTTCAATCAGTAACACATAATGGGAAACAGCTCGTCTTAACAGTGATGTTGCTTACGATCATCGTGTACATATACACTGTGATCGCTTTCAATTTCTTCCGCAAGTTCTACGTCCAGGAGGAAGATGACGAGGTCAACCGGAACTGTCATGACATGCTGACGTGCTTCGTGTTCAACCTGTACAAGGGAGTGCGCGCCGGCGGTGGTATCGGGGACGAGCTGGAGCCGCCCGACGGAGACGACTCCGAGGTCTACAGGATCATATTCGACATATCCTTCTTCTTCTTCATCATCGTCATTCTGCTGGCCATTTTGCAGGGTTTGATCATCGATGCCTTCGGTGAGCTCCGTGACCAGCTCGAGTCCGTGAAGGAGGACATGGAGTCCAACTGCTTTATATGCGGCATCAATAAAGACTACTTTGATAAGGTTCCACATGGGTTCGATACGCACGTGCAGCGAGAACATAATTTAGCGAATTACATGTTCTTCCTTATGCATCTCATCAATAAACCAGACACGGAATACACCGGTCAAGAAACATACGTATGGAACATGTACACGCAGCGTTGCTGGGACTTCTTCCCGGTCGGTGACTGCTTCAGGAAGCAATACGAAGATCTTATGGGAGAATAA

Protein sequence (5110 aa)

