>Mlig014767.g2 {Length: 2378} {Pfam: Methyltransferase domain [PF13649.4, score=57.4]; Methyltransferase domain [PF08241.10, score=54.5]; Methyltransferase domain [PF13847.4, score=52.0]; Methyltransferase domain [PF08242.10, score=43.9]; Methyltransferase small domain [PF05175.12, score=40.9]; Methyltransferase domain [PF13489.4, score=37.9]; Nodulation protein S (NodS) [PF05401.9, score=34.8]; Ribosomal protein L11 methyltransferase (PrmA) [PF06325.11, score=28.1]; ubiE/COQ5 methyltransferase family [PF01209.16, score=22.7]; Mycolic acid cyclopropane synthetase [PF02353.18, score=18.5]} {Human: ENSG00000132423, COQ3, coenzyme Q3 homolog, methyltransferase (S. cerevisiae), [Score=48.5, Expect=6e-06]} {Celegans: WBGene00016023, prmt-6, Caenorhabditis elegans Protein PRMT-6 (prmt-6) mRNA, complete cds., [RH, Score=63.2, Expect=2e-11]} {UniRef: UniRef50_UPI000836C0E7, UPI000836C0E7 related cluster n=1 Tax=unknown TaxID= RepID=UPI000836C0E7, [Score=113, Expect=2e-27]; UniRef50_UPI00078157EE, UPI00078157EE related cluster n=1 Tax=unknown TaxID= RepID=UPI00078157EE, [Score=112, Expect=2e-27]} {RNA1509_32668, RNA1509_55622}
CACGTGATCTCTAGAGCTGCGATCAAATAGGTAAACAGCCTGAGGAATCCTCCCCCCCCCGACCCGCCCGCCCGCCCCCC
CCCCACCCGCAACCCCTAGTTTATAAGTATCCCACGGGCCAGGCCAGGGTTGGGTGCTCATGCACTGCCTAAGCCGCTCC
GGTAGTCGCCTGTTGCGCGAACCAGTCGCTCCAGTTCTAAAGCTGCTGCTAGCTCGGTGCCAGATGACCGACAACTCGCC
GTTAGACTTTGCCCAGCTCGCCATCGAGCGCTACCAGGCCTTCAAGCGCTCGTCGCCGTTCGCCATCCACTGCGAGGAGT
ACAGCCTGTTGAAAAGTATCGGCAACTCCCTAGCTGGCTGCCAGGTGCTGGACCTCGGCTGCGGCTGGGGCTGCTACACG
CGCAAGCTGGCCGAGCTGGCGCCGGCGGCCATCGTAGCCACCGACGCCTCCGGCGATGCCATCAGCCTGGCCAAGGTCTA
CAACAATGGTAGCAGCCTGGTGGAGTACAGGGTGGAGGACTGCGCTGAACTGCCCGACAGGAACAGATTCGACCTGATCG
TGGCCAACTTCCTGCTGCCATTCAACGCCAACGTCGATCTGCTGCGCCGCACCTGCGCCAACATCTACGCTGCGCTCAGG
CCGGGTGGCCGGCTTGTCGGCTTCCTGCCAAACTGCTTTCAGGGCGTTGATTTCAGCCGCGAGATGGTTGGCCGCCAGGT
AAATGGAATCTACGAGGTGCCAGCCAACCCAGTGGACGGCAGCGAGATAAACCTGGTGCTGTTCACCAGCCCGACGGAGA
CGCGGATTCCGCTACGCTGGTACCACCGGGAAACCTATCGGACTGCGCTGCTGGATGCGGGCTTCGAGGCCTCGAAACTG
CGGCTGGAGAAACCGGAAGTGTCGCCAGCCGGCCAGGCCATGTTCGAGCCGGGCTTCTGGGACAGCATCGTGGGCCAACC
GGCCGCACTGCTGATGAATGCCACCAAGTGATGAAAGGAATTGTTATGAGCATATACCAAGGACTACAAGGACGCGTTGC
CCTCGAAAAGTCGTAGAGATTTAAGCCTAACCGGTTTTATTAGCCAAGATTAGTCCCTCTGGGGTGAATGGAAATAAGAA
CTGGTTTCTAAAAATAGCAACCAGTCATACCGTCAGCCAATGAAATTTATTGGCTCGCCAGTCTCGGGGTAGAATGGAGC
TGAGTAATAGCGTTTCTAAGAATAGCAACCAGTCATACCGCCAGCCAATGAAATTTATTGGCTCGCCAGTCTCGGGGTAG
AATGGAGCTGAGTAATAGCGTTTCTAAGAATAGCAACCAGTCATACCGTCAGCCAATGAAATTTATTGGCTCGCCAGTCT
CGGGGTAGAATGGAGCTGAGTAATAGCGTTTCTAAGAATAGCAACCAGTCATACCGTCAGCCAATGAAATTTATTGGCTC
GCTAGTCTCGGGGGTAGAATGGATCGGAAAAATGGTTTCTAAAAATAGCAACCTACCAGCTGATGAAATTTGTACGCCCG
ATTCCCATCTAAAGTGCCGGCGTTCTAAGGAGTTCTAGCTTAAGAAACCCATTCTGTGATACAACTTAGGCGTTATGATA
ACCCAAACGAAACCGCATGTCTATACATACAGTACATGCATGTACACTACGAGCTTATACTCGTGGCCTGTCTTTATATG
AAAAAAGGAATATTGAATACTTTTAATTGAACATCTTACTAAAGATCTTTGTGTCGTTATAACTAATTTACTCTTCTTCC
CTGTAGAAGTTGTCTTAATCACCGAATGATCTCATCAAGCCCTTTATTATGACACCGTCGGACTGCTCATAATTGGGTAA
ATAATCGGAATTTTTTGTTTGTACAAAACTCGGTGTTGTAAACAACCTTATCTATTTACCGCACCTGGTGTCAATACTGC
ATTGTTATGATTTATTTCATTAGACTTATACTTAATATCTTAGCTCTCGTTTAAATATTCCACTGCACTTTAATAACAAA
GTACATAAAATGTACAAGGCTTCAATCTGACGCTTTCCATTTCGCATTGGCTCTCCAAACATTTTTGTCATTATTTTTAT
TTATTACTGCTAATTCGTTTCTAAAAATGTTTTTTATATTTTAATTCGAAAAAATAATAAATCTTCGAATAGCAGCAGCA
GGCCGCGCCTTTTATACCCCTATAGCTTGTAGCTATCAATCTGATTGGCTGGCAGTGACTCGTGCTTTAATCGCTGAAAT
AGTGCATGTACGTACAGTCGTAAACGTACTTTTTCAAGCTTTTGACTCACAAGCTGTAAAATTTCGCGAAGCCCAAATTT
GAATTAAAAAGTGGCAGCTCGAACTGGCCCGCAAAATATCAACAAAAAACTGTTAAGT