>Mlig455_048496 {Length: 2565} {Pfam: DDE superfamily endonuclease [PF13358.8, score=32.1]; Homeodomain-like domain [PF13565.8, score=27.3]; Winged helix-turn helix [PF13551.8, score=24.8]; HTH domain in Mos1 transposase [PF17906.3, score=21.7]; Transposase (partial DDE domain) [PF01359.20, score=20.3]} {Human: ENSG00000170364, SETMAR, SET domain and mariner transposase fusion gene, [Score=131, Expect=2e-33]} {Smed: dd_Smed_v6_52102_0_1, dd_Smed_v6_52102_0_1, [Score=60.8, Expect=1e-11]} {RNA1509_18055} {RNA1310_20178} {RNA815_58634}
AAAAATGGAGCCAGTGCAACCAGACCAGTGGCGATTCTACGTTTTCATGCGCTCACGACTCGGAGAAAGCGCGGTCAAAA
TCCATGCAGACCTGGTCCAGGTAGTCGGGGACCAAGCCCCTTCCTACCGCACGGTCGCCAGGTGGATAGAGTCCATCAAC
GCCAGACGGGCCTCCTTGAACGACGACCCCCGGTCTGGACGACCCAGCACAGCTGTGACCGAAGCCAACATCGCTGCTGT
CAGGGCTCTGGTGGACGAGGATCCAAACATTACCGTCGCTGTGATTAGCGAGACTGTCGGTATTTCCGATGGCAGTGCGC
ACACCATCCTGCACAGCCACCTGGGCCTCCGCAAGGTCACCGCCCGCTGGGTGCCCCACCTCCTGACAGAAGAGCAGAAG
AGGAAGAGGGTGCGGTGCAGCCAGGAATTCCTGCGCAGCTTCGGTCCAGGAGGCTGCCAGAGGCTTTCCGACGTCGTTAC
AGGTGATGAGAAATGGTTTTTTTACTTTCAAGTGCCCCAGAAGATGAAGAACAAGGCCTGGGTGGGCTCTGGAGACGCGA
GGCCGACTGTCCTGCGGTCCAGCTTTCGGTCCCGGAAGGAGATGTTCATCATCTTCATCAGCACATCTGGGCCCGTGGCC
GTCATCATGGTGCCTAATGGACAGAATGTGAACGCCAGCTTCTACTCCGGTACGGTTCTGCCACAAGTCATGGCGTCACT
TCACGCAACTCAGCCCTCACGGCTTCAAGCTGGGCGAGTTCACCTGCACCATGACAATGCGTCCAGTCACACAGCGGCCC
TGACGACCAACTTTCTGGCGGCCAACAACATCAAGACCATCCGCCACCCACCCTACAGTCCTGACTTGGCTCCCTGCGAC
TTCTGGGTGATCGCCAAGCTGACTGAACGGCTGGCAGGACGGAATTTTCACCGATGCCAGGACCTGGCTAAGTGCATCAA
TTCAGAGCTGAAGGCCATACCTGCTTCTGAGTACCATGGCGCATTCGAAGCATGGATTCGGCGGCACCAAAAGTGCATTG
AGAGAGGGGGAGACTACATTGAAGGATTGTAACATGTTCAGTTGTTTTTTGCAGTTACTGTTTTTTCATAGTTGACCAGT
TGCCAAAACTTTTTTGGCTAAAAAAACTAAAACTACTTTAGATTTACTCGAAAACTAAAACTATAGCAAACTACCGAAAC
CAAAAACTACTACGCACTGGGTTTTTTTGTGCGAATGGGTGCGAATAGCATCCTGGTCTTAAAAATTGCACCCTGAAATT
TGACTCAGGGTGCGAAAAGCGCACCCAAATTTTTGCAAGTTTTTGTCTGCAGCAGTGCAGCGCATCCTGGTCTTGAAAAT
CGCACCCTGAAATCTAGCACAGGGTGCGAAATCGCACCCAAGTTATGGACGAAAAAAAACCCAGACTACGCAGTTATGCA
TTCTTCTAAAGTAGCTAGAAAGTAAAGAGTTATAAGTTTTTGTTTTAAGAGAGTTATAATTGCTGTCTTGCTCTTTCTCT
ATATAACGGAAGCCGAAAAATTGGTACCGGCACCGACCGTCTAGCCCACGTTGCCGTCGCCGCGGACAACAGCCGCAGCG
GACAACGGCCGCAGTAACTGATCGGCCTCCGCGTGACTTACCGTTTGACTTCGACTGGTCTTCGAGCTTGTTGCTAATTA
TTATATTATTAATTATTATATATTTATTATAATATATATAATATATTATTTGTACACCGACAGAATTAGCGAGACAACAA
GCAAGACAACAAGCGAGAGAAGTAGCGAGAGAATTAGCGAGAGAATGAGCGAGTGAGTGAAGCGGCTAGCGAGTTGTCCA
CCGAGTCAAGCAGCGAGAGAGCTCTCACCGTGAAAACCACCGCGTATTTGACCGTGAGCCAGCGCGTTTTTTGGTAGCGA
GTCACAAAATTGGCAAAAACGCGCTACCGTGTAAAAAAAGTTGATTTCATCGGTGGTTTTCCCGCTAAGTACTCGCTACT
TCCAAGGATTCACTCGCTCTGACTTCTACACGGGACAGAAAGACAGACAGGCAGACAGACACAGACAGACAGACACACAG
ATAGACAGGCAGACAGACACACAGGCAGACAGACACAGACAGACAGACAGAGAGACAGACACACACACACAGAGAGACAG
ACAGACAGAAAGACAGACAGACAGACAGACAGAAAGACAGACACACAGACAGACAGACAGACAGACAGACAGATACAGAA
AGAGAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGACAGGCAGACACACAGACAGAC
ACAGACAGACAGACACACAGACAGACAGACAGACACAGACAGACAGACACAGACAGACAGACAGACACAGACACACAGAC
ACAGACAGACACAGACAGACAGACAGACACAGACAGACAGACAGACAGGCAGACAGACACACAGACAGACAGACAGACAC
AGACAGACAGACACAGACAGACACACAAACACAGACAGACACAGACAGACAGACACAGACAGACAGACAGACACAGGCAG
ACAGAC