>Mlig455_042436 {Length: 4020} {Pfam: Thrombospondin type 1 domain [PF00090.21, score=36.6]; Calcium-binding EGF domain [PF07645.17, score=34.8]; EGF-like domain [PF00008.29, score=24.3]; Human growth factor-like EGF [PF12661.9, score=24.1]; Complement Clr-like EGF-like [PF12662.9, score=21.6]; Spondin-like TSP1 domain [PF19028.2, score=21.2]; Thrombospondin type 1 domain [PF19030.2, score=19.2]} {Human: ENSG00000145147, SLIT2, slit guidance ligand 2, [Score=68.2, Expect=6e-11]; ENSG00000074181, NOTCH3, notch 3, [Score=65.9, Expect=3e-10]} {Mouse: ENSMUSG00000028369, Svep1, sushi, von Willebrand factor type A, EGF and pentraxin domain containing 1, [Score=71.2, Expect=4e-12]; ENSMUSG00000031558, Slit2, slit guidance ligand 2, [Score=68.9, Expect=2e-11]; ENSMUSG00000074505, Fat3, FAT atypical cadherin 3, [Score=67.8, Expect=5e-11]} {Dmel: FBgn0004197, Ser, Serrate, [Score=70.5, Expect=6e-12]} {Celegans: WBGene00013855, ZC116.3, Probable cubilin, [Score=66.2, Expect=1e-10]} {Smed: dd_Smed_v6_7638_0_1, dd_Smed_v6_7638_0_1, [Score=65.5, Expect=1e-10]} {RNA1509_21904} {RNA1310_11439} {RNA815_1362}
CCACTTTTGTTTGCAGCGATGCAGTCGCCTACTTTCGTGACTGTCTTCCTACGCACACACAAATTATTTTTCTTCTCTGC
AGAGCCCTGGGGGGTGTTTCTCGAAACTCACGTAAGTTCTATGGTAAGTTAGATGGTAAGAAAGAAATTTACGTGTAGCG
TAAGTTTGCTCGTAAGACGCTTTCTCAAAACTCACTTAGACTTTGCGTGGCTTACGCTGTTCGTAAGTCGTATCTGAAAC
GAAAAGTTGCATGTCTATGGTCATAAATCTGCAAATATCTTTACTTTGTCTATCGTAAGTTGCTTTCGAGAAAGATCCAC
CTTCGATAAAGTTTAACTTGACTTGGCTTGACTAAAGCTTCACGTATAGTATTTGTCATGCTATCTCAGCCTAGAGACAT
CCAAACTCAGCCAGCCCATCTCGACAGTGCGATTTTTTACGTAAGCCAGTCAAGTTTTACCATAGACATGCTTCTTAAGG
CCATGCTATCTCAGCCTGGGACATGCAATCTCAGCGTTGTTGCGTACCCTTACTGACTTTTCTTGCTGCGTTCATTCATT
GCTGTTTGTTGCCATTTCATGTCACGTTATAGAAATGATAGCATTGAGATCTGTTTGCAATTGAAATCTATATTGGCTGA
GATTGCATGTCCCAGGCTGAGACAGCACGGCCCCAAGAAGCATGTCTATGGTAAAACTCGACTAGCTCGAGCCAAAAAAC
GCATTGCGGAATGGGACTGGCTGAGTTTGGATGTCTCTAGGCTGAGATAGCATGACAAATACTATACTATGCGATTAGTG
CTTAAGTGCGTCTTACGACTGATACCGAGCAGTCGTAGGGTTAAGATCAACCTTACGAAAGACCATAGACATACGAACGC
TTCGAGAAACAGTCTTTTGCGCAAAGTTACGAACTCGTAAAGTTGCGATCAATCTTACGCATAGCTAACTTGCGAGCCCT
TCGAGCAACCCGTAAGTGTAGCTTACACAACTTACGTCTATGGTCGATCGTAAGTTGCTTTCGAGAAAGACCCCTCTGAT
CATCAATTCTTTCGCTCCTCTCCTCAGCCATTTGCACCCCTTGAATGTCATAAGCTGAAGAGAACGCATTCAGAGTCAAA
GACAAATACAATAGCCAGCAGAGCAGCTAATATGCACCCGAAACTGCGGCAGCTGCAGCATCTGCAAGATCGTCAGCGTC
AGCGGTGGCGGCGTCGCCCGCACTCTCGCACTGCAGCGGCTGCGGCAGCGATGGCGGGGGTGTACACGGACTCTGGGCGG
CTGCTGCTCGGTGGCATGGCTGTGGGGCTGCTCAGCCTGCTGCTCACATTTGCGGGTCTGCAGTTGGCCCGTCTCGGCGG
ACTGCGGCACCCCGCTGAGCCCGAAGCTCCTGTTGAGTCGGTGATGAACCGAACTGTTCGAGGAGCTGAGAACCGCCCCG