MAEAEGGASEQDDVSFLRTEDMVCLSCTATGERVCLAAEGFGNRHCFLENIADKNIPPDLSQCVFVIEQALSVRALQELVTAAGSETGKGTGSGHRTLLYGNAILLRHLNSDMYLACLSTSSSQDKLAFDVGLQEHSQGEACWWTLHPASKQRSEGEKVRVGDDLILVSVATERYLHTTKENEVSIVNASFHVTHWSVQPYGTGISRMKYVGYVFGGDVLRFFHGGDECLTIPSTWTRDGGQNIVVYEGGSVMSQARSLWRLELARTKWAGGFINWYHPMRIRHITTGRYLGVNDQNELHLVSREEATTASCAFCLRQEKDDQKQVLEDKDLEVIGAPIIKYGDSTVIVQHSETGLWLSYKSYETKKKGVGKVEEKQAILHEEGKMDDGLDFSRSQEEESRTARVIRKCSSLFTKFINGLETLQENRRHSMFFASVNLGEMVMCLEDLINYFAQPDEDMEHEEKQNKFRALRNRQDLFQEEGILNLILEAIDKINVITSQGFLAGFLAGDESGQSWEMISGYLYQLLAAIIKGNHTNCAQFANSNRLNWLFSRLGSQASGEGTGMLDVLHCVLIDSPEALNMMRDEHIKVIISLLEKHGRDPKVLDVLCSLCVGNGVAVRSSQNNICDYLLPGKNLLLQTQLVDHVSSVRPNIFVGRVEGSAVYRKWYFEVTMDHIEKTTHMMPHLRIGWANTSGYVPYPGGGEKWGGNGVGDDLYSFGFDGAYLWSGGRKTPVNRTHHEEPYIRKGDVIGCALDLNVPLINFMFNGVRVTGSFTNFNLEGMFFPAISCSSKLSCRFLFGGEHGRLRYAAPEGYSPLVESLLPQQILSLEPCFYFGNLNKRALAGPSLVQDDTAFVPTPVDTMTISLPTYVEQIRDKLAENIHEMWAMNKIEAGWMYGDQRDDIHKIHPCLVPFERLPPAEKRYDIQLAVQTLKTILALGYYITLDKPPARIRNVRLPNEPFLQSNGYKPAPLDLGAVTLTPKMDELVDQLAENTHNLWARERIQQGWTYGLNEDPEMHRSPHLVPYPKVDDAIKKANRDTASETVRTLLVYGYNLDPPTGEQHEALLAEASKQKQADFRTYRAEKNYAVSSGKWYFEFEILTAGPMRVGWAHADMAPGMMLGQDENSWAFDGYNEEKVYSSSTEAFGKQWAVGDVVGVFLDLIDKTISFSLNGELLMDALGGETTFADVQGDNFVPACTLGVGQKARLTYGQDVNTLKYFTTCGLQEGYEPFCVNMKRDVTHWYTKDQPIYENTDEMADTRIDVTRIPAGSETPPCLKISHNTFETMEKANWEFLRLSLPVICHSQFIDESEKARRWVEIKERQQILMKEATEAQIPAHIDQIMRSGFTMNDIKGLHYEDNQEEIQSSKVKRQPSRPPRKGSVTRGVTIQNYNTPSGQQVNGIHRSTSEAEMAKYELGAQTLAPDEKKDKRGRSPFKFFKSKRAESSDRAKIRKSKTPDPFSDTELSPDRGTKRPNPQIKVSQPNQRYNNGTQPRASRPNLYGSQSGLNMATPTQERKQLMTTTNLSAAATETVGNEIFDSECLKLINEYFYGVRIFPGQDPTHVYIGWVTTQYHLHSKDFNQNKVMKSSVIITDDYDRVIESVNRQSCYMVRADELYNEVMAEATAKGASQGMFIGCSVDTSTGTVAFTCEGKSTSIKFKMEPETKLFPAIFVEATSKEILQIELGRSPTSLPLSAAVLPTSDKHVTPQFPPRLKVQCLKPHQWARVPNSSLQVHALKLSDIRGWSMLCEDAVSMLALHIPEEDRCIDILELIEMDKLLSFHSHTLTLYAALCYQSNYRAAHALCQHVDQKQLLYAIKSQYMSGPLRQGFYDLLIALHLESHATTMETCKNEFVIPLGPELKVLYDEPDMGHSLRSLQTESVRPQLEMTDITEKSIMDISNLYSPKFPLEVVREFVMQALAEAVETNQVHNRDPVGGSNENLFLPLIKLVDRLLLVGKMRDEDVEKLLIMINPETWDPTFNKEGKDEHRKGLLHMKMAEGAKLQMCYLLQHLNDMQLRHRVESIVAFAHDFVGDLQSDQLRRYTEIKQSDLPSAVAAKKTREFRCPPREQMNAILSFKHLEDIDKENCPCGEELIARMNGFHESLMVHVSLNALQEPDPEEPTEPEIKPGAINKLYSLINTVKELEEEPKTLEEPAKKTPEERFRKVLIQTIVNWAEESQIETPKLVREMFSLLVRQYDAVGELIRALEKTYVINAKTKQDVAEMWVGLSQIRALLPVQMSQEEEELMRKRLWKLVNNHTFFQHPDLIRVLRVHENVMAVMMNTLGRRAQAQSDAAPNQPLAEDTKEKDTSHEMVVACCRFLCYFCRTGRQNQKAMFDHFDFLLENSNILLSRPSLRGSTPLDVAYSSLMENTELALALREHYLEKIAVYLSRCGLQSNSELVEKGYPDLGWDPVEGERYLDFLRFCVWVNGESVEENANLVIRLLIRRPECLGPALRGEGEGLLKAIVDANKMSERIADRRKLREIEQEGDINFSHPLPESDDDEDYIDTGAAILNFYCTLVDLLGRCAPDAAVIALGKNESLRARAILRSLVPLEDLQGVLSLRFTLNNPAAGEERPKSDMPSGLIPGHKQSVGLFLERVYGIETQELFYKLLEEAFLPDLRAATMLDRNDGCESDMALSMNRYIGNSILPLLIKHANFYNEAENYASLLDATLHTVYRLSKNRMLTKGQREAVSDFLVALTSAMQPSMLLKLLRKLTVDVSRLSEYTTVALRLLTLHYERCAKYYGSTGGQGIYGASSDEEKRLTMMLFSNIFDSLSKMDYEPELFGKALPCLIAIGCALPPDYSLSKNYDDEFYGKEQASVGSDNPQYDPQPINTSSVALNNDLNTIVQKFSEHYHDAWASRKIENGWVYGESWSDSQKTHPRLKPYNMLNDYEKERYKEPVRESLKALLALGWSVEHSDVDLPANSRGSVRRQSKSGLTDSATPFNYNPHPVDMTNLTLSREMQNMAERLADNAHDIWAKKKKEELVTNGGGIHPQLVPYDLLTDKEKKKDRERSQEFLKYLQYQGYKLHRPSKIPQSDTEQTSAGVAIELRFAYSLLEKLIQYIDRATINMKLLKPSTTFSRRSSFKTSTRDIKFFSKVVLPLMEKYFSTHRNYFIAVATATNNVGAASLKEKEMVAALFCKLASLLRSRLAAFGPDVRITVRCLQVLVKGIDAKSLVKNCPEFIRTSMLTFFNNMADDVGHTIINLQDGKYAHLRGTHLKTSTSLGYINGVQLPVLTAMFDHLANCEYGSDLLLDEIQVASYKMLGSLYTLGTDVTLTHDRKYLKTEIERHKPALGSCLGAFSSTFPVAYLEPHLNKHNQFSLLNRIAEHSLEAQDIMAKMEQSMPTLETILNEVDQFVESDKTYNEAPHIIDVVLPLLCSYLPFWWAQGPDNVTPTGGNHVTMVTAEHMNQLLKNVLKLIKKNIGNESAPWMTRIATYTQQIIINSSEELLRDSFLPLAERVRKRTDNMFHKEESLRGFIKSSTDDTSQVESQIQEDWQLLVRDIYSFYPLLIKYVDLQRNHWLRNNVPEAEELYNHVAEIFNIWSKSQYFLKEEQNFISANEIDNMVLIMPTATRRVTAVVDGTSQSGGKVRKKKKHRDKKRDKDKEVQASLMVACLKRLLPVGLNLFAGREQELVQHCKDRFLKKMSEHDVAEFAKTQLTLPDKIDPADEMSWQHYLYSKLGSKSKTAITLENAENKAKIIDDTVERIVAMSKVLFGLHMIDHPQQMSKNVYRSVVSIQRKRAVIACFRQTSLHSLPRHRACNIFARTYYELWLEEENIGQEVMIEDLTQSFEDAELKKSDVVEEDGKPDPLTQLVTTFCRGAMTERSGALQEDPLYMSYAHIIAKSCGEEEEEGGGEEEEGGGEAEGEEEGRASIHEQEMEKQKLLFHQARLANRGVAEMVLLHISASKGVPSEMVMKTLQLGISILRGGNIDIQMGMLNHLKDKKDVGFFTSIAGLMNSCSVLDLDAFERNTKAEGLGVGLEGAAGEKNMHDAEFTCALFRFIQLTCEGHNLDWQNYLRTQAGNTTTVNVVICTVDYLLRLQESIMDFYWHYSSKELIDPAGKANFFKAIGVASQVFNTLTEVIQGPCTQNQQALAHSRLWDAVGGFLFLFSHMQDKLSKHSSQVDLLKELLNLQKDMITMMLSMLEGNVVNGTIGKQMVDTLVESASNVELILKYFDMFLKLKDLTSSASFQEIDANNDGWVLPKDFKEKMEQQKSYTPEEIEFLLACCETNHDGKLDYVGFCDRFHEPAKEIGFNLAVLLTNLSEHMPNEPRLARFLETAGSVLNYFEPFLGRIEIMGGSKRIERVYFEIKESNIEQWEKPQIKESKRAFFYSIVTEGGDKEKLEAFVNFCEDAIFEMTHASGLMAASDDTAGGPKNREASYMYMGDDDDDRAGKDPFRRGIQSVKDGISTAFSSLSPSNIKAKIADLQQMPPAELAVGFFKMFFYMFYYLGYGVLVVVRYIFGVLLGLMRGPQVEEPPPEPTEEEKIGPRHLPALPPADDTGQMQVSAFGLDITKEDNGQIQVKPHESPTTSTPSSGEEADASLDEGLEHSEEQRPPSLIDLLGGEQAKKQALERIEAQAAQQAAMSAIEAESKKAVQGPASSSALSQVDLSQYTRRAVSFLARNFYNLKYVALVLAFCINFVLLFYKVSTLDGEKAEGSGIGDIIAGSGSGQGSGSGDGSGEEDDALEVVHIDEDFFYMEHVIKVAAVLHSIVSLAILIGYYHLKVPLAIFKREKEIARKLEFDGLYIAEQPEDDDFKSHWDKLVISAKSFPVNYWDKFVKKKVRAKYSETYDFDSISNMLGMEKTSFSAQEDEGSKGLLHYIINIDWRYQVWKAGVTITDNSFLYSLWYFAFSVMGNFNNFFFAAHLLDVAVGFKTLRTILQSVTHNGKQLVLTVMLLTIIVYIYTVIAFNFFRKFYVQEEDDEVNRNCHDMLTCFVFNLYKGVRAGGGIGDELEPPDGDDSEVYRIIFDISFFFFIIVILLAILQGLIIDAFGELRDQLESVKEDMESNCFICGINKDYFDKVPHGFDTHVQREHNLANYMFFLMHLINKPDTEYTGQETYVWNMYTQRCWDFFPVGDCFRKQYEDLMGE

