>Mlig018498.g1 {Length: 1975} {SignalP} {Pfam: Metallo-peptidase family M12 [PF13688.4, score=50.7]; Metallo-peptidase family M12B Reprolysin-like [PF13582.4, score=39.6]; Reprolysin (M12B) family zinc metalloprotease [PF01421.17, score=39.0]; Metallo-peptidase family M12B Reprolysin-like [PF13574.4, score=36.3]; Metallo-peptidase family M12B Reprolysin-like [PF13583.4, score=29.7]} {Human: ENSG00000154734, ADAMTS1, ADAM metallopeptidase with thrombospondin type 1 motif, 1, [Score=72.8, Expect=7e-13]; ENSG00000145808, ADAMTS19, ADAM metallopeptidase with thrombospondin type 1 motif, 19, [Score=72.4, Expect=1e-12]; ENSG00000173157, ADAMTS20, ADAM metallopeptidase with thrombospondin type 1 motif, 20, [Score=69.7, Expect=8e-12]; ENSG00000166106, ADAMTS15, ADAM metallopeptidase with thrombospondin type 1 motif, 15, [Score=69.3, Expect=8e-12]} {Dmel: FBgn0086408, stl, stall, [Score=68.9, Expect=6e-12]; FBgn0029791, CG4096, , [Score=67.4, Expect=2e-11]} {Celegans: WBGene00020567, T19D2.1, Caenorhabditis elegans Protein T19D2.1 (T19D2.1) mRNA, complete cds., [Score=65.5, Expect=5e-11]} {UniRef: UniRef50_K1PUB4, ADAM family mig-17 n=1 Tax=Crassostrea gigas TaxID=29159 RepID=K1PUB4_CRAGI, [Score=140, Expect=8e-33]; UniRef50_UPI0005C3A83E, PREDICTED: mucin-2-like n=1 Tax=Crassostrea gigas TaxID=29159 RepID=UPI0005C3A83E, [Score=139, Expect=2e-32]} {RNA1509_380}
CGTTGTTGCCAAAGTCGTGGCCAGGAATTAATTGAGCTTAACCAATATCCGCTACAACTGCGATCAAAAGCATAAAAACG
AAGACGGTCAGTGGTTGATCCTTGCCGATAAAGATAAGCCCACTTAAACCTTGTGTCTGAGTGGAACAGAAACCTACAAA
TTGTCCTTTAGACCCGCGCTCTGAAAATGCTGCGCATTGTCATATTTCTGCTCGCTGTTGCTGCGGCCCAGGCTTCAGTG
TCTGTGACTAGATCCAGCAACGATGGACCGCATCCTTCGTCTATGGAGATCGAAGTGCAACTGCCCAGCACGAACAAGAA
GGTCCGCATTCCATTGGAAAAGACTGACGCCTTTGAGAGTGTGCCAATGACCGTGAGAGAGAATGGAGTCTCCAGGACTT
TTTCAGCTCGCCAAGCTCACCACGCGAGTCACGCTCACTACAGGGACATCGAGAGCAAGTCTGTCATCAGTGTTCGACAC
GAGAAGGGAAAGAAACGCTTCAGCGGTCACGTGATGCACGAAGGTACATCCTATTTCGTCAAGCCAAGCGGTGCTTCAGA
GCATCAAGTCACACGCAACATTGCCCAGCCAGACGGTATTGAGTCGCAGATTGACAAGTCGAAGGTCATGCAAGTAATGA
GCCGCAAGAAGCGTCAGTCCAATCAAGCTGCTACAGATCTTGAGGTGGAGCTCCTTTTGCTTCTGGACCACACTGTGTGG
AACGCGTTTAAGACAATTTACAGCACTGATGCTGCAGCTATGACAGAGCTTCACTATTATTACACGCACATTTTGAACGG
AATCGATACAGCGTTCAGAAACGTCGGAAACCCATCTATGAGTGTCAAGTGCACCGGCCTCACCGTGGCAAAGACGCAGG
CTGATTCGCAATGGATGCCTCCAGCTGGTTCCTCTGACGCAACCGACGCCAGTGCAATCCTCGGCTACATCAAGTCTTAC
GCCGTTGGCAAGACTGCCGATCACGTGATGGCGTTTACGCGCACGGATATCCAGAGTGGCGGCAACACCGCAGTGTGCGG
CATGGCTTACGTTGGAGGCGCCTGTCAGGACACGCGAGTTAGCATCAATGAGGACCAGGGCTTGCAAAGCTGGGGCACAG
CGTCTCACGAGCTGGCCCACAACATGGGATCCGATCACGACAATGACCAACCGGCGTGCAAAGTGGCTTACAAGTTCCTA
ATGTCGCCTTCTGCGGGGTCATACTCCCTTAGCGACGTCGCCAACTCGTATAGGTTTTCTCCCTGCACAGTGACCTTCAT
GAAAAACTATCTGGCTACAGGCAAGGCCGAGTGCTTGAAGTCGCGTCAAGGCTCTCCAGACTCCTCTGTGGCTACAACGA
CTCGCGAAGGTGGTCGCATGACCCTGGACCAGGTGTGTCGCCTCGCCTATCCATCCAGTCCGGGCAAGTTCTTCCTCACT
GATGACGTCTCTTCTAATCCGGCACTGATCTGCGCCAAGATCTTCTGCACACCGACCGCCGGCTCTTCAAGCGGAGTGAC
TGGCGGCGGTCTCCGGGCCCCCGTTGGCACACCCTGCGGCAACAAGAAGAGCTGCAACTGGGACGGCCAGTGCGCTAGCG
ACACCTCCGCTCCCGAAGCCGACGAGAGCTGCTTCTGGGGTGACTCCTGGGGCGACACGTGCACAGGATGGAAGGACTAT
ATCAAGTACCTGCGAGACAATAATGACCTTGGAAACGCTAAGACCTACTGCGGACAGTGTCAGAGTGGTTGCTGCCGATC
TGTCAAGACTCTGTGCACATTCTAACCTAGCTGCCTTCAGCGAGAAAAGCGTCGTAAAAGTCTTAAGTCAAAATCTAACT
TAACTCTTTAAATCTCTTGGTTTCTGGTGTCGTATTATTTTCGATTGTCCGACTGAAATAAAAAAGCTGAAATGACAATA
TTTTCGCATACGCGGTTCTAAGAACTTTGAAAACGAGAAAGACTTAAGAGCAAAA