>Mlig455_064772 {Length: 4499} {Pfam: Ras family [PF00071.24, score=78.3]; Ras of Complex, Roc, domain of DAPkinase [PF08477.15, score=27.1]; ADP-ribosylation factor family [PF00025.23, score=23.3]; RsgA GTPase [PF03193.18, score=21.6]} {Human: ENSG00000166592, RRAD, RRAD, Ras related glycolysis inhibitor and calcium channel regulator, [Score=91.3, Expect=1e-19]; ENSG00000164949, GEM, GTP binding protein overexpressed in skeletal muscle, [Score=88.6, Expect=8e-19]} {Mouse: ENSMUSG00000031880, Rrad, Ras-related associated with diabetes, [Score=93.2, Expect=2e-20]} {Dmel: FBgn0264753, Rgk1, Rad, Gem/Kir family member 1, [RH, Score=137, Expect=8e-34]} {Celegans: WBGene00010038, rheb-1, GTP-binding protein Rheb homolog 1, [Score=73.9, Expect=6e-15]} {Smed: dd_Smed_v6_11010_0_1, dd_Smed_v6_11010_0_1, [RH, Score=170, Expect=2e-47]} {RNA1509_15087, RNA1509_20692, RNA1509_37785} {RNA1310_15968.2, RNA1509_15087, RNA1509_20692} {RNA1509_15087, RNA1509_20692, RNA815_18047}
AAAGCAAAAAAGAAAATTGTAGAACACATCTGCCTCAAGGAGAGAATTTTTGCTCAAGCAAAAAAGGAGCCAGGAAGACA
AAAAAGCACCGCTAGCTAAGCTGCTTTTTTCTCGCCAAAGCAAGGCATGCAAAAGCAGGCAAGTGGAGCGGCCATTTTTC
ATAAAACAGGCGACCCAACAACTGTCAGCTATTGCAATCAAAGAGGGAGAGAGAGAGGGGGTACACGAAGAAGAAAGTCC
ACTGCTGCTTTCAGTGAAGCCGAAGAGAACCGGTCCAAGTCCAACTCCTCTCTCTGTTTCCCCATTGCAGCAACAGCCAG
GCTATAAGGTGTGTCGCAGTCGGCGTCCCACCCAAAACCGGTCCTGCTAGACGGTTCTACGCACCCCCCGCCCTATCCTG
TTGGATTCCTTCCCATTCTCCGCTCTGCCCCCGCTGCTACCCTCCTCCTTCCCCCTGTCGTCTCCCGTCCCCTCCTCTGC
ATGGCCTCTCCCCGGCGCAGCGGGGCCAGGCGGGCTACTGTACACGCCGAGAGCCGCGGCCAGCTGCTGTTGGCCGGCCG
AGGTCACGGCGACGACGAGTTTGATTTGTATTGGCGCCTGGCCAATCGCCCCGCCGCTGCCGCCGCCGCTACCGGAGGAT
TAAGACCGGCCGCGGAAGAGCGAGTGGGCGAGTGGGTCCAGGACTTGCAGCAGGCCACGGCATCGGCGGCATCGGCTGAA
GCGGCCCCGACGGCGGCAGACAGGAAGCAGCAGCTACAGCTACAGCAGCCTCAGCAGCAACTCTGCAGGCACAACCGCTC
GGCTTCCTGCAGGCACAACAGGAGGCGTTCGGCGTTTCCCGAGTCCACAGCTTCGGTAGCGGCCAACGCATTCGCCACTT
