BmTargetGene-11

Overview
Annotation
Orthologs

Position

Chromosome	chr24
Start	3675825
End	3810429
Strand	-

view in Gbrowse: chr24:3675825..3810429

Most similar sequence in NCBI nr database

Accession	Description	E-value	Score
XP_012544766.1	ryanodine receptor isoform X8	0.0	10685

ORF sequence (15333 bp)

ATGGCGGAAGCTGAGGGCGGGGCGAGCGAGCAAGATGACGTTTCCTTCTTACGAACGGAAGACATGGTGTGCCTCTCGTGTACCGCTACCGGGGAACGCGTGTGCCTCGCAGCTGAAGGATTTGGAAACCGGCACTGCTTCCTGGAGAACATCGCGGACAAGAACATACCACCCGATCTGTCGCAATGCGTCTTCGTCATAGAACAGGCGTTATCAGTGAGAGCTCTCCAAGAATTGGTGACGGCGGCCGGATCGGAAACCGGCAAGGGCACTGGATCCGGTCACAGGACACTGCTTTACGGAAACGCGATCCTTTTGAGACATCTCAACAGTGATATGTACTTGGCGTGCTTGTCGACATCATCATCTCAAGACAAACTGGCTTTCGACGTTGGTCTCCAAGAGCACTCCCAGGGTGAAGCGTGCTGGTGGACATTGCATCCGGCCAGTAAACAAAGATCGGAGGGTGAAAAAGTGCGAGTGGGAGATGATTTGATTCTTGTATCTGTTGCCACTGAGAGATATTTGCACACAACTAAAGAGAATGAAGTATCGATCGTCAATGCCTCGTTTCACGTGACACACTGGTCGGTCCAGCCATACGGAACCGGCATCTCGAGGATGAAATACGTCGGCTACGTCTTCGGGGGAGACGTTCTACGTTTCTTCCACGGAGGAGACGAATGCCTTACAATACCTAGCACTTGGACTCGGGATGGAGGACAGAATATTGTAGTATACGAAGGCGGATCGGTCATGTCACAAGCTCGTTCGCTATGGCGTTTGGAACTAGCTCGTACCAAATGGGCCGGAGGCTTTATCAACTGGTACCATCCAATGAGGATTCGGCACATCACTACGGGTCGATACTTGGGTGTTAACGACCAGAATGAACTCCATTTGGTCAGCAGAGAGGAAGCCACAACCGCTTCCTGCGCCTTTTGTCTTCGTCAAGAAAAAGATGATCAGAAACAAGTGCTTGAAGATAAAGATTTGGAAGTGATCGGAGCGCCAATTATTAAATACGGTGACTCAACAGTAATTGTGCAGCACTCTGAAACTGGCTTGTGGCTTTCATATAAGTCTTACGAAACAAAGAAGAAAGGCGTCGGTAAAGTAGAAGAGAAACAAGCCATACTACACGAAGAAGGTAAAATGGACGACGGCCTTGATTTCTCCAGGTCCCAAGAAGAAGAGTCGAGGACCGCCAGAGTCATCAGGAAGTGTTCTTCTTTATTCACTAAGTTCATCAATGGCCTTGAAACTCTTCAAGAAAACAGAAGACACTCGATGTTCTTCGCGTCCGTGAACTTAGGAGAGATGGTGATGTGCTTGGAGGATCTTATAAACTATTTCGCACAGCCCGATGAGGACATGGAACACGAAGAAAAGCAAAACAAGTTCCGTGCTCTTCGAAACCGCCAAGATCTTTTCCAAGAGGAGGGTATCCTGAATTTAATCCTGGAAGCAATCGACAAGATCAACGTGATCACGTCCCAGGGATTCCTTGCTGGGTTCCTAGCTGGAGACGAATCGGGACAGAGCTGGGAAATGATCTCTGGATACCTTTATCAGCTTTTAGCTGCTATTATAAAAGGAAACCACACGAACTGCGCACAGTTCGCAAACTCCAACCGTCTGAACTGGTTGTTCTCTAGACTCGGCTCACAGGCATCTGGCGAAGGAACTGGGATGCTGGACGTGTTGCATTGCGTGCTCATAGACTCGCCTGAAGCCTTGAATATGATGAGGGATGAGCACATAAAAGTAATCATAAGCTTATTAGAAAAGCACGGGCGTGACCCGAAAGTTCTCGACGTGCTGTGCTCGCTGTGCGTCGGCAACGGAGTGGCCGTGCGCTCGTCCCAGAACAACATCTGCGACTACTTGCTGCCAGGGAAGAACTTGCTACTGCAGACTCAGCTAGTAGACCACGTTTCCAGTGTGCGACCGAACATTTTCGTGGGCCGCGTCGAAGGATCAGCAGTGTACCGTAAATGGTACTTCGAAGTGACGATGGACCACATCGAGAAAACCACGCACATGATGCCCCATCTGCGCATAGGATGGGCTAACACTTCTGGATACGTACCGTATCCTGGTGGTGGCGAAAAGTGGGGCGGTAACGGTGTCGGTGATGATTTGTATTCCTTTGGTTTCGATGGAGCATATTTGTGGTCTGGTGGCAGGAAAACCCCGGTTAATCGCACTCACCACGAAGAACCTTATATCAGAAAAGGCGATGTGATTGGGTGCGCTCTGGACTTGAACGTTCCTTTAATCAACTTCATGTTCAACGGCGTCAGGGTGACCGGATCTTTCACCAACTTCAACTTGGAAGGCATGTTCTTCCCCGCCATCAGCTGCTCAAGTAAATTAAGTTGTCGGTTTCTATTCGGCGGCGAACATGGTCGTCTGCGTTACGCGGCTCCCGAGGGATACTCTCCGCTGGTTGAGTCGCTGCTTCCGCAACAGATCCTCAGTCTCGAACCCTGCTTCTATTTTGGCAACCTCAACAAGAGGGCTCTAGCTGGACCATCTTTAGTTCAAGATGATACCGCATTTGTGCCTACACCGGTTGATACGATGACGATATCTCTGCCAACATACGTGGAACAAATCAGGGATAAGCTAGCCGAAAATATTCACGAAATGTGGGCTATGAATAAGATTGAAGCCGGCTGGATGTACGGTGATCAGCGCGACGACATACATAAGATCCATCCTTGCTTGGTGCCCTTCGAGCGACTACCACCTGCTGAGAAGAGATACGATATCCAACTAGCTGTGCAAACATTGAAAACAATTCTTGCGCTTGGCTACTACATTACTTTGGATAAGCCACCAGCACGTATCCGCAACGTCCGACTTCCAAACGAACCATTTTTACAGTCAAACGGCTATAAACCAGCACCTTTAGACCTTGGTGCTGTTACTCTGACACCCAAAATGGATGAACTAGTGGACCAATTAGCTGAGAATACTCACAATCTTTGGGCCAGGGAAAGAATACAACAAGGTTGGACTTACGGTCTCAATGAGGATCCGGAGATGCATCGCTCCCCTCACTTAGTGCCGTATCCTAAAGTTGATGATGCCATAAAAAAAGCCAACCGAGACACCGCGTCTGAAACTGTCCGAACTTTATTGGTTTACGGATATAATCTGGATCCGCCCACTGGAGAACAGCATGAAGCTCTACTAGCGGAGGCTTCTAAGCAGAAACAAGCTGATTTCAGAACCTACAGGGCGGAAAAGAACTACGCCGTTAGTTCTGGGAAATGGTATTTCGAATTTGAAATATTAACGGCTGGGCCAATGAGGGTTGGTTGGGCTCATGCTGACATGGCTCCGGGCATGATGTTGGGACAAGACGAGAATTCTTGGGCGTTCGACGGATACAACGAGGAAAAGGTATACTCCAGTAGCACAGAAGCCTTCGGCAAGCAATGGGCAGTCGGTGATGTGGTTGGCGTGTTCCTTGATCTCATCGATAAGACGATAAGTTTCTCTCTTAACGGAGAGCTTCTGATGGATGCCCTTGGCGGGGAGACGACATTCGCAGATGTCCAAGGCGATAATTTCGTGCCGGCTTGCACACTTGGGGTCGGGCAGAAGGCCAGGTTGACATACGGACAAGACGTGAACACTCTAAAATACTTCACGACCTGCGGTCTTCAAGAGGGATACGAACCTTTCTGTGTCAACATGAAAAGAGATGTCACTCATTGGTACACAAAAGACCAGCCCATCTATGAAAACACAGATGAAATGGCCGACACAAGAATCGATGTAACCAGGATACCAGCTGGATCAGAGACTCCACCGTGTCTGAAAATATCTCACAACACATTCGAAACGATGGAAAAAGCCAACTGGGAGTTTCTGCGTTTGTCTCTACCGGTCATTTGCCATTCGCAGTTTATAGATGAATCAGAGAAAGCACGACGCTGGGTAGAGATTAAGGAACGTCAGCAGATCCTCATGAAAGAGGCCACCGAAGCTCAGATACCAGCTCACATCGACCAAATCATGAGGAGTGGATTTACTATGAATGACATAAAAGGTCTGCACTACGAAGACAATCAAGAAGAGATCCAGAGCTCCAAAGTGAAACGTCAGCCGTCCAGACCACCACGTAAGGGTTCAGTCACACGCGGTGTCACGATACAGAATTACAATACACCATCAGGACAACAAGTAAATGGAATTCATCGGTCCACCAGTGAAGCAGAAATGGCGAAATATGAATTAGGCGCTCAAACTTTAGCGCCAGATGAGAAGAAAGATAAAAGAGGACGTTCTCCTTTCAAATTTTTCAAGAGCAAACGTGCCGAGAGCAGTGATCGCGCCAAAATCCGCAAGTCCAAAACTCCAGATCCCTTCAGTGACACCGAACTGTCTCCTGACAGGGGGACGAAGAGACCCAACCCTCAGATCAAGGTGTCTCAGCCGAACCAAAGGTATAATAATGGCACGCAGCCCCGAGCAAGCAGACCCAACTTGTATGGAAGTCAAAGCGGTCTTAACATGGCGACTCCAACTCAGGAGAGAAAGCAGTTAATGACAACCACGAATCTGTCGGCCGCTGCGACGGAGACCGTCGGCAACGAGATATTCGACTCCGAGTGCTTAAAGCTCATTAATGAATACTTCTACGGGGTCAGAATATTCCCTGGCCAAGACCCAACTCACGTGTACATTGGGTGGGTGACCACTCAGTACCATCTGCACTCGAAAGACTTCAACCAAAACAAGGTGATGAAGTCATCAGTCATCATCACCGACGACTACGACCGGGTCATTGAAAGCGTAAACCGTCAGTCCTGCTACATGGTGCGAGCTGATGAGCTTTACAACGAAGTGATGGCGGAAGCTACGGCCAAGGGCGCGTCCCAAGGAATGTTTATTGGATGTTCAGTGGACACTTCCACCGGGACTGTAGCGTTCACATGCGAGGGAAAAAGCACTAGCATTAAATTCAAGATGGAGCCAGAGACCAAATTATTCCCGGCGATCTTCGTCGAAGCGACATCGAAAGAGATCCTCCAGATAGAGCTGGGCAGGTCTCCGACAAGTCTACCGCTAAGTGCCGCGGTGCTACCAACGAGCGACAAGCACGTCACGCCGCAGTTCCCGCCCAGGCTGAAAGTGCAGTGTCTCAAGCCGCATCAGTGGGCTAGAGTACCAAATTCATCGTTGCAAGTGCACGCTCTAAAGCTGTCTGACATACGAGGCTGGTCGATGCTGTGCGAAGACGCAGTTTCTATGCTCGCATTGCACATACCAGAGGAAGACCGGTGCATCGACATATTGGAGCTTATCGAAATGGATAAGCTGTTGAGCTTCCACTCGCACACCCTCACGTTATATGCAGCTTTATGCTACCAAAGCAACTACAGGGCTGCCCACGCTTTATGCCAGCATGTAGATCAAAAGCAATTGTTATACGCCATCAAGTCCCAGTACATGTCCGGGCCACTGCGCCAGGGTTTCTACGATCTACTCATTGCTCTACATTTAGAATCGCACGCAACCACGATGGAAACCTGCAAGAATGAATTTGTGATACCCCTGGGGCCGGAGCTGAAGGTTCTGTACGACGAGCCCGACATGGGGCACAGCCTCCGCTCGCTGCAGACGGAGAGCGTCAGACCGCAGTTGGAAATGACCGATATCACGGAAAAAAGTATAATGGACATAAGTAATCTGTACTCTCCGAAGTTCCCTCTGGAAGTTGTCCGTGAATTCGTGATGCAGGCACTCGCGGAGGCCGTGGAAACTAACCAGGTCCACAACAGAGATCCGGTCGGTGGAAGCAACGAGAATCTCTTCCTGCCGCTAATTAAGCTCGTGGACCGTCTACTCCTGGTCGGAAAAATGCGCGACGAAGACGTTGAGAAACTTCTCATCATGATCAACCCCGAGACCTGGGATCCAACGTTCAATAAAGAAGGCAAAGACGAACACCGAAAAGGACTTCTTCACATGAAAATGGCTGAAGGCGCTAAACTGCAAATGTGTTATTTGCTCCAACATCTGAACGACATGCAGCTACGTCACAGGGTTGAATCTATAGTGGCTTTTGCACATGACTTTGTCGGGGACCTGCAGTCCGACCAGTTGAGACGCTACACTGAGATCAAGCAGTCAGATTTACCGAGTGCGGTTGCAGCCAAGAAGACCAGAGAATTCCGTTGTCCTCCTAGGGAACAGATGAACGCAATCCTGAGTTTCAAACATCTTGAAGATATCGATAAGGAGAACTGTCCTTGTGGCGAAGAACTCATCGCTAGGATGAACGGCTTCCACGAAAGTCTCATGGTCCACGTATCTCTAAACGCCCTGCAAGAACCTGATCCTGAGGAGCCCACTGAACCAGAAATAAAGCCGGGGGCCATTAATAAATTATATAGCCTTATAAATACCGTCAAGGAACTAGAAGAGGAACCCAAGACATTAGAGGAACCAGCCAAGAAGACTCCGGAGGAACGTTTCCGGAAAGTACTCATACAGACGATCGTGAATTGGGCGGAGGAATCGCAGATTGAGACTCCCAAGTTAGTCAGGGAGATGTTTAGCCTACTGGTTCGCCAGTATGACGCCGTAGGAGAACTGATCCGAGCTCTCGAAAAGACTTACGTCATCAATGCGAAGACCAAGCAGGACGTGGCCGAGATGTGGGTGGGACTCAGTCAGATCAGAGCCCTGCTCCCGGTGCAAATGAGTCAAGAAGAGGAGGAACTCATGAGGAAAAGGCTTTGGAAACTGGTCAACAACCACACTTTCTTCCAGCATCCAGATCTGATAAGAGTATTGAGGGTACACGAAAACGTGATGGCTGTAATGATGAATACTTTGGGAAGGAGAGCCCAAGCGCAGTCTGATGCTGCACCGAACCAGCCGCTTGCCGAGGATACCAAGGAGAAGGACACTTCGCATGAAATGGTTGTGGCCTGTTGTCGATTCCTCTGCTACTTCTGTCGCACCGGTCGTCAGAATCAAAAAGCCATGTTCGATCACTTTGACTTCTTGCTGGAGAACTCCAATATTCTACTGTCGAGACCTTCGTTGCGAGGTTCGACTCCTTTGGATGTTGCCTACTCCAGTTTGATGGAGAACACGGAATTGGCTTTAGCTTTGAGGGAGCACTATCTTGAGAAAATAGCGGTATACCTTTCTCGTTGTGGACTACAGAGCAACTCTGAGTTAGTGGAAAAGGGGTATCCAGACCTTGGATGGGATCCGGTAGAAGGCGAGAGATATTTGGACTTCCTGAGATTTTGTGTTTGGGTAAATGGTGAAAGCGTAGAAGAAAACGCCAACTTAGTGATCCGCTTGCTAATCAGGCGGCCGGAGTGTCTTGGCCCGGCCCTTCGGGGAGAAGGCGAAGGTCTACTGAAGGCTATTGTGGACGCGAACAAAATGAGCGAAAGGATCGCAGATAGAAGAAAACTAAGAGAGATAGAACAGGAAGGGGATATTAATTTCAGCCATCCACTCCCGGAGTCGGACGACGACGAGGATTACATCGATACTGGAGCGGCCATACTTAACTTCTACTGCACCCTGGTCGATCTGCTGGGGCGCTGTGCTCCGGATGCGGCAGTAATTGCTCTTGGTAAGAACGAGTCGCTTCGGGCCCGTGCCATTCTGCGCTCCTTGGTACCGTTGGAAGATCTTCAAGGAGTGCTCAGTCTTCGGTTCACCCTCAACAATCCCGCTGCCGGTGAAGAGAGACCCAAGTCCGACATGCCATCCGGACTAATCCCGGGACACAAGCAGAGCGTCGGACTTTTCTTAGAACGAGTCTATGGCATCGAGACCCAAGAGCTTTTCTACAAGCTTCTCGAAGAAGCTTTCTTGCCAGACTTGAGAGCTGCCACTATGCTAGACAGGAACGACGGCTGCGAATCGGACATGGCGCTTTCAATGAACCGGTACATCGGGAATTCGATCCTCCCGCTGCTGATCAAACACGCCAACTTCTACAACGAAGCCGAGAACTACGCCAGTCTGCTGGACGCCACGCTGCACACCGTCTACAGATTATCCAAAAACCGCATGCTGACAAAAGGCCAACGTGAGGCTGTCTCCGACTTCTTGGTGGCTCTGACGTCAGCGATGCAGCCCTCCATGCTGTTGAAGCTGCTGAGGAAGCTCACGGTTGACGTCTCGAGACTGTCCGAGTACACCACCGTGGCTCTCAGACTCCTGACGCTGCACTACGAACGTTGCGCCAAGTACTACGGCAGCACTGGTGGGCAGGGAATATACGGAGCATCTTCTGATGAGGAGAAGCGTCTCACCATGATGCTCTTCTCTAACATCTTCGATTCCCTCAGCAAGATGGACTACGAACCCGAGCTGTTTGGGAAAGCTTTACCCTGTCTCATCGCTATAGGCTGTGCTCTACCACCAGACTACTCTCTATCGAAGAATTACGACGATGAATTCTATGGAAAGGAGCAAGCATCAGTAGGCTCCGACAACCCGCAGTACGATCCCCAGCCGATCAACACCTCATCAGTCGCCCTGAACAACGACTTGAACACGATCGTGCAGAAGTTCTCCGAGCATTACCACGACGCCTGGGCCTCCAGGAAAATTGAGAACGGCTGGGTGTACGGCGAGTCTTGGTCAGACAGCCAGAAGACGCATCCACGACTGAAGCCTTACAACATGCTCAATGACTATGAGAAAGAGCGGTACAAAGAACCGGTCCGCGAGTCGCTGAAGGCACTTCTGGCTCTGGGCTGGTCCGTGGAACATTCCGACGTAGACCTGCCCGCCAACAGTCGCGGCTCTGTGCGAAGACAGTCCAAGTCCGGACTGACCGACTCAGCAACCCCTTTCAACTACAACCCTCACCCCGTGGACATGACGAATCTGACGCTGTCCAGAGAAATGCAGAACATGGCCGAGAGACTGGCTGACAACGCACATGACATCTGGGCTAAGAAGAAAAAAGAAGAACTAGTTACTAATGGAGGGGGAATCCATCCTCAACTAGTTCCTTACGACCTCCTAACTGATAAAGAAAAGAAGAAAGACCGAGAACGCTCACAGGAGTTCCTCAAGTACCTCCAATATCAGGGCTATAAGCTGCACAGGCCAAGCAAAATCCCGCAGAGCGACACGGAACAGACCTCTGCCGGAGTGGCAATAGAGCTGAGATTCGCTTACTCGTTGCTAGAAAAGTTGATCCAGTACATAGACAGGGCTACAATCAACATGAAACTCCTGAAGCCATCGACGACGTTCAGTCGTAGAAGCAGCTTCAAGACAAGCACCAGAGATATAAAGTTCTTCTCGAAAGTGGTTCTCCCTCTAATGGAGAAGTACTTCTCGACCCATCGCAACTACTTCATAGCGGTTGCAACTGCCACCAATAATGTGGGAGCCGCGAGCCTTAAAGAGAAAGAAATGGTCGCCGCTTTGTTCTGTAAGCTGGCCAGCCTGCTTCGATCTAGACTAGCAGCTTTTGGCCCCGACGTCCGCATCACCGTTCGCTGTCTCCAAGTCCTCGTCAAGGGCATTGACGCTAAATCTCTGGTCAAAAACTGCCCGGAATTCATTCGGACTTCAATGCTGACCTTTTTCAACAACATGGCCGACGATGTTGGGCACACCATCATTAATTTGCAGGATGGCAAGTACGCGCACCTCCGCGGTACCCATTTGAAAACGTCTACATCTCTTGGATACATTAACGGAGTACAATTACCTGTACTGACTGCTATGTTCGATCACCTAGCGAACTGCGAATACGGATCAGATCTGCTTTTGGACGAAATTCAAGTTGCGTCATACAAGATGCTCGGGTCACTCTACACGTTGGGCACTGATGTAACGCTGACCCACGACCGCAAGTACTTGAAGACGGAGATTGAAAGACACAAGCCTGCTTTGGGTTCGTGTCTGGGCGCTTTCAGTTCAACCTTCCCCGTGGCGTATCTGGAGCCGCATCTCAACAAACACAACCAGTTTTCTCTGCTTAACAGGATCGCTGAGCATTCGCTCGAGGCCCAAGATATAATGGCGAAAATGGAGCAATCTATGCCGACTCTAGAGACGATCTTGAACGAAGTGGACCAATTCGTTGAATCAGACAAGACGTATAATGAAGCGCCGCATATTATCGACGTGGTCCTGCCATTACTGTGCTCTTACCTGCCGTTCTGGTGGGCGCAGGGACCCGACAACGTCACCCCTACTGGAGGGAACCACGTTACCATGGTAACGGCGGAGCACATGAACCAACTCCTCAAGAACGTGCTCAAACTAATCAAAAAGAACATCGGCAATGAAAGCGCCCCGTGGATGACGAGGATCGCCACTTACACCCAGCAGATCATCATCAACAGCTCCGAAGAGTTGCTCAGGGATTCCTTCCTGCCTCTCGCCGAGAGAGTCAGGAAACGAACAGACAATATGTTCCACAAGGAAGAGAGCTTGAGGGGCTTCATAAAGTCCTCGACCGACGACACTTCGCAAGTAGAGTCTCAGATACAAGAAGACTGGCAGTTACTGGTGCGAGACATCTACTCCTTCTATCCGCTTCTCATCAAGTACGTGGACTTGCAGAGGAATCACTGGTTGAGGAATAATGTTCCAGAGGCCGAGGAGCTATACAACCACGTGGCCGAAATCTTCAACATCTGGTCGAAGAGTCAATACTTCTTGAAGGAAGAACAAAACTTTATATCGGCAAACGAAATCGATAATATGGTCTTGATAATGCCAACAGCCACACGCCGAGTCACGGCCGTGGTCGACGGCACGTCGCAAAGTGGTGGGAAGGTGCGAAAAAAGAAGAAGCATCGCGACAAGAAACGTGACAAGGACAAGGAAGTTCAGGCGTCTCTGATGGTCGCCTGTCTGAAGCGGTTGCTGCCGGTAGGACTGAATCTCTTCGCTGGAAGGGAACAGGAACTGGTACAGCACTGCAAGGATAGGTTCCTGAAGAAAATGTCCGAGCATGACGTTGCCGAATTCGCGAAGACCCAGCTGACGCTACCGGATAAAATAGACCCGGCCGACGAGATGTCGTGGCAACACTACCTCTACAGCAAATTAGGGTCGAAAAGCAAGACTGCCATCACTCTGGAGAATGCCGAGAACAAAGCGAAAATCATCGACGACACCGTTGAGAGGATCGTCGCGATGAGCAAAGTGCTCTTCGGATTGCATATGATCGACCATCCGCAACAAATGAGCAAGAACGTTTATCGATCAGTGGTCTCCATACAAAGGAAGAGGGCCGTGATAGCGTGTTTCAGACAGACGTCCCTACATTCGCTGCCGAGACATCGTGCTTGTAACATCTTCGCGAGGACTTATTACGAGCTGTGGCTGGAGGAAGAAAACATCGGACAAGAAGTCATGATTGAGGATTTGACGCAATCGTTCGAGGATGCTGAACTCAAGAAGAGTGATGTGGTAGAGGAGGATGGGAAGCCAGATCCACTGACCCAGTTGGTCACGACCTTCTGCAGGGGAGCTATGACGGAACGGTCCGGAGCCTTGCAGGAAGATCCACTGTACATGTCGTACGCGCATATCATTGCGAAGTCATGCGGAGAAGAGGAGGAGGAAGGAGGCGGAGAGGAGGAGGAGGGAGGAGGAGAAGCGGAAGGGGAAGAGGAAGGTCGGGCCAGTATACACGAGCAAGAAATGGAGAAGCAGAAGCTACTCTTCCACCAGGCGAGGCTCGCCAACAGGGGGGTCGCGGAGATGGTGCTCCTACACATATCTGCGTCCAAGGGGGTGCCCAGTGAAATGGTCATGAAAACGCTACAGCTCGGCATATCCATACTGCGCGGCGGGAACATTGACATACAGATGGGAATGCTGAACCATTTGAAAGACAAGAAAGACGTGGGCTTCTTCACGTCCATAGCTGGCCTCATGAACTCTTGCTCTGTGTTGGATCTGGATGCCTTCGAAAGGAACACTAAGGCTGAAGGTCTCGGGGTGGGGCTGGAGGGAGCCGCCGGCGAAAAGAACATGCACGACGCAGAGTTCACGTGCGCTCTCTTCAGATTCATCCAGCTGACTTGCGAAGGGCACAACTTGGATTGGCAGAACTACCTCCGGACCCAGGCCGGGAACACGACTACCGTGAACGTCGTGATCTGCACTGTGGACTACCTGCTACGTCTCCAGGAGTCCATCATGGACTTCTACTGGCACTATTCGAGCAAGGAACTGATCGACCCGGCCGGTAAAGCGAACTTCTTTAAGGCGATCGGCGTCGCTTCGCAAGTCTTCAACACGCTCACTGAAGTCATCCAGGGACCTTGTACTCAGAACCAGCAGGCCTTAGCCCACTCCAGACTGTGGGACGCTGTGGGAGGGTTTCTCTTCCTGTTCTCGCACATGCAGGACAAGCTGTCGAAGCACTCGTCACAAGTGGACCTGCTGAAGGAGCTACTCAATTTGCAGAAGGACATGATCACCATGATGCTTTCGATGCTCGAAGGAAACGTCGTCAATGGTACCATCGGTAAGCAGATGGTGGACACATTAGTAGAGTCGGCTTCAAACGTGGAACTGATCCTCAAGTACTTCGACATGTTCCTGAAGCTGAAGGACTTGACCTCTAGCGCCAGTTTCCAAGAAATCGACGCCAATAACGACGGCTGGGTCCTGCCGAAAGACTTCAAAGAGAAGATGGAACAGCAAAAGAGTTACACGCCCGAAGAGATAGAGTTCTTACTCGCTTGCTGCGAGACGAACCACGACGGTAAACTTGACTACGTGGGCTTCTGCGACCGTTTCCACGAACCGGCCAAAGAAATCGGCTTCAACCTTGCCGTACTGCTGACCAACCTCTCGGAGCACATGCCCAACGAACCAAGATTGGCCCGTTTCCTGGAAACAGCTGGCTCGGTGCTGAACTACTTCGAGCCATTCCTCGGCCGCATCGAGATCATGGGTGGATCGAAGCGCATCGAACGAGTCTACTTTGAGATCAAAGAATCTAATATTGAACAGTGGGAGAAGCCGCAGATCAAGGAATCAAAGCGCGCGTTTTTCTACAGCATCGTAACCGAAGGCGGCGACAAGGAGAAGCTGGAAGCGTTCGTGAACTTCTGCGAGGACGCCATCTTTGAGATGACCCACGCGTCGGGTCTGATGGCCGCTTCGGACGACACCGCCGGCGGACCTAAGAACAGGGAGGCCAGCTACATGTACATGGGAGACGACGATGATGATCGTGCCGGCAAGGATCCGTTCCGTCGCGGCATCCAATCAGTGAAAGACGGCATCTCCACGGCGTTCTCGTCTTTATCACCGTCGAACATAAAGGCGAAAATTGCAGATCTACAGCAAATGCCACCGGCAGAATTGGCCGTCGGCTTCTTCAAAATGTTCTTCTATATGTTCTATTACTTGGGCTATGGAGTGCTGGTCGTTGTCAGGTACATATTCGGAGTGCTCCTTGGACTAATGCGGGGCCCGCAGGTGGAGGAGCCACCACCAGAGCCAACTGAAGAGGAGAAAATCGGTCCGAGACATCTGCCAGCTTTACCGCCTGCTGATGACACTGGACAGATGCAAGTCTCGGCCTTCGGTTTGGACATAACTAAAGAAGACAACGGGCAGATCCAGGTGAAGCCGCACGAGTCTCCTACTACATCGACGCCGTCTTCAGGTGAAGAGGCTGACGCGTCTCTCGACGAGGGACTGGAACACTCCGAAGAGCAACGACCACCGTCGCTGATCGACTTATTAGGCGGGGAACAAGCAAAGAAACAAGCTCTAGAGCGCATTGAGGCTCAGGCCGCGCAACAGGCCGCCATGTCGGCGATCGAGGCCGAGAGCAAGAAGGCCGTCCAGGGTCCTGCTTCGTCGTCAGCTCTCTCCCAAGTGGATCTGTCGCAGTACACACGGCGAGCCGTTTCGTTTTTGGCCAGAAACTTCTACAACTTGAAATACGTGGCCCTCGTGCTGGCTTTTTGCATCAACTTCGTGCTTTTGTTTTATAAGGTTTCGACTCTTGATGGCGAAAAAGCCGAAGGTTCGGGCATCGGAGATATCATTGCGGGGTCTGGTTCTGGGCAAGGCTCTGGCAGTGGTGACGGAAGCGGCGAAGAAGACGACGCATTAGAAGTGGTACATATCGATGAAGACTTCTTCTATATGGAGCACGTCATCAAAGTGGCAGCGGTCCTGCATTCCATCGTGTCCCTGGCTATACTGATCGGGTATTATCATTTGAAGGTACCGCTTGCGATCTTCAAACGCGAGAAGGAAATAGCTCGTAAACTGGAGTTTGACGGCCTGTACATCGCCGAGCAACCCGAAGATGATGACTTCAAAAGTCATTGGGATAAACTCGTCATATCCGCTAAGTCCTTCCCTGTGAACTATTGGGACAAATTCGTGAAGAAGAAAGTACGAGCTAAGTACTCTGAGACCTACGACTTCGATTCAATATCGAATATGCTCGGGATGGAGAAGACTTCGTTCTCAGCTCAAGAAGACGAAGGCAGCAAGGGGTTGCTCCACTACATTATAAACATCGACTGGCGTTACCAAGTGTGGAAGGCCGGCGTCACGATAACGGACAACTCCTTCTTGTACTCGCTGTGGTATTTCGCTTTCTCGGTCATGGGAAATTTCAATAATTTCTTCTTCGCGGCCCATCTACTGGACGTCGCCGTCGGCTTCAAGACTCTAAGGACGATTCTTCAATCAGTAACACATAATGGGAAACAGCTCGTCTTAACAGTGATGTTGCTTACGATCATCGTGTACATATACACTGTGATCGCTTTCAATTTCTTCCGCAAGTTCTACGTCCAGGAGGAAGATGACGAGGTCAACCGGAACTGTCATGACATGCTGACGTGCTTCGTGTTCAACCTGTACAAGGGAGTGCGCGCCGGCGGTGGTATCGGGGACGAGCTGGAGCCGCCCGACGGAGACGACTCCGAGGTCTACAGGATCATATTCGACATATCCTTCTTCTTCTTCATCATCGTCATTCTGCTGGCCATTTTGCAGGGTTTGATCATCGATGCCTTCGGTGAGCTCCGTGACCAGCTCGAGTCCGTGAAGGAGGACATGGAGTCCAACTGCTTTATATGCGGCATCAATAAAGACTACTTTGATAAGGTTCCACATGGGTTCGATACGCACGTGCAGCGAGAACATAATTTAGCGAATTACATGTTCTTCCTTATGCATCTCATCAATAAACCAGACACGGAATACACCGGTCAAGAAACATACGTATGGAACATGTACACGCAGCGTTGCTGGGACTTCTTCCCGGTCGGTGACTGCTTCAGGAAGCAATACGAAGATCTTATGGGAGAATAA

