>Mlig455_032761 {Length: 1733} {TRANSSPLICED} {Pfam: Metallo-peptidase family M12 [PF13688.8, score=45.3]; Reprolysin (M12B) family zinc metalloprotease [PF01421.21, score=41.8]; Metallo-peptidase family M12B Reprolysin-like [PF13574.8, score=39.4]; Metallo-peptidase family M12B Reprolysin-like [PF13582.8, score=32.1]; Metallo-peptidase family M12B Reprolysin-like [PF13583.8, score=31.7]; ADAM cysteine-rich domain [PF17771.3, score=25.3]} {Human: ENSG00000158859, ADAMTS4, ADAM metallopeptidase with thrombospondin type 1 motif 4, [Score=69.3, Expect=9e-12]; ENSG00000166106, ADAMTS15, ADAM metallopeptidase with thrombospondin type 1 motif 15, [Score=68.9, Expect=1e-11]; ENSG00000154736, ADAMTS5, ADAM metallopeptidase with thrombospondin type 1 motif 5, [Score=68.2, Expect=2e-11]; ENSG00000154734, ADAMTS1, ADAM metallopeptidase with thrombospondin type 1 motif 1, [Score=68.2, Expect=2e-11]} {Mouse: ENSMUSG00000022894, Adamts5, a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 5 (aggrecanase-2), [Score=70.1, Expect=4e-12]; ENSMUSG00000006403, Adamts4, a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 4, [Score=67.8, Expect=2e-11]; ENSMUSG00000033453, Adamts15, a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 15, [Score=67.4, Expect=2e-11]} {Dmel: FBgn0034903, sona, sol narae, [Score=68.6, Expect=8e-12]} {Celegans: WBGene00003248, mig-17, ADAM family mig-17, [Score=57.4, Expect=1e-08]} {RNA1509_3744, RNA1509_45506} {RNA1310_15616.1, RNA1509_3744, RNA1509_45506} {RNA1509_3744, RNA1509_45506, RNA815_5875.1}
TGCCCGCACACGTGGCAGCGAACCGAAGAAAACCGATGAAAATGCTGAAAATAGCTATATTTCTGGCCGTCTCTGCGGCA
GCCCAGGCCTCGGTGTCCGTGACGCAATCCAGCGGTGACGGACCTCACCCGTCCTCCATGGAGATCGAGCTCCAGCTGCC
CGATACCGACAAGAAAGTCCGCATCCCGCTGACCAAGACTGCTCCGTTGGATGGCGCTGTGGTCACCGTGACGGACGGTG
GAGTCTCCAGGACGTTCTCTGGCCGACAAGCCCAACACGGAGATCAAGCTCACTACAGAAATGTTGATAGCAAGTCTGTG
ATCAGCGTTCGACACGAGAACGGCACAAAGCGCATCAGCGGTCACGTGACGCACAAAGGCACCTCGTATGTCATCCAGCC
GATCGGCGACTCTGGGCACCGCGTCTCCAAAACCAAAAAAACTGCGGATGGGACGCAGCCCGAGCAGTTGCTGAGTCGCA
AGAAACGCCGAGTGAACCGAGAGGCTACCGAATACGAAGTCGAGATTCACATCCTCATTGATCACACCGTTTGGAAGGCT
TTCAAGACAATTTTCGGTACGGATGACAAAGCCCTGACTGAGCTGCACTTCTACTATTCTCACATTGTGATTGGCATGGA
CACGGTCTTCAGGAACATCGGCAGTCCGTCAATCAGTGTCAGGTGCATTGGGCTAACAGTAGCCAAGACTGAAGCCGATG
CAAAGTGGATGCCACCGGATAGCTCGGCTGATGCCAGCGATGGTGGTGCCACTCTCGGCAGAATCCGAGCGTACTCGAAA
GGCGACAGAGCCGATCACGTGATGGGCTTCACCCGGAGAGATATTTCGCTAGGCAAGAACTCTGCGGTGACAGGAGTCGC
TTTTGAAAATAGCGCCTGCCAAGAGACGAAGGTCAGCGTTGTCGAAGATTCCGGCCTCCACAGCTGGATGACGGCCGCGC
ACGAGCTCGCACACAACTTGGGGGCCAGTCACGATAATAACGAACCCGGATGCGAAATGGATCTGAAGTTCATAATGTCG
CCTGCCGCTACATCCTACGATCTCAGCAACATAGCCAATTCCTACCGGTTCTCTCCCTGCACAGTGGGGCAGATCAGGAC
CTATCTCGACTCCGGAAAAGCAGCGTGTCTGCAGTCTCGTCAAGGCACCCCCGTCAGCCAACTGACAAGCTCTGTCCGCG
AAGGAGCTCGCATGTCCCTCGATCAGGTGTGCCGTCTCAATTACCCATCGAGTCCCGGCAATATTTTCTTGACGGAGGAC
GTTAAAGCAAGCCCGGCTCTGCTGTGCGCCAAAATGCACTGCCTCTTGAAGGCCGACCACGCACACGGAACAACTAGCAC
CGGCTTCCGCGCCCCAGTCGGGTCGCCCTGTGGCAACAAGAAGAGCTGCAATTGGGACGGCCAGTGCGTTGCCGACGAAG
CAGCACCCGCTGCAGACGAGAGCTGCTTCTTTGGCGACATATGGGGCGACCAATGTGGGGGGTGGAAAACCTACATCGAG
TACCTGCGCAACACGGATAAAAAATCTCAACGCAGGAGCTACTGCGGCCAGACGCAAACGAATTGTTGCGCTAGTCTCAA
GAATTTGTGTCGGTTTGATTAAGCTTGGTCGGAAAAAAAGTTCCAAAGAAATTACCAAGCAACTCATAGAACTGCGAAAA
TATATTGAAAACGTTTTGGAGTAAAATTTGGGATCTTGCTGAGTTATCAAAAAA