CATCAGCTGCGGCAGCAGCGGCGGCGGCTTCAACCGCAGAGGCACCAGCCGAGGAATCTGACAGGCCCCGAGCCAACAGC
ATGTCCGGCCGGCGGCTGCATGGCAGCGTCAAGGAGCGGATGGGCGGTCCGCGCGAAGGTGAAACTCTGGAGCTGCCGGA
GCCGCGGGAGCAGCTGGTCAGGGTGCGCAGCTTCAAACGGACGAAGCACGGCCTGGTGAACCAGGGCGACGAGGTGCGCA
AAGCTCGCAGCAACTGCAGCTTGAATAACAGCTCCGCCGGAGGCAGCGAGCTGGAACTCCGGCCGGCTCAGCAGCCTCAG
CAGCAGCCGCAGACGGCCTTCATGGAGGTGCCAGCGGTAGCCATCGGGTCAGGGGGCTCCGACTCTCGACTGCACCAGCA
GCTCCAGCAGCAGGACAGGCGGCGCAGCAGCTCGGCGGCCTCTGGCGGAGCCGGCAGCGTCGGCAACTGCGGCTGCGCGG
CTGAAGGCGGCGCGGCCGCTCCGCCGGTGAGCGCGGTGCCCATCCTGTACACCCTGCCGTCCTGCAGTCCCTGCCAGTCC
TACAGAGTGCAGGTGATGGGCGCGCCGCGAGTTGGCAAGACAACAATGTGCGAACAGTTCATGTCCTCGGAGAACAAAGT
GCTGGATTCGACTGATGACGACCAGCTGGACGAGTCGCAGGAGAAATTCGTGACGGTGCTGTTGGACAGTGAAGAGTACC
ACATGACCTTTCTGGACACGGAGCGGGCCGACGATCCCAAGAGCGTCATAGTGATGGATGTCGACGCCTACATGATTGTC
TTCGCTGTAGACAGCCGGCGTTCGTTCAATTTTGCCAAGCAGATCCTCAACGAGCTGGTGAGCGAAGCCAGAAAATCGGC
CGCACTCATCATTGTGGCCAACAAGTCCGACTTGGTGCGCAGCCGCGAGGTCACCAGAGATGATGCCAAGAACCTGGCCG
GGGTGTACAATGCCAAGTTTATCGAGATTTCCACCGCGTTAAATCACAACGTCGACGAACTGCTGGTAAGCATTCTCGGC
CAGATCAAGACCCAGCAGCGCAAGATGGAGAAGGAACGGAGCAAGCTCATCAGCAAGGAGAAAGACGGTCGCGGTCTGCG
AGCGTCGATGCGGCTCCGGTCGCCGAGAACAATGATTGGCAACTTTATTAAAAAGCACTTTACATCCAAGTCCTGCGAGG
AGGGCGACCACAGCTAGGCTGGTGGTGTCTGTCCTGTCTGATCTGTGTTGTCTGTCCTGTCTGATCTGTGTTGTCTGTCC
TGTCTGATCTGTGTTGTCTGTCCTGTCTGATCTGTGTTGTCTGTCCTGTCTGATCTGTGTTGTCTGTCCTGTCTGATCTG
TGTTGTCTGTCCTGTCTGATCTGTGTTGTCTGTCCTGTCTGATCTGTGTTGTCTGTCCTGTCTGATCTGTGTTGTCTGTC
CTGTCTGATCTGCGTTGTCTGTCCTGTCTGGTCTGTCATGTATTGGCTTCTTTGTCTGACCTATCTTTTCCGAAATCTAC
GTCTGTTCTTGTCCACTCGCTATTCACACATTGTCCTCTCTTTTCGTTTCTATTTCTGCTGCTTCTGGAGATATTTTAAT
TTCCGAATGACTAGTTACTAGCGACTCTAGAAAAAGCTAGCAGTCAGTTAATCATGCAGTCGATCATTAATCTTCTATCC
ATCATTTCGTGTTGGGGTTGGCCATGCCATTATATTTGCGCAGAGCAGCGCCTGAACCTCCAATCCATGCACATCCGCTT