Protein sequence (5110 aa)

MAEAEGGASEQDDVSFLRTEDMVCLSCTATGERVCLAAEGFGNRHCFLENIADKNIPPDLSQCVFVIEQALSVRALQELVTAAGSETGKGTGSGHRTLLYGNAILLRHLNSDMYLACLSTSSSQDKLAFDVGLQEHSQGEACWWTLHPASKQRSEGEKVRVGDDLILVSVATERYLHTTKENEVSIVNASFHVTHWSVQPYGTGISRMKYVGYVFGGDVLRFFHGGDECLTIPSTWTRDGGQNIVVYEGGSVMSQARSLWRLELARTKWAGGFINWYHPMRIRHITTGRYLGVNDQNELHLVSREEATTASCAFCLRQEKDDQKQVLEDKDLEVIGAPIIKYGDSTVIVQHSETGLWLSYKSYETKKKGVGKVEEKQAILHEEGKMDDGLDFSRSQEEESRTARVIRKCSSLFTKFINGLETLQENRRHSMFFASVNLGEMVMCLEDLINYFAQPDEDMEHEEKQNKFRALRNRQDLFQEEGILNLILEAIDKINVITSQGFLAGFLAGDESGQSWEMISGYLYQLLAAIIKGNHTNCAQFANSNRLNWLFSRLGSQASGEGTGMLDVLHCVLIDSPEALNMMRDEHIKVIISLLEKHGRDPKVLDVLCSLCVGNGVAVRSSQNNICDYLLPGKNLLLQTQLVDHVSSVRPNIFVGRVEGSAVYRKWYFEVTMDHIEKTTHMMPHLRIGWANTSGYVPYPGGGEKWGGNGVGDDLYSFGFDGAYLWSGGRKTPVNRTHHEEPYIRKGDVIGCALDLNVPLINFMFNGVRVTGSFTNFNLEGMFFPAISCSSKLSCRFLFGGEHGRLRYAAPEGYSPLVESLLPQQILSLEPCFYFGNLNKRALAGPSLVQDDTAFVPTPVDTMTISLPTYVEQIRDKLAENIHEMWAMNKIEAGWMYGDQRDDIHKIHPCLVPFERLPPAEKRYDIQLAVQTLKTILALGYYITLDKPPARIRNVRLPNEPFLQSNGYKPAPLDLGAVTLTPKMDELVDQLAENTHNLWARERIQQGWTYGLNEDPEMHRSPHLVPYPKVDDAIKKANRDTASETVRTLLVYGYNLDPPTGEQHEALLAEASKQKQADFRTYRAEKNYAVSSGKWYFEFEILTAGPMRVGWAHADMAPGMMLGQDENSWAFDGYNEEKVYSSSTEAFGKQWAVGDVVGVFLDLIDKTISFSLNGELLMDALGGETTFADVQGDNFVPACTLGVGQKARLTYGQDVNTLKYFTTCGLQEGYEPFCVNMKRDVTHWYTKDQPIYENTDEMADTRIDVTRIPAGSETPPCLKISHNTFETMEKANWEFLRLSLPVICHSQFIDESEKARRWVEIKERQQILMKEATEAQIPAHIDQIMRSGFTMNDIKGLHYEDNQEEIQSSKVKRQPSRPPRKGSVTRGVTIQNYNTPSGQQVNGIHRSTSEAEMAKYELGAQTLAPDEKKDKRGRSPFKFFKSKRAESSDRAKIRKSKTPDPFSDTELSPDRGTKRPNPQIKVSQPNQRYNNGTQPRASRPNLYGSQSGLNMATPTQERKQLMTTTNLSAAATETVGNEIFDSECLKLINEYFYGVRIFPGQDPTHVYIGWVTTQYHLHSKDFNQNKVMKSSVIITDDYDRVIESVNRQSCYMVRADELYNEVMAEATAKGASQGMFIGCSVDTSTGTVAFTCEGKSTSIKFKMEPETKLFPAIFVEATSKEILQIELGRSPTSLPLSAAVLPTSDKHVTPQFPPRLKVQCLKPHQWARVPNSSLQVHALKLSDIRGWSMLCEDAVSMLALHIPEEDRCIDILELIEMDKLLSFHSHTLTLYAALCYQSNYRAAHALCQHVDQKQLLYAIKSQYMSGPLRQGFYDLLIALHLESHATTMETCKNEFVIPLGPELKVLYDEPDMGHSLRSLQTESVRPQLEMTDITEKSIMDISNLYSPKFPLEVVREFVMQALAEAVETNQVHNRDPVGGSNENLFLPLIKLVDRLLLVGKMRDEDVEKLLIMINPETWDPTFNKEGKDEHRKGLLHMKMAEGAKLQMCYLLQHLNDMQLRHRVESIVAFAHDFVGDLQSDQLRRYTEIKQSDLPSAVAAKKTREFRCPPREQMNAILSFKHLEDIDKENCPCGEELIARMNGFHESLMVHVSLNALQEPDPEEPTEPEIKPGAINKLYSLINTVKELEEEPKTLEEPAKKTPEERFRKVLIQTIVNWAEESQIETPKLVREMFSLLVRQYDAVGELIRALEKTYVINAKTKQDVAEMWVGLSQIRALLPVQMSQEEEELMRKRLWKLVNNHTFFQHPDLIRVLRVHENVMAVMMNTLGRRAQAQSDAAPNQPLAEDTKEKDTSHEMVVACCRFLCYFCRTGRQNQKAMFDHFDFLLENSNILLSRPSLRGSTPLDVAYSSLMENTELALALREHYLEKIAVYLSRCGLQSNSELVEKGYPDLGWDPVEGERYLDFLRFCVWVNGESVEENANLVIRLLIRRPECLGPALRGEGEGLLKAIVDANKMSERIADRRKLREIEQEGDINFSHPLPESDDDEDYIDTGAAILNFYCTLVDLLGRCAPDAAVIALGKNESLRARAILRSLVPLEDLQGVLSLRFTLNNPAAGEERPKSDMPSGLIPGHKQSVGLFLERVYGIETQELFYKLLEEAFLPDLRAATMLDRNDGCESDMALSMNRYIGNSILPLLIKHANFYNEAENYASLLDATLHTVYRLSKNRMLTKGQREAVSDFLVALTSAMQPSMLLKLLRKLTVDVSRLSEYTTVALRLLTLHYERCAKYYGSTGGQGIYGASSDEEKRLTMMLFSNIFDSLSKMDYEPELFGKALPCLIAIGCALPPDYSLSKNYDDEFYGKEQASVGSDNPQYDPQPINTSSVALNNDLNTIVQKFSEHYHDAWASRKIENGWVYGESWSDSQKTHPRLKPYNMLNDYEKERYKEPVRESLKALLALGWSVEHSDVDLPANSRGSVRRQSKSGLTDSATPFNYNPHPVDMTNLTLSREMQNMAERLADNAHDIWAKKKKEELVTNGGGIHPQLVPYDLLTDKEKKKDRERSQEFLKYLQYQGYKLHRPSKIPQSDTEQTSAGVAIELRFAYSLLEKLIQYIDRATINMKLLKPSTTFSRRSSFKTSTRDIKFFSKVVLPLMEKYFSTHRNYFIAVATATNNVGAASLKEKEMVAALFCKLASLLRSRLAAFGPDVRITVRCLQVLVKGIDAKSLVKNCPEFIRTSMLTFFNNMADDVGHTIINLQDGKYAHLRGTHLKTSTSLGYINGVQLPVLTAMFDHLANCEYGSDLLLDEIQVASYKMLGSLYTLGTDVTLTHDRKYLKTEIERHKPALGSCLGAFSSTFPVAYLEPHLNKHNQFSLLNRIAEHSLEAQDIMAKMEQSMPTLETILNEVDQFVESDKTYNEAPHIIDVVLPLLCSYLPFWWAQGPDNVTPTGGNHVTMVTAEHMNQLLKNVLKLIKKNIGNESAPWMTRIATYTQQIIINSSEELLRDSFLPLAERVRKRTDNMFHKEESLRGFIKSSTDDTSQVESQIQEDWQLLVRDIYSFYPLLIKYVDLQRNHWLRNNVPEAEELYNHVAEIFNIWSKSQYFLKEEQNFISANEIDNMVLIMPTATRRVTAVVDGTSQSGGKVRKKKKHRDKKRDKDKEVQASLMVACLKRLLPVGLNLFAGREQELVQHCKDRFLKKMSEHDVAEFAKTQLTLPDKIDPADEMSWQHYLYSKLGSKSKTAITLENAENKAKIIDDTVERIVAMSKVLFGLHMIDHPQQMSKNVYRSVVSIQRKRAVIACFRQTSLHSLPRHRACNIFARTYYELWLEEENIGQEVMIEDLTQSFEDAELKKSDVVEEDGKPDPLTQLVTTFCRGAMTERSGALQEDPLYMSYAHIIAKSCGEEEEEGGGEEEEGGGEAEGEEEGRASIHEQEMEKQKLLFHQARLANRGVAEMVLLHISASKGVPSEMVMKTLQLGISILRGGNIDIQMGMLNHLKDKKDVGFFTSIAGLMNSCSVLDLDAFERNTKAEGLGVGLEGAAGEKNMHDAEFTCALFRFIQLTCEGHNLDWQNYLRTQAGNTTTVNVVICTVDYLLRLQESIMDFYWHYSSKELIDPAGKANFFKAIGVASQVFNTLTEVIQGPCTQNQQALAHSRLWDAVGGFLFLFSHMQDKLSKHSSQVDLLKELLNLQKDMITMMLSMLEGNVVNGTIGKQMVDTLVESASNVELILKYFDMFLKLKDLTSSASFQEIDANNDGWVLPKDFKEKMEQQKSYTPEEIEFLLACCETNHDGKLDYVGFCDRFHEPAKEIGFNLAVLLTNLSEHMPNEPRLARFLETAGSVLNYFEPFLGRIEIMGGSKRIERVYFEIKESNIEQWEKPQIKESKRAFFYSIVTEGGDKEKLEAFVNFCEDAIFEMTHASGLMAASDDTAGGPKNREASYMYMGDDDDDRAGKDPFRRGIQSVKDGISTAFSSLSPSNIKAKIADLQQMPPAELAVGFFKMFFYMFYYLGYGVLVVVRYIFGVLLGLMRGPQVEEPPPEPTEEEKIGPRHLPALPPADDTGQMQVSAFGLDITKEDNGQIQVKPHESPTTSTPSSGEEADASLDEGLEHSEEQRPPSLIDLLGGEQAKKQALERIEAQAAQQAAMSAIEAESKKAVQGPASSSALSQVDLSQYTRRAVSFLARNFYNLKYVALVLAFCINFVLLFYKVSTLDGEKAEGSGIGDIIAGSGSGQGSGSGDGSGEEDDALEVVHIDEDFFYMEHVIKVAAVLHSIVSLAILIGYYHLKVPLAIFKREKEIARKLEFDGLYIAEQPEDDDFKSHWDKLVISAKSFPVNYWDKFVKKKVRAKYSETYDFDSISNMLGMEKTSFSAQEDEGSKGLLHYIINIDWRYQVWKAGVTITDNSFLYSLWYFAFSVMGNFNNFFFAAHLLDVAVGFKTLRTILQSVTHNGKQLVLTVMLLTIIVYIYTVIAFNFFRKFYVQEEDDEVNRNCHDMLTCFVFNLYKGVRAGGGIGDELEPPDGDDSEVYRIIFDISFFFFIIVILLAILQGLIIDAFGELRDQLESVKEDMESNCFICGINKDYFDKVPHGFDTHVQREHNLANYMFFLMHLINKPDTEYTGQETYVWNMYTQRCWDFFPVGDCFRKQYEDLMGE

