>Mlig455_057078 {Length: 1339} {Pfam: ADAM cysteine-rich [PF08516.14, score=75.6]; Disintegrin [PF00200.25, score=53.3]} {Human: ENSG00000168615, ADAM9, ADAM metallopeptidase domain 9, [Score=145, Expect=6e-38]; ENSG00000168594, ADAM29, ADAM metallopeptidase domain 29, [Score=145, Expect=1e-37]; ENSG00000139985, ADAM21, ADAM metallopeptidase domain 21, [Score=143, Expect=5e-37]; ENSG00000143537, ADAM15, ADAM metallopeptidase domain 15, [Score=142, Expect=8e-37]} {Mouse: ENSMUSG00000014725, Adam28, a disintegrin and metallopeptidase domain 28, [Score=137, Expect=5e-35]; ENSMUSG00000028041, Adam15, a disintegrin and metallopeptidase domain 15 (metargidin), [Score=137, Expect=3e-35]; ENSMUSG00000011256, Adam19, a disintegrin and metallopeptidase domain 19 (meltrin beta), [Score=137, Expect=3e-35]; ENSMUSG00000046258, Adam29, a disintegrin and metallopeptidase domain 29, [Score=137, Expect=3e-35]; ENSMUSG00000008438, Adam21, a disintegrin and metallopeptidase domain 21, [Score=135, Expect=2e-34]; ENSMUSG00000079058, Adam34, a disintegrin and metallopeptidase domain 34, [Score=134, Expect=5e-34]; ENSMUSG00000062438, Adam1b, a disintegrin and metallopeptidase domain 1b, [Score=134, Expect=3e-34]; ENSMUSG00000031553, Adam3, a disintegrin and metallopeptidase domain 3 (cyritestin), [Score=133, Expect=1e-33]; ENSMUSG00000063900, Adam26b, a disintegrin and metallopeptidase domain 26B, [Score=131, Expect=3e-33]} {Dmel: FBgn0265140, Meltrin, [Score=153, Expect=1e-40]} {Celegans: WBGene00000074, adm-2, ADAM (Disintegrin plus metalloprotease) family, [Score=133, Expect=6e-34]} {Smed: dd_Smed_v6_5143_0_1, dd_Smed_v6_5143_0_1, [Score=132, Expect=1e-33]} {RNA1509_44914} {RNA1310_9319.1} {RNA815_4173.1}
ATTGCCTGGTGTCTGACCTGCTTTACTTAACAATTGGAGATTGAGCAGCTTTCTGAGCAGCTCTAGGTCAATCCTGCCAT
TGTTACCTGAACCGTACGCTCTTCTGACAACTGATGCAGAAGCAAGTCTTCCAAAGAACCAAAAATAGAAACGCTATAAA
AAATATTTTCGCGAAACGGCAGTGAAGAGAAAGCCATGGAACTAAACAGCAGCTGGGAAGTTTAGGGCTAGATTTTACAG
AGATGGAATGCTCGACCGAAATCCCACTGCAGACGTGCTCGTCGAAGTGCTGCGACGCGAAGACGTGCCGGCTCAAGGCC
GGTGCCACCTGCGCCTCGGGAGCCTGCTGCGACTGGGACACCTGCACGCTGAGGCCGAGGGGCCGCGTCTGCAGAGCCGC
CGACGGACCGTGCGACGTGCCGGAGACCTGCAGCGGGTCTGGCGAGTGGTGCCCGAGCGACGACAAAGTGGCCGACGGAG
TGGACTGCGCTGCCGGTCAGGCCTTCTGCTACAAGGGACGCTGCAGATCGCCAGACACCCAGTGCCGAAGGCTTTTCGAT
TCTTCAGCCAAGAGCGCCGACAAGAAGTGCTTTGAAGTCCTGAACAAAAACAGCAGCGCCTACGGCCACTGCCATTCACG
ACTGGCTGTGCTTTACATCTGGGCCGGGTTCAGACTGTCGGGAATTTTCTCCTACGTGCCGTGCGCTCCAAAGGACGTTG
AGTGCGGCCTGCAGCAGTGCGAACTGGTTGCTAAGCCTCGGTTTGGGAAGAATAAGACGGTCGGAAACACCACCTGCTAC
TCGTTCCCCCACATCGATTTGTCTTCATCCAGAATGCGCAGCCCCTCGCTGGTGCCGGACGGAGCCAAGTGCGGAATTGA
CTCGATGTGCGTCAACTCCACCTGCACACCGCTGAGCACCGTCCGAGCCTGCAAGTCGTGCCCTGACTGCAACGCCAACG
GGGTGCTCACCTCTAGCAAAGTCTGCTTTTGCAAAACCGGATTTGAGCCGCCAAACTGCTCCAAGGTGGGCTGCGGCGGC
TCAGTGACGTCACCGCTGGCGTGTCCCGGATCGACGAGCACCACCTCGAAGGATCCCACCAGCAGTGCACCCACATCTTC
GACGTCAGTGAGCTCAACCAAGGCAGCTGAAACTCCTGAGATCAGTAAGCCGACATCAGCTGATTTGGAGAACTCAACGC
ATCCAGTCGAGGTCTCAACAAAGTCTGATCAGATCGCCGATAGTAAAAGTGCAGAAAGAAGCTTGGCTGTCAACTTCGAG
TGCATCTTCCTCGCGGCCCTGGCCACACTCTGGGCCGCTGTCGGCTGCTTCAGGATTTAA