>Mlig455_008334 {Length: 2763} {Pfam: Reprolysin (M12B) family zinc metalloprotease [PF01421.21, score=125.2]; Disintegrin [PF00200.25, score=72.6]; Metallo-peptidase family M12 [PF13688.8, score=64.4]; Metallo-peptidase family M12B Reprolysin-like [PF13582.8, score=46.3]; ADAM cysteine-rich [PF08516.14, score=44.9]; Metallo-peptidase family M12B Reprolysin-like [PF13574.8, score=40.6]; Metallo-peptidase family M12B Reprolysin-like [PF13583.8, score=32.8]} {Human: ENSG00000149451, ADAM33, ADAM metallopeptidase domain 33, [Score=224, Expect=4e-63]; ENSG00000168615, ADAM9, ADAM metallopeptidase domain 9, [Score=221, Expect=1e-62]; ENSG00000148848, ADAM12, ADAM metallopeptidase domain 12, [Score=219, Expect=7e-61]; ENSG00000134007, ADAM20, ADAM metallopeptidase domain 20, [Score=216, Expect=2e-60]; ENSG00000143537, ADAM15, ADAM metallopeptidase domain 15, [Score=215, Expect=5e-60]} {Mouse: ENSMUSG00000031555, Adam9, a disintegrin and metallopeptidase domain 9 (meltrin gamma), [Score=229, Expect=6e-65]; ENSMUSG00000054555, Adam12, a disintegrin and metallopeptidase domain 12 (meltrin alpha), [Score=221, Expect=5e-62]; ENSMUSG00000025473, Adam8, a disintegrin and metallopeptidase domain 8, [Score=219, Expect=6e-62]} {Dmel: FBgn0265140, Meltrin, [Score=247, Expect=7e-71]} {Celegans: WBGene00000074, adm-2, ADAM (Disintegrin plus metalloprotease) family, [Score=218, Expect=7e-61]} {Smed: dd_Smed_v6_5143_0_1, dd_Smed_v6_5143_0_1, [Score=194, Expect=2e-52]} {RNA1509_45880} {RNA1310_77182} {RNA815_1440.1}
ATGGGCAAGTCTGCAACAAAGACCTCTGACCGACTGTGGGAGATCGGTAACCTGGTTAATGGGCTCTACAAGCAACTTGG
CGTGAATGTGATCATGGTGAAAACGCTGTTCTGGACAACCGATCCGTTCACCGTGAGCACAACTAACGGAAAAGTTAACG
CTTCTCTACTGCTGGATCAATTCCTCGTATACCGGATGAAGTCACTGAACGACACGCCGCATACTGTTGCTCATCTGGTG
TCCGGATATCCCATGGATGGTGGTCTCATGGGACTCGCCAGTCTGGGAAAACTGTGCCACTTCTCTACAGGCGGAGGCGT
GAACTGGGATACGCAGATGAACGGCAGCGCCTACGGCGTGGCAACCACGGTGGCGCACGAGCTCGGGCACAACCTTGGAA
TGCAGCACGATGATGAAGGCAGTTGGACTTCGGCTGGCTGCGGCTGCCCGGACCCGCAGGGCTGCATGATGCAGTCGGCA
GGCGGAGACTCAGACCCGGTGAGGTTCTCCAATTGCTCAGTGAACTCCTACCTGGAGTACAGCGTGCCAAACGGTCTCGG
CTATTGCATGACTAAACCGCCAGAGGCTTCCGTTACCGCGGCCGCTGTGCCCACCTGTGGAAATCGAATTGTTGATCCTG
GCGAAGACTGCGACTGCGGACTGGCTGCGTACTGCAACAACACCTGCTGCAATCCGACCACTTGCAAATTCAAACCGGGA
GCCACCTGCGCCTCCGGCCAGTGCTGCAACATCAACACCTGCTCGGTGATGTCGAGAGGTTCAGTTTGCAGAGCATCCCG
AGGTGTCTGCGACCTGCCTGAGTACTGCAACGGCACCAGCGAGTGGTGTCCCGAGACTGACGACTTCCTGCTTGATGGCA
CCGAGTGCGCCTTCAACCCGACCAATTCTTTGCAGGTGCAGGCCTACTGCTACAACGGCGAATGTGGCAGCCGGGATTCC
AGATGCTCGCAGCTGTTCGTCAACGTCAACAGGAGCGCTACAACGGCAGCGGCGGAGGCTGCGTCGACCGCAGGCAACGA
GACTGGCTATTGCGACTACCGCGCTGTGGATGCTTCTCCACTTATCTACCAGTACCTGGGCTGCGTTGGCGGCAACCAGC
GATGCGGCACTCTGTACTGCGCGGCGCCCGGCACATCGGCGCCGTCCAGCGCCTGGCTGTCCATGGACTCGGACGATATT
CGAACGATTTCGACGCCGGAAGGCACGCTGGCCATGGCAATGCTGGACCTGACGCCGACCGGGCTTCGGGACCCGGGACT
CGTGCCGGACGGGGCCGAGTGCGGAGCGAGCATGATGTGCGTCAGCTCAGTCTGCCGTGCTGTGTCGAGCGTCGCAGCCG
CCGCCAACCCGTCCGCCGGGTCGCTGCCGAACTGCAACGGCCGCGGGCACTGGGCGCAGAGCCGGCAGTGCTTCTGCAAC
GCCGGCTTCGCTCCGCCAGACTGCCTGGCGGCTGGCAACGGCGGTTCGGCTTCCAATCAGCCAGCCGCGTCTGCAGATGC
AACAACTGTGGGAACATCTACAGCAACTATCATTATCAAAACTAACCCAGCAACGCTGGACCACCTGGCTTACCTGGGCA
TCGGCATAGGCGTCGGCATCCTCGCCGCCAGCATCATCGGCCTGATTGTCGGGCTCGTCGTGTGGACCTGTCGCCGTCGT
CAAGGCCCGGCTGCAGATGGCAACATATTGCAGCCGTCTCAGCCCAAGATTGCCACAGTGGACGGCAACGGAGGAGCGGC
TAACGTGGCCTATCACTATTCCAGCGATCGGTTTGTCTCCGGTGGCATCGCCGAGCGGCACGTTTGATGTCGGACAGCAG
CCGCTGTGTCGGTAGCCATTGTTGGTCTTTTTAACAGAACGCATCATAACGCAGCATGTGGCCCCCAAAACATTTTAATG
TCCTTCATACGCCACTCTTTCAAACTGGGTTCTTGCTAATAATTCCCAGGTTGAGCGTCTTGACAATACACGCATCATCT
CAAATTATTACCAAAATCAGCACTGCAAAGGACTACTCAAAAAGCTCTATTGATATTCATAATAAAATTAAAAATCTATG
TTAATTTTATATCCTGATATGTACATGTCCTGTTCCCAAAAAATCAAAAGAATGACACAGCTGGACTCAATGGTTTTATG
AATCTACTTGATTATTCTGATCCCTTTTGCTCTGCAGAGACTTCCGAAATTCTTCTGCATGGAGCCGCATACAGTGAACC
ATACAGGGGGCGGGTTGGCCTGGCTAGCCATGCCTTATGCCATTGCCACTTTTAGCGCCGCAGGCACTTATTTTGGCGCC
GCAGGCACTCATTTTAGCGCCGCAGGCACTTAATTGCCTCCAGGTTTTTGGTATCCGCCGCGCCCAACCCCACCCCCCAG
GCAATTGGGGGGGGGGGGGGCCGCGGCCCCCCCCGCCCCCCCCCTGGCTACGCCACTGCCTATAACAGCGGAATAAACGC
GCGTACGAATTCAAAGAAATGTTTCTAGGAAAAAAAGTTTTTAAAAGCGCTTATTCCGGTGTTGGACTACGAAAATGCTA
ATCGACTGTACATGATGTATGCACTTGCAGTTTTCGTCAATCGTATATGCACCTGACTTTTTTATGCATGCACTTGATAT
ATTTAATACGACTGCAAAAAGGCTGTATAGCAATAGATAAATAATCTTATAATTATTAACTATAAATGTACCAAGAAGCA
TGCAATCTGTTTGTTGCATTCTTTCAATATTTTTTTACTTTAAC