Domains and motifs

Database	ID	Description	Start	End	Evalue	InterPro ID
Gene3D	2.80.10.50	-	2	205	8.5e-83	-
PANTHER	PTHR12864	-	7	3345	0.0	-
PANTHER	PTHR12864:SF53	-	7	3345	0.0	-
Pfam	PF08709	Inositol 1,4,5-trisphosphate/ryanodine receptor	13	204	1.9e-62	IPR014821
ProSiteProfiles	PS50919	MIR domain profile.	95	149	10.756	IPR016093
SMART	SM00472	-	95	149	5.1e-02	IPR016093
SUPERFAMILY	SSF82109	-	99	183	3.7e-08	IPR036300
ProSiteProfiles	PS50919	MIR domain profile.	156	201	7.966	IPR016093
SMART	SM00472	-	156	201	3.2e-05	IPR016093
Gene3D	2.80.10.50	-	209	395	3.0e-58	-
ProSiteProfiles	PS50919	MIR domain profile.	211	265	7.33	IPR016093
SMART	SM00472	-	211	265	0.83	IPR016093
Pfam	PF02815	MIR domain	212	392	7.8e-46	IPR016093
SUPERFAMILY	SSF82109	-	216	393	2.5e-38	IPR036300
ProSiteProfiles	PS50919	MIR domain profile.	271	329	7.256	IPR016093
SMART	SM00472	-	271	362	9.3e-14	IPR016093
ProSiteProfiles	PS50919	MIR domain profile.	337	395	6.914	IPR016093
Gene3D	1.25.10.120	-	396	537	1.9e-59	-
Pfam	PF01365	RIH domain	443	642	1.5e-55	IPR000699
ProSiteProfiles	PS50188	B30.2/SPRY domain profile.	578	804	11.113	IPR001870
Gene3D	2.60.120.920	-	641	837	6.8e-60	-
CDD	cd12877	SPRY1_RyR	648	800	2.2e-80	IPR035761
SMART	SM00449	-	664	803	2.4e-27	IPR003877
Pfam	PF00622	SPRY domain	666	801	1.4e-20	IPR003877
SUPERFAMILY	SSF49899	-	666	802	4.3e-10	IPR013320
Gene3D	1.10.490.160	-	851	956	8.7e-31	-
Pfam	PF02026	RyR domain	855	944	1.1e-31	IPR003032
Pfam	PF02026	RyR domain	968	1057	1.8e-29	IPR003032
ProSiteProfiles	PS50188	B30.2/SPRY domain profile.	1033	1216	18.083	IPR001870
Gene3D	2.60.120.920	-	1075	1253	3.3e-56	-
CDD	cd12878	SPRY2_RyR	1080	1212	1.8e-71	IPR035764
SUPERFAMILY	SSF49899	-	1087	1215	1.1e-21	IPR013320
SMART	SM00449	-	1092	1215	3.1e-37	IPR003877
Pfam	PF00622	SPRY domain	1094	1213	4.0e-23	IPR003877
ProSiteProfiles	PS50188	B30.2/SPRY domain profile.	1471	1692	12.449	IPR001870
Gene3D	2.60.120.920	-	1474	1698	2.3e-16	-
CDD	cd12879	SPRY3_RyR	1537	1688	1.5e-71	IPR035762
SMART	SM00449	-	1548	1691	1.0e-24	IPR003877
Pfam	PF00622	SPRY domain	1551	1689	2.7e-20	IPR003877
Pfam	PF01365	RIH domain	2231	2460	2.9e-76	IPR000699
SUPERFAMILY	SSF100909	-	2254	2350	8.8e-06	IPR035910
Pfam	PF02026	RyR domain	2834	2923	5.3e-31	IPR003032
Pfam	PF02026	RyR domain	2954	3037	4.1e-26	IPR003032
PANTHER	PTHR12864	-	3410	5107	0.0	-
PANTHER	PTHR12864:SF53	-	3410	5107	0.0	-
Pfam	PF08454	RyR and IP3R Homology associated	4006	4121	2.6e-29	IPR013662
Gene3D	1.10.238.10	-	4202	4266	1.2e-06	-
SUPERFAMILY	SSF47473	-	4206	4265	1.6e-08	IPR011992
Pfam	PF06459	Ryanodine Receptor TM 4-6	4494	4748	8.6e-52	IPR009460
Pfam	PF00520	Ion transport protein	4875	5018	5.4e-15	IPR005821

InterPro assignment

InterPro ID	InterPro description
IPR000699	RIH domain
IPR001870	B30.2/SPRY domain
IPR003032	Ryanodine receptor Ryr
IPR003877	SPRY domain
IPR005821	Ion transport domain
IPR009460	Ryanodine Receptor TM 4-6
IPR011992	EF-hand domain pair
IPR013320	Concanavalin A-like lectin/glucanase domain superfamily
IPR013662	RyR/IP3R Homology associated domain
IPR014821	Inositol 1,4,5-trisphosphate/ryanodine receptor
IPR016093	MIR motif
IPR035761	Ryanodine receptor, SPRY domain 1
IPR035762	Ryanodine receptor, SPRY domain 3
IPR035764	Ryanodine receptor, SPRY domain 2
IPR035910	RyR/IP3 receptor binding core, RIH domain superfamily
IPR036300	Mir domain superfamily

Gene ontology (GO) assignment

GO category	GO ID	GO description
molecular function	GO:0005216	ion channel activity
molecular function	GO:0005219	ryanodine-sensitive calcium-release channel activity
molecular function	GO:0005262	calcium channel activity
molecular function	GO:0005515	protein binding
biological process	GO:0006811	ion transport
biological process	GO:0006874	cellular calcium ion homeostasis
cellular component	GO:0016020	membrane
cellular component	GO:0016021	integral component of membrane
biological process	GO:0055085	transmembrane transport
biological process	GO:0070588	calcium ion transmembrane transport

Species	Accession
Danaus plexippus	DPOGS211070
Heliconius melpomene	HMEL007396g1.t4
Manduca sexta	XP_030041218.1
Plutella xylostella	g203.t1 g203.t2
Spodoptera frugiperda (corn)	GSSPFG00011206001.1-PA
Spodoptera frugiperda (rice)	SFRICE013342-PA
Acyrthosiphon pisum	XP_016661950.1
Aedes aegypti	AAEL003837-PK AAEL003837-PN
Anopheles gambiae	AGAP010750-PA
Apis mellifera	XP_006569107.1
Drosophila melanogaster	FBpp0087720
Tribolium castaneum	XP_015833833.1
Homo sapiens	XP_006711873.1
Mus musculus	XP_011242598.1