CAACGGTCGCTTCCCCAACTGACGGTGGCAGCGGCGGCGACGGCGGCAGCGGCAGCGGCGGCGGTAGTGGTGGCGACGGC
GGCAGCGGCAGCGGCGGCGGTAGTGGTGGCGACGGCGGCAGCGGTAGCGGCGGCGGTAGTGGTGGCGACGGCGGCAGCGG
TAGCGGCGGCGGTAGTGGTGGAGGTGGCAGCAGCGGCAGCGGCGGCGGTAGTGGTGGAGGTGGCGGCAGCGGCAGCGGCG
GCGGTAGTGGTGGCGACGGCGGCAGCGGTAGCGGCGGCGGTAGTGGTGGCGACGGCGGCAGCGGTAGCGGCGGCGGTAGT
GGTGGAGGTGGCAGCAGCGGCAGCGGCGGCGGTAGTGGTGGAGGTGGCAGGAGCGGCAGCGGCGGCGGTAGTGGTGGCGA
CGGCAGCAACGGCAGCAACGGCAGTAGTGGTGGAGGTGGCAGGAGCGGCAGCGGCAGCGGCAGCAGTGGTGGAGGTGGAG
GCAGCGGCAACTTGAAGTTGAAAGCTCGGAACGGGACGAAGGGGCGACCGCTTCCCCTGCCGGGCACCAGCGATAGGCCA
AAGTTTTTCTTCAACGAGTCCTTGCTGCGACGTCAGCGCCGATACCAACACGAGTACATCTTGTTCGTCAACAACCAAGG
CGGATACGACGGGGAACGCTGGTGGTACTGCTTTCGTACTGACACGTGCTGGGGCTACAGGCAAGGACAAGGACAGGCCG
TCGCTTCATACGATATGCTACAGAGGTGTACTTTCAGCAGAAACTACCAATACGAGGTTCCAATAATGATTTCTAAGTTC
AACCCACTCAAGAGACTCTACCGATACAGACATTACGCAAAGAAAATTCCTAGATATTTATGGTGTTTCAAACACCCATG
GTCTGGCGACTGCCATTCATGGTGGAGATATTCCAGTTATGATACTGGCTATCCTGCCGGCTACAATGACATCATCGTAC
AGCTCTTAGTGGATATGAATTACCATGACTACATAGCAACGGGCGCTGCCAGAACAGCAATTCTCAACCATCTGATGGTT
GAATGCAGAATTCTATACTCTACTTTAACGCATTCTAATAAGCCGTACTATAAAAATCCTGCCCCGACTGCCTACGCCAC
GGTGCTGGCGTACTACGGCCGCTGCATATATGGCTACCCTAAATATTGCCCAGACCCGTGCAAGAACCCGCATGCCTGCT
CCGGAGATAACATGTTGTCCTCTTGCTACGCCATCGTGCCACCCAATCGGCACGAAGAGAACAAGTACCAAAAACAGATT
GCGGATGAGTTCAAAGCTTTGAAGAAGATTTTCGCCAGAGTTGCCTACTGCACCTGCACGTCTGGCTTTAAGTACAACAT
AGAAACGGAGGTCTGCGAACTCCTGCCTTTCAAATGCAGGCAGGACAGCGAGTGCTTGAACAATGGACGATGCGAAGGTG
TGTCTCCGGAAATAGAGCAGCTCATTGGCCGCTCGTACAACTGCAAGTGCCCCCCGGCTTGGCAGGGACTCCGCTGCGAG
GAGGCGCGCGACCCGTGCCTTGAACCGGACAACCGGGCCAGCTGCGGCGACTTCGAGTGCCGCCGAAGCCCCACGGACAG
CATATACGGCTTTGTGTGCATCTGCTCTACGGGCTTCACCCTCACAAGGCAGCAGGGCAAGCCGTCCTGCCGCGACATCA
ACGAATGCGCCGTCTCCGCGCCTTGTCGCAACGGCGGCGAGTGCCACAACCTGCAGGGCTCCTTTGAGTGCATCTGCAGC
CGGTCGTACAGCGGATCGCTGTGCGAGATTCCACCTCCGGAGCCTTACTGGATGGACTGGGGGCCCTGGACTGAATGCTC
AGTCACTTGCTCTGTGGGTCTGCAGCACCGCCAGAGGAATTGCTCCTTGGAGAGCAGCTGCGTTGGGTCCAAGAAGGACT
TCAAGACCTGCTTGGGCAGACACATGGACTGCGTGCTGGCCTCACTGGGCGACGTCAGTGTCGAGGAGCTGGCCGGGGGC
GCGGGCTGGCGCGCCGAAGAGGACAACATCCTGGACGACGCGTGGTACTTTCGCGAGTTCCAGCTGCTGCGATTGGGCCT
GAATAATCGGTTCATGGCGGAGGACGAGTTCGTGTCCGACTTGGAGGACGTGCTCGATCAGTACATCCACATCATCGCTC
TGGCAGGCGTGGTCCAGGCCGCAGTGCTGCTGCTGCTGTGCAAGCGAATTCGGGTTCAAGTGAGGCAGTGAAGCAGTGGC
GAATCCTGTTGTTGGGGCTGGAAAAATGAGTGGCCCGCTGTTTACCGACCAATTGTTTATTACGAAGTACACATTGTTTG
TTATTCACATCTCGTTTTTGACAGGTTCGTCAGCTTTCGACAGCCTCTGTAAAATTTGAGCGTATCTTGAAGTCAAATGC
TACTGCGGTTAGGATATGCATGCAGTACGATTCCATGGATGCTGTTGATAGCCCCTAACCTTCACACGATAAACGCCTAC
AAGCGATTATTTAAGCCTGATTGCAGCAGACGGATATCAATAAATATTATTTGGAAGAGTTTGTTGAGTCGAATCTGTTG
TCAAGTTTGTTTCAAAATTTC