AGTTCGCTTTGCGAGTCGTCGCCGCGCGGTTGGGAAAACTGGAGTCGGGTCTCGAGTGCTGAATCTGAAACTGAAACTGG CTGGGAAGCCGGCTAAAAGAGTTCCTAATTGAGGCCCGAAGTGACACGCGTCCGCGTCGTTTATCAATGGCAGCTGTGGG TCCGGAGCATGTGGGTCCGGAATGCTGGCAATATTTTCGGCAGCGCGTGCTTGCTTTTAGCCTAGTTAGTGGGAGGTCAC TATTGTGAGCGCACGTCCACAACCTGCAATCAGAAATAGCAGCGGGCAACAGACCAAGCAAACCCATCAACAATTCCATT TAATCCGGGTAACGTGTTGCATTTTTCGTTGTTTTTGTGGGCTGCTCATATTTTCAAATGTCGCTCAGCGCAATTTGAAT ATGCACAACTGGCCGAGTGTCCGAAATCCACAAACTGAATTCCAGTGGCACCGTGAGTGAGTGAGTGAGCGAGAGGGCGT CACGAGAGACAAGGAGGGAAAATGCTATTTCGTCGCAGTTGTACGTATAACGTGGAGCAATCAACGCGACATTATGCAAA GAGCGCAGTTACTCTGTGCAACCTGGGCGTGGGTGCCACATTCGGGGAGTCCGTACTGCATGACTTGCCGCGGGACAGCA CCGTAGTGACGAAGACCACCTGCGAGCTGCTGCGGGTGGAGCAGCAGGACTTTCGACTCATCTGGGAGAAAAACAAGGAG TTAATGAATGACATATTCACCAACTGCAAGTTGAAGAACGGTTTTGGACCGAGCGTACAAGCGACAGCCGCAGCCACATC GCCCACGAAACGACCCCTCAGCCCCGACCACCCAAACCCAGCGCTGCCCATCACCGAGACACCGAGTCCTGCTATGAACC GCATGGGCTGGGCCCTACGCACACTACTCGTCGCCGACAACTCGAGCTGTCTGAAGGATCGCAAGGTCTCCGGCAAGCTA ATCCGTAAGTGCGCCCCCGGCACCGAGCTCGTCGACTGGCTGGTCAACCTCTCGCCCATCGTCCACACCCGAGCCCAGGC GGCTGGCATGTGGCAAGCGCTCCTCGAGGAAGGAGTACTCGCACACGTCAACAAAGAGCAGCCCTTCAAGGACAAGTGCT TCCTCTACCGCTTTCGCATCGACGAGGAGGGCGGCACGGCGGCAGCGGGCGTGCCCCAGGCGGAGGACCTCGGAGCGGCC AACGAGCACATCCGCGAGGCGCTCAGCGCACTCTTCCAGCGCGGACCGGACGCCACACTGCGTATGATATTGCGCAAACC TTCTCACGAACGGACATCGGAGGAGCTGGAGCTGGTCTTCGAGGAACTGGTCCACATTGCCGCACTCTCCCACTTGTCGA CCAGCATAAAGCGGGAACTGTCGTCGATTTTCGTGTTCGAGGCTCATGCCCAGGCGGGAACAATATTATTCAATCAAGGC GACGAAGGACGCTCCTGGTACATCTTACTCAAGGGATCGGTAGACGTTGTGATACACGGCAAGGGAACTGTTGCCACTCT GAAGACTGGGGATGATTTCGGGAAACTGGCCTTGATAAACGACGCACCCAGAGCTGCTACCATCGTACTGAAGGAGAACA ATTGCCACTTGCTGCGCGTGGACAAGGAACACTTCAACCGGATACTGCGCGATGTGGAGGCCAATACTCTGAGATTGCAG GAGCACGGCAAGGATGTTTTAGTGCTCGAGCGCGTGGCTAAGCAACGTGGACAGCATTCGGCATTTAAATATACGGTGAT GTCGGGAACTCCGGCCAAGATGCTGGAGCACCTGCTGGAGACGCGACTGGGCCAGTCCGTGGGTGGAATGGATCCGTTCT TGGACGACTTCCTGCTCACACACATCGTTTTCATGCCCGTCGTTCAGCTGGTTGATGAATTGGCCAATTACTTCCACTGC GATGCCCATGAGGACGCCCAAACGCCCGAGGATCGGGAGTATATAATCAACTTTAAGAAGCGCGTGATCCAGTTCATGCA AAAGTGGGTCATGGCCGTCCGCCACGCGGCCTTCGAGGAGCCCAGCGTGTGCGACTTTATCGAGGACCTCGCCGCCGAGG TGGAGGCCGATCCCGACCTGAACGAGGAGACCAGCATAGTGCACAACGTGCTCACCCAGATGGCGCGCTACCAGGAGGAC