>Mlig455_056320 {Length: 3060} {Pfam: Reprolysin (M12B) family zinc metalloprotease [PF01421.21, score=148.1]; Metallo-peptidase family M12 [PF13688.8, score=70.7]; Disintegrin [PF00200.25, score=70.5]; Metallo-peptidase family M12B Reprolysin-like [PF13583.8, score=53.5]; ADAM cysteine-rich [PF08516.14, score=50.9]; Metallo-peptidase family M12B Reprolysin-like [PF13582.8, score=50.1]; Metallo-peptidase family M12B Reprolysin-like [PF13574.8, score=45.8]; Reprolysin family propeptide [PF01562.21, score=19.7]; Matrixin [PF00413.26, score=18.6]} {Human: ENSG00000135074, ADAM19, ADAM metallopeptidase domain 19, [RH, Score=271, Expect=3e-78]; ENSG00000069206, ADAM7, ADAM metallopeptidase domain 7, [RH, Score=266, Expect=2e-77]; ENSG00000042980, ADAM28, ADAM metallopeptidase domain 28, [RH, Score=264, Expect=2e-76]; ENSG00000148848, ADAM12, ADAM metallopeptidase domain 12, [RH, Score=263, Expect=2e-75]} {Mouse: ENSMUSG00000014725, Adam28, a disintegrin and metallopeptidase domain 28, [RH, Score=265, Expect=6e-77]; ENSMUSG00000054555, Adam12, a disintegrin and metallopeptidase domain 12 (meltrin alpha), [RH, Score=261, Expect=7e-75]; ENSMUSG00000011256, Adam19, a disintegrin and metallopeptidase domain 19 (meltrin beta), [RH, Score=255, Expect=1e-72]} {Dmel: FBgn0265140, Meltrin, [RH, Score=291, Expect=2e-85]} {Celegans: WBGene00000074, adm-2, ADAM (Disintegrin plus metalloprotease) family, [RH, Score=262, Expect=3e-75]} {Smed: dd_Smed_v6_5143_0_1, dd_Smed_v6_5143_0_1, [Score=219, Expect=1e-59]} {RNA1509_16481, RNA1509_24937} {RNA1310_5456, RNA1509_16481, RNA1509_24937} {RNA1509_16481, RNA1509_24937, RNA815_1793.1}
CCACGCTGAATTTAATATAATAGTTTTGAAAAACTCAGTAAGAGATTCCATGAGAATGGCCATAGACACTCGGTCCTTAT
TGGTAGAAAGCGGAAACTCCTTAAATATGATAATGCAACGAAAGGCAAATTATTGTAATGCATAAAGCATAATCGCTTCG
GATTTGCATGTTGGAGACCACCTGGGTGCAGGGCCGGAGGCAAAAGCGGTGCTAGCTATGCTGGCTGGCGGGCGGTGGTG
GACTTTCCATCCTGGTCACCTTTGCGTCAGTGCATCCAGCAGAGGCTCGAGAGTGAGAACATCGGTGAGGCAATGATGAA
GCTCCAGCTGATGCCGCAATTGGCACAAGTTCTGGCGCTGCTCATAGCGACGTCCGTGGCTGTTGCAACTGCGTCTCCAT
CATCTGACGCTCTGACTCTGCGCTACGTGCAGCAAATTGGCTGCCCGCTGCACCGAAGTCTGCGGGTTCAAATCGATGAT
TCCAGGGTCATCGTCACCCTGCAACTGCTCGAGTCGTCCGAAGAATTTCTTCACAGCTCCGAACGTGCAATCGCCAACAC
TCACTCTGGTGAAAAAGAAGGTCAGAGGTTCGAGTCGCTGAGCTCTCATCGACAGCAGCGCATCTGCTTTTACCAAGGCA
ACGTGGAGCCCGAAGGCAGTCTGGCTGTTGTGAAACAACGTAACGGTCTGATCAGCGGAAGTTTTCACTACGGTAATCGC
