>Mlig011801.g1 {Length: 1667} {TRANSSPLICED} {Pfam: Methyltransferase domain [PF13649.4, score=44.3]; Ribosomal protein L11 methyltransferase (PrmA) [PF06325.11, score=44.0]; Methyltransferase domain [PF08241.10, score=32.9]; Methyltransferase domain [PF13847.4, score=30.6]; Methyltransferase domain [PF12847.5, score=29.6]; Methyltransferase domain [PF13489.4, score=23.9]; Methyltransferase small domain [PF05175.12, score=23.6]; Protein of unknown function (DUF1698) [PF08003.9, score=22.1]; Mycolic acid cyclopropane synthetase [PF02353.18, score=21.6]} {Human: ENSG00000126457, PRMT1, protein arginine methyltransferase 1, [RH, Score=495, Expect=1e-176]; ENSG00000111218, PRMT8, protein arginine methyltransferase 8, [RH, Score=483, Expect=1e-171]} {Dmel: FBgn0037834, Art1, Arginine methyltransferase 1, [RH, Score=501, Expect=1e-179]} {Celegans: WBGene00013766, prmt-1, Caenorhabditis elegans Protein PRMT-1 (prmt-1) mRNA, complete cds., [RH, Score=444, Expect=1e-157]} {Smed: dd_Smed_v6_1755_0_1, [RH, Score=512, Expect=0.0]} {Smes: dd_Smes_v1_66661_1_1, [RH, Score=512, Expect=0.0]} {Smans: Smp_029240.2, [RH, Score=535, Expect=0.0]} {UniRef: UniRef50_Q99873, Protein arginine N-methyltransferase 1 n=98 Tax=Euteleostomi TaxID=117571 RepID=ANM1_HUMAN, [Score=495, Expect=1e-174]; UniRef50_Q63009, Protein arginine N-methyltransferase 1 n=406 Tax=Eukaryota TaxID=2759 RepID=ANM1_RAT, [Score=493, Expect=1e-174]} {RNA1509_635}
TCCTGAATGCAAACAATGGCAGCCAATGGTAAAGTTGGAGCAAATGGTGACGCTGTACCCGAGGATGCCTCAGCTACTGA
GATGACGTCCAAGGACTACTATTTTGACTCTTATGCCCATTTTGGCATTCACGAGGAGATGCTGAAAGATGAGGTGCGCA
CTACCACCTATAGGAATGCTATGCAGCACAATAAGCACCTGATAAGGGACAAGATTGTACTGGACGTTGGCTGCGGCACC
GGCATTCTCAGCATGTTTGCTGTCAAGTCTGGAGCTAAGCACGTCTATGCTATTGACTGCAGCAACATTATCGACCATGC
CAAGACTATTGTGCAGGCTAATGGCATGGCTGACAGGATCACGCTGATTAAGGGAAAAGTAGAAGACATCACCCTACCAG
TGGAGAAGGTGGACATCATCGTGAGCGAATGGATGGGCTACAACCTATTCTACGAGTCCATGCTCAACACCGTGATCTAT
GCTCGGGACAAATGGCTTGGCGAGAAAGGCCTGATCTTCCCCGACCGGTGCACTCTGTACCTGTGCGCTATTGAAGATCG
CCAGTACAAGGACGAGAAGATCAACTGGTGGGACAATGTGTACGGGTTTGACATGTCCTGCATCAGGCGCGTGGCCATCA
CCGAGCCTCTGGTTGATGTAGTGGATCCCAAACAGCTGGTCACCAACTGCTGCCTGCTGAAGGAGATCGACATCTACACG
GTGACCGTGGACGACCTGGAGTTCACGTCTCCGTTTAGCCTGGCCTGCCAGCGCGACGACTACATTCAAGCTTTTGTCAC
ATTCTTCAATATCGAATTCACCATGTGTCACAAGCGCACCGGCTTCTCTACTAGCCCAGATAGCCGCTACACGCATTGGA
AGCAGACGGTTTTCTACGTCGACGCCGGCGGCGACGAATACCTGACGGTGATGAAAGGCGAGGAAATCTCCGGCACTTTC
ACCATCAAGCCGAACGATAAAAATAAGCGCGATCTGGACATGCAAATCAGTATGAAATTCAACGGTCAACTGTCGCGCAT
GGACGAGACCTACTGCTACAGGATGCGCTGATTATTGCTGACCTTTTGGCCAGTAACATCGATTGCGCTTCGCTTGACAA
GCCCGAGCACGTGTTTCTTTTTCTACTAATAAACATTTATTTTTCCTAAACCAACCCCATCCGACATTTACGCGTCTCCG
GTTATTGTTGCTAAACATTTTTCTCCATTGCCTCGTTCTCTTCTGCCCCTCTCTCGGTCCTCGCTGTCGCTGCATTTTTA
TTATTAAAATAAAGAATCAACAACTTTTTGCGCGCGCGCGTTACCGCTCCGTTACTGGTTTGTTATATTTTTAAAAAAGT
TAATCGTCATTTGTCCAGCTCCCTGCTGCTTGCGTCAACTCTGTTTGTCGTAGGAAAGGAAAAGCAAGAAATCTTCTGCT
CGCGCCATAAGTGGTCAAAGCCAAGCGGCCTGGCAGGTGGCGTCTTGATGTTGGCCGTTTTTTTGTCTAAAAGATGAAGC
CAGAAAGCAAATACAACAGATTGCGAGAGAGTAATTTGACTATCTCCGTGTTGCAGCTGCAGCTGCTTTGGCATCTGGGC
CTCCCCCTTCCCAGATGGCCTTGCCGTGAAAAAAAAAACGAATATTGAGGCAAAATTGCGCAATCCT