>Mlig026617.g1 {Length: 2100} {Pfam: SecY translocase [PF00344.18, score=253.1]; Plug domain of Sec61p [PF10559.7, score=67.0]} {Human: ENSG00000065665, SEC61A2, Sec61 alpha 2 subunit (S. cerevisiae), [RH, Score=854, Expect=0.0]; ENSG00000058262, SEC61A1, Sec61 alpha 1 subunit (S. cerevisiae), [RH, Score=851, Expect=0.0]} {Dmel: FBgn0086357, Sec61alpha, Sec61 alpha subunit, [RH, Score=863, Expect=0.0]} {Celegans: WBGene00013311, sec-61, Caenorhabditis elegans Protein Y57G11C.15, isoform b (Y57G11C.15) mRNA, complete cds., [RH, Score=840, Expect=0.0]} {Smed: dd_Smed_v6_282_0_1, [RH, Score=830, Expect=0.0]} {Smes: dd_Smes_v1_42446_1_1, [RH, Score=830, Expect=0.0]} {Smans: Smp_053820.1, [RH, Score=785, Expect=0.0]} {UniRef: UniRef50_P61619, Protein transport protein Sec61 subunit alpha isoform 1 n=941 Tax=Eukaryota TaxID=2759 RepID=S61A1_HUMAN, [Score=851, Expect=0.0]} {RNA1509_1223, RNA1509_40714, RNA1509_4540, RNA1509_7703} ATACCACAGACTTTTAATCATTCGCCTCAACAACCGTCTCAAGATATTGCTGTGATTCTAAAGTTCTGTCAAATCACATT TAAGTACTGAAAAATTCATCATGGGAATCAAATTCCTGGAGTTCGTGAAGCCGTTCTGTGCCGTCCTTCCCGAGATTGCG AAGCCAGAACGAAAGATTCAATTTAGAGAAAAGGTTCTATGGACCGCCATAACTCTGTTTATCTTCCTGGTGTGCTGCCA GATTCCACTGTTTGGAATCATGTCCTCTGATTCGGCCGATCCATTCTACTGGCTTCGTGTAATCATGGCTTCTAACCGTG GCACCCTTATGGAGCTGGGTATCACCCCGATCGTTACCAGCGGTCTCATCATGCAGCTTCTTGCAGGCGCCAAGATCATT GAGGTGGGTGATACCCCCAAGGATCGAGCCCTTTTCAACGGCGCTCAAAAGCTATTTGGCATGATCATCACCCTTGGACA GTCCATTGTGTATGTCATGACTGGAATGTACGGAGACGTGAGTGAGCTTGGAGCTGGCATTGCTCTGCTCATCATTTTCC AGCTTACTTTCGCCGGCCTAATCGTTCTCATGCTTGACGAGCTGCTGCAGAAAGGCTATGGTCTGGGCTCTGGTATCTCA CTCTTCATTGCCACCAACATCTGCGAGACCATCGTTTGGAAGGCCTTCAGCCCCGCCACGATCAACACTGGCCGTGGCAC CGAGTTTGAAGGTGCCATCATCGCCTTGTTCCATTTGCTGGCCACCCGCCAGGACAAGATCCGCGCCCTCCGGGAGGCCT TCTACCGCCAGAACCTGCCGAACCTCATGAACCTTGGCTCAACTGTGCTGGTCTTTGCCGTGGTCATATACTTCCAAGGC TTCCGCGTGGACCTGCCGATCAAGTCGTCCCGCTACCGTGGCCAGTACAGCAGCTACCCCATCAAGCTGTTCTACACATC CAACATTCCCATTATCCTCCAGTCCGCTCTCGTTTCCAACCTGTATGTCATTTCCCAAATGCTGTCAAACAAGTTCGCTG GCAACTTCATCATCAACCTGCTGGGAGTCTGGGCCAACTCGGAGGATGGCGGCCCCGCCCGCTCCTACCCCACCGGCGGC CTGTGCTACTACATGAGCCCGCCAGAGAGCCTCGGCCACGTTCTCATTGACCCAATCCATGCCGTGCTGTACATCACCTT CATGCTGGGCTCCTGCGCTTTCTTCTCCAAGACCTGGATTGACGTCAGCGGCTCCTCCGCCAAGGATGTGGCCAAGCAGC TGAAGGACCAGCAGATGGTGATGCGTGGACACCGCGAGCACTCCATGGTGCACGAGCTTAACAGGTACATCCCGACTGCA GCCGCATTTGGTGGTCTGTGCATCGGTGCCCTGTCCGTGCTGGCCGACTTCCTGGGCGCCATCGGCTCCGGTACCGGCAT CCTGCTGGCCGTCACCATCATCTATCAGTACTTTGAAATCTTTGTCAAGGAGCAGAGCGAGGCCGGCAGCATGTCCTCCC TGCTCTTCTAGGCTCTGACTCTGACCTTTTAAACTTCTTTGTTTTCTCTGCTCTCGATTTCTGTTTTCGTTTTTCTCTTA TAAGACCGTAGGCGTTTAACTGCGGCCCGCTGACCGCGAATTTCGACTGTAACTCTCCTCACTAGGCACCTAGGATCATC TTTGCATGTAAAATACGCAGGAATATTTAGTGAAATTATCTGATGTTATTTTCTATAGCTTATCATTATATTTGAATGCT TTGGATTGCGTCAGTTTGACAAATGGTCACTATTGTAGGAGTTCCTGACCTGAAATCATTGTTGCTGCATTGGTCGCTCG TGGACAGCAGATTCAGGCAGTTTTAGTGCATCAAGTTCTTAATATTTATTTTGTGCACTTCTCCGCGCTGAAGCAGGGCT ATTGATTAATGCAGTCAGTGTTATTCGCATCTTCTGGCGTGCTTGTGCAAATTTCTATGACCAGTGACCAACATTCTTGC AAAAGCAATAATATAGACTCAATCGCCATTATTGCCCGTAATAAACTGGAGTTAAGATTTGCCTCTTGTGGCACTGAGTC ATTTGTCTGCAATAGCCTGG