GTCTACGAGATCCCGGAGCAACCGGCTCCCGCCGAAGCCTCAAAGCGGCTGCTCAGAGCCAGCCCGCTGGCCTCGTCGCC
CGAGGCCACCTGTGGTGTGTCCAACTCACCCGTCAAAGCCTCTCCGCCGCAGCCGACCGACGAGCACCAGCAGCTGCTGC
TGCAGCGAAGTCGGCGAGCGCTCAAGCTGGACACGAACTCCAACTACAGCGAATCTGATCGAAAGTACATCCAGATCATC
CTGGTGGGCGATGAATACTTTTATCGAAACCAGAGCAGCGACATGGTCAAAGCCCGCGATCGTCTCTGGGAGATTGGCAA
CTATGTCAACGCACTGTACAAGCAAATCGGTGTCAACGTGATCACGGTGCACACGGAGGCATGGACGACGGATCCGTACA
CTCTGTACAGCGCCACGAGCCCCACAGGAGCCAACTCGTCTGAGCAACTGGACCGGTTTATGGAGTACCGGATGCGACAC
CTCAGCTTCAAGACGCACGCTGTGGCCCACTTAGTAACTGGCCTAAAATACAGCGGCACAGATGTCGGGCTGGCCCACCT
GGGCAAACTGTGCACTTTCGGTCTCAGCGGCGGAGTAAACTCGGACCGCGACCCGAACGCGTACGGAGTGGCGGTCACTC
TGGCGCACGAGCTGGGCCACAACCTCGGCCTGAACCACGACGAGGACGAGCGCGGCTGCGGCACCTGCCCGGATCCTCAG
GGCTGCATCATGGCCGCTGTTGGGAATGAGGTGAATCCAGTGCGGTTCTCCAACTGTTCGATCCATCGCTTCCTGGACTT
CACGGTGCCCAACGGTCTCGGCTACTGCATGACCAGCCCGCCGGAGGATTCGGCAGTCAGCGACGCCAAGGTCACCTGCG
GCAATCGGATTGTTGAAGCCGGCGAAGAGTGCGACTGCGGACCAGTCAGGTGGTGCAACAACACCTGCTGCAATCCGAAC
ACCTGCCGGTTCACTTCCGGCTCCGCGTGCGCCTCAGGCGAGTGCTGCAACCTGGCCACCTGCCAGCTAAAATCGCAGGG
CGTCGTCTGCCGTTCGTCGCGCGGCATCTGCGACCTGCCCGAGTACTGCAACGGCAGCAGCGAGTGGTGCCCGCAGTTCG
ACGATTACAAGGCTGACGGTACCGAGTGTCTGACCGGCAAGGCCTACTGTTACAAGGGTCGATGCGACGACCGCGACACC
CGCTGCGCTGCACTCTTCAACGGGACGAATTTCCGGGCCGCCGAGGCCAGCTGGTCGGTCGGCACCACCCAGGGCTTGCG
GAGCGGCTACTGCAGCTACAATGAGAGCAGCCTGCATCCGATTAACTACACTTTCACCGCGTGCACCGCAGCCAACCAGA
GATGCGGCCTGTTGTACTGCGTCGGAGGCAACATCGCCACCGCACTGCCGATTCCCAAGTGGAAAGGCCTGGAACCAGCC
GACACGAATGTCCTTGATGCCACAATTAGTGGCCAGGTTATTGTTGCAGCCTACGCCATGCACAACCTGAAGTACTCCGG
CTACCGGGACCCGGGACTAGTGCCGAACGGGGCCGAGTGCGGCAGCAATATGATGTGCGTGAACTCCCAGTGCATGGCAA
CTAGCTCAGTCTCGGTCAGCTGCCCCAGCTGCAACGGTCGCGGCAGCTGCGCCCAGAGCGCCCAGTGCTTCTGCGACACC
GGCTATCGGCCTCCGGACTGCCTGCAGGCTGGCGGCGGCGGCTCCCTCATGAACAGGCTGCCAGACAATACAACGGCGCC
GACCAGTTCAGTTGCCACGACAACCACTGTTGCGACTAGGAGCAACGCCAGCGCTAGCAGGGTGGCAAACTGGCTGACTA
CCGCACTGCCTCTGTTTCTGCTTTCTCTGCTACTGAAGCAGCAGTCAGCTTTGGTGTGGCAGCTCTAGCCAGAGCGAAGC
CGAAAGAAAACAGACAAGATAAATATTGTCCACGCATCCCGTTGATGTATAAAATTTGCTTTTTTATGCACCATTTTAAT
TTTTAACCCCGTTTGTAAAATGTACACTTGATATGGTTTTATATCTTTTTGCCAAAAATTCAATGATGTGATACAAACTT
TTCTGCGTTTGACATTACAAAAAACTATTGTGGCCTCCTTGCGAATTTTCGAACGATCTTTTATTTCATAAATATTGTTT
TAGAAATTGTTTCTGAACATATCGTTGCTTGAGCAGAAGAAAATCTACAAAAAATCATTCCAGCTGTGAAATTTTAAGTT
GTCAGACATTCATTTCTGGTTTATTTTGCGCTGAAATTGGCGCCAATTTAAAATATAAATTCGGCATGCAGCCGATACCG
TATATTTCTTGTCCGCCTTAC