GCACCTGTCTTAATCCGCAGCAATTACTCTATGCTATGGGCACTCTAATAAAGCGTGTGTAACCATGCAAATTGCCAGGT
TGCCCAGCCCAGGTTTTTCTTTTTTGAATAATATTCCTTGATAATGATGATTTTTCCTCAAGCCCAGGTCTTGCGTCAGT
CCGCCATAAGATTTGAGTTTCCTGCTGATAATGTACGCGCCTTCGAGGTCTAAATAGTGTACTCATAATATTGTCCAATG
CTGCTTAGCGACTGAGAATGGCAAGCTTTTAAATCAATTTTGCTTTGTTTCATTGTGTCACTTTCTGCTATTCTCACTTG
TCCACTCTCCAATCAGTCTTTTCCACTCTCCATTCAGTCTTGTCCGCTCTCCATTCAGTCTTGTCTGCTCTCCATTCAGT
CTTGTCCGCTCTCCATTCAGTCTTGTCCACTCTCCATTCAGTCTTGTCCGCTCTCCAATCAGTCTTGTCCACTCTCCAAT
CAGTCTTGTCCACTCTCCAATCAGTCTTGTCCACTCTCCATTCAGTCTTGTCCGCTCTCCATTCAGTCTTGTCCGCTCTC
CAATCAGTCTTGTCCACTCTCCAATCAGTCTTGTCCACTCTCCAATCAGTCTTGTCCACTCTCCAATCAGTCTTCTCCAC
TCTCCAATCAGTCTTGCCCACTCTCCAATCAGTCTTGTCCACTCTCCAATCAGTCTTGTCCACTCTCCATTCAGTCTTGT
CCACTCTCCAATCAGTCTTGTCCACTCTCTCCAGTTCAATTCTTGTCCTCGCCTGACATTACAAATTATACGCGAAATCA
AAATTTTACCGAGAAAATATTACTTTGTTTAAATTTGACTGTGAAAGTTTTCGACTCTTGGCGCCCAGCTTTGCGTGGCA
GCCTCCACGCCGACCCGAGGACACCTTTTGCTGCTGACTCAAACTGAACTTAATAGAAGTTGAACGTGTCCAGTTCAAAA
CTTCCCAACACGCTGCTTGCCCCTGTGCGCTTTGGTTCCGCTGTCAAAATCTTTTTTTCAAAACTCGGCTACTTTTTAGA
CATTAATTCTGTTTGCAATTCAATAAGCTTCTTGCGAACCTGTTCTATTAAGCAGCACTGTTATCCCTATTACTTTTTGT
TAAAGTCTGTCTGCATTCTTGCACGCCTCCTATGCGCCGTGAGTACTGTTACTCGTAATTACTGAAAGTGAGTGCACACT
CTTAATCGTAAATATACGCGCTTAAGCTAAATCTTTCTGAGATTTAAAATTGTCTTGTGAAAACTTAACTGTTCTACTGC
ATAAATAGATTATAACAGACCCTTAACTCTCCACCACCTCACTCCCCACCACCCAATCCCCACCACCCCACTCTCCACCA
CCTCACTCCCCACCACCGGCCATTCCCCACTACCCCACTCCCCACCACCCCACTCCAAACCACCCCACTCCCCACCACCC
CACCCCCCACCACCCCACTCCAAACCACCCTAGCCCCCACCACCCTAGCCCCCACCACCCCACTCCCCACCACCGCACTC
TCCACCACCTCACTCCCCACCACCTCACCCCACAGAAATCGATCCACACTTGTCACACCAACGGATGCCTGGCCCTGAAC
AGCAGATATCGTAATTAGTTTAGTCTTTAATTAGTCTAATCGTATCTTCTTTTTATAAATTTAGAGTCTGAATTAAAAAA
AAGAATTTCAATAAAAAGAACTGTATCAACTGGCTGCATTTGGCGGCATTACTAATAAATTATTGGTTAATCAAATAAAA
ACGAGTATATGAAAGTTAGAGTCACAGTGGGATTTCGGCGCAAATAATAACAAAGGCTTGCCTTGAAGCAGCAGGAAAGT
TTGCAATGGACCTTGAAAGC