CGCAACCAGAACGCCGGCCAGAAGTGGAAGCTCCCGCCCAACGGCCAGCCCATCTGCCTTTTCAGTGGCAATGCGACGCC TTCAAAGACGGTCATCCGACCAGATGATGATATCATCTTCCGCGTTTACTGCGCCGACCACACCTACTGTACCCTGCGAT TCCCCATGCACACCACGGCGGAGCTCATCAAAGCGTGTGCCGCCGACAAGCTGCAGCTAAATCGGGGTCCCGAAGATCTC GTCCTCGTCGAGGTCAAGTCAAACGGGGAGCGGTCCGTGTTCAAGGACAACGATGTCAGCATACCCACGGGTCTGTCGCT CAACGGCCGCCTTTTCGTCTCCGTCAAGGACCACCTGGATGCCTTGACCCAACTGCAGGAGCAGGAGTGCCCCACCGAGG GTGTGGACATCGACCTGGAGATACTGAGCACCAAGGAGCTGGCCTACCACATCACCCTGTTCGAGTGGGACCTCTTCTGG GCCGTCCATGAATACGAATTGCTCTACCACACCTTCGGGCGGCATCACTTTGGCAAGATCACTGCCAACTTGGATGTGTT CCTGCGCCGATTCAACGAGGTGCAGTACTGGATTGTCACCGAACTGGTGTCCACTCCCAGTCTGAGCAAACGCGTCGGTC TGGTCCGGAAGTTCATCAAGCTGGCCGCGTACTGCAAGGAGTACCAGAACCTAAACGCCTTCTTCGCTGTGGTAATGGGT CTGTCCAACATGGCGGTGTCCAGGCTGCAACAGACCTGGGAAAAGATTCCGTCGAAGTTCAGGAAGATCTTCCAGGAGTT CGAGGCCCTGATCGACCCCAGTCGCAACCACAGGGCGTACCGAGTGTTCGTGGGCAAGCTGCAGCCGCCGTTGATTCCCT TCATGCCGCTCCTGCTCAAGGACATGACCTTCGCCCATGAGGGCAACAAGACCAGCCTGGACGGCCTGGTGAACTTCGAG AAGATGCACATGATGGCCCAGACGATGCGCACCATCCGCTTTTGTCGCTCCAGGAGTCTGGGACTAGAGCCGCCGTCCCC GAAGAGCGAGGGCGAGGTGAGGTCGTACATCAGCAGCTTCCGCGTCATCGACAACCAGCGGGTACTCACCGCCATGTCCC AGAAGGTGGAGCCCACCAGGAAGCTCTAAGCCCTTGTGGAGCTGTCATCCAATTAGCCTGTAGCGCGTATTAAGTGTCTA ACCCTAGTGTGTGTTAATCAACCGCAATTAGCTGCACAGTTATGAGCTTAGCCGGGTTGTTGTTGCTTTCCGAAAGCCAA TTGGGCCACGGCCACCACAGCCCGGACCAACTTTCGTCCGCATCCGCATCCGCATTAGCCTAAGCTACAGTGTACTATAT CTACGACCCGACTAGGAACTATCTCAATCTTCTAATGAACTGAAACCCAAACGCATTTTAATGCAAACGAGAAACTTTTT GCTTTAGTACAAAACGATGGAAAAGATGGAAAACAATTTGAAATTCGGCAATTCCCCGCGGAAACCGAAACGAATAAAAA CTAAACTTGGACGTGTGTGATACTAAACATTTATAGGAGGCAACATCAAAACAAACACAACTATACAGCATAATTTCCCA CAAACCATTACTCTATAAATCCCGCGCGAGCTGGTAGAATAATTTGTAAAGTTGTACAACGTTTTCGAGAGCATGGAATC TATATTTTTATAAACCCTAAACTAAAACCAACTATTAAACAGTCTAGTTACAGCTAGTTATTAACAAGTAAGCTACGTAG CGGATAAGTTACTTTATTTATAGTTTTCAATCTTATTTTCATTTGGTATTCCGTCACCCCATCTCCTTTTACGGCAACTT GGAAATAAAATACGAAACCATTTATTAATATTTATTTACACAC
Unconventional splice site postulated (AT-AC); based on EST and exon-junction data.
Transcriptional initiation site supported by short-capped RNA data (FBrf0209722).
Transcript terminates at site supported by polyadenylated cDNA.
transcript_exception: rare splice-site pair, AT-AC intron