Domains and motifs

DatabaseIDDescriptionStartEndEvalueInterPro ID
Gene3D2.80.10.50- 22058.5e-83 -
PANTHERPTHR12864- 733450.0 -
PANTHERPTHR12864:SF53- 733450.0 -
PfamPF08709Inositol 1,4,5-trisphosphate/ryanodine receptor 132041.9e-62 IPR014821
ProSiteProfilesPS50919MIR domain profile. 9514910.756 IPR016093
SMARTSM00472- 951495.1e-02 IPR016093
SUPERFAMILYSSF82109- 991833.7e-08 IPR036300
ProSiteProfilesPS50919MIR domain profile. 1562017.966 IPR016093
SMARTSM00472- 1562013.2e-05 IPR016093
Gene3D2.80.10.50- 2093953.0e-58 -
ProSiteProfilesPS50919MIR domain profile. 2112657.33 IPR016093
SMARTSM00472- 2112650.83 IPR016093
PfamPF02815MIR domain 2123927.8e-46 IPR016093
SUPERFAMILYSSF82109- 2163932.5e-38 IPR036300
ProSiteProfilesPS50919MIR domain profile. 2713297.256 IPR016093
SMARTSM00472- 2713629.3e-14 IPR016093
ProSiteProfilesPS50919MIR domain profile. 3373956.914 IPR016093
Gene3D1.25.10.120- 3965371.9e-59 -
PfamPF01365RIH domain 4436421.5e-55 IPR000699
ProSiteProfilesPS50188B30.2/SPRY domain profile. 57880411.113 IPR001870
Gene3D2.60.120.920- 6418376.8e-60 -
CDDcd12877SPRY1_RyR 6488002.2e-80 IPR035761
SMARTSM00449- 6648032.4e-27 IPR003877
PfamPF00622SPRY domain 6668011.4e-20 IPR003877
SUPERFAMILYSSF49899- 6668024.3e-10 IPR013320
Gene3D1.10.490.160- 8519568.7e-31 -
PfamPF02026RyR domain 8559441.1e-31 IPR003032
PfamPF02026RyR domain 96810571.8e-29 IPR003032
ProSiteProfilesPS50188B30.2/SPRY domain profile. 1033121618.083 IPR001870
Gene3D2.60.120.920- 107512533.3e-56 -
CDDcd12878SPRY2_RyR 108012121.8e-71 IPR035764
SUPERFAMILYSSF49899- 108712151.1e-21 IPR013320
SMARTSM00449- 109212153.1e-37 IPR003877
PfamPF00622SPRY domain 109412134.0e-23 IPR003877
ProSiteProfilesPS50188B30.2/SPRY domain profile. 1471169212.449 IPR001870
Gene3D2.60.120.920- 147416982.3e-16 -
CDDcd12879SPRY3_RyR 153716881.5e-71 IPR035762
SMARTSM00449- 154816911.0e-24 IPR003877
PfamPF00622SPRY domain 155116892.7e-20 IPR003877
PfamPF01365RIH domain 223124602.9e-76 IPR000699
SUPERFAMILYSSF100909- 225423508.8e-06 IPR035910
PfamPF02026RyR domain 283429235.3e-31 IPR003032
PfamPF02026RyR domain 295430374.1e-26 IPR003032
PANTHERPTHR12864- 341051070.0 -
PANTHERPTHR12864:SF53- 341051070.0 -
PfamPF08454RyR and IP3R Homology associated 400641212.6e-29 IPR013662
Gene3D1.10.238.10- 420242661.2e-06 -
SUPERFAMILYSSF47473- 420642651.6e-08 IPR011992
PfamPF06459Ryanodine Receptor TM 4-6 449447488.6e-52 IPR009460
PfamPF00520Ion transport protein 487550185.4e-15 IPR005821

InterPro assignment

InterPro IDInterPro description
IPR000699RIH domain
IPR001870B30.2/SPRY domain
IPR003032Ryanodine receptor Ryr
IPR003877SPRY domain
IPR005821Ion transport domain
IPR009460Ryanodine Receptor TM 4-6
IPR011992EF-hand domain pair
IPR013320Concanavalin A-like lectin/glucanase domain superfamily
IPR013662RyR/IP3R Homology associated domain
IPR014821Inositol 1,4,5-trisphosphate/ryanodine receptor
IPR016093MIR motif
IPR035761Ryanodine receptor, SPRY domain 1
IPR035762Ryanodine receptor, SPRY domain 3
IPR035764Ryanodine receptor, SPRY domain 2
IPR035910RyR/IP3 receptor binding core, RIH domain superfamily
IPR036300Mir domain superfamily

Gene ontology (GO) assignment

GO categoryGO IDGO description
molecular functionGO:0005216ion channel activity
molecular functionGO:0005219ryanodine-sensitive calcium-release channel activity
molecular functionGO:0005262calcium channel activity
molecular functionGO:0005515protein binding
biological processGO:0006811ion transport
biological processGO:0006874cellular calcium ion homeostasis
cellular componentGO:0016020membrane
cellular componentGO:0016021integral component of membrane
biological processGO:0055085transmembrane transport
biological processGO:0070588calcium ion transmembrane transport
SpeciesAccession
Danaus plexippusDPOGS211070
Heliconius melpomeneHMEL007396g1.t4
Manduca sextaXP_030041218.1
Plutella xylostellag203.t1
g203.t2
Spodoptera frugiperda (corn)GSSPFG00011206001.1-PA
Spodoptera frugiperda (rice)SFRICE013342-PA
Acyrthosiphon pisumXP_016661950.1
Aedes aegyptiAAEL003837-PK
AAEL003837-PN
Anopheles gambiaeAGAP010750-PA
Apis melliferaXP_006569107.1
Drosophila melanogasterFBpp0087720
Tribolium castaneumXP_015833833.1
Homo sapiensXP_006711873.1
Mus musculusXP_011242598.1