>Mlig455_007762 {Length: 3355} {TRANSSPLICED} {Pfam: von Willebrand factor type A domain [PF13519.8, score=59.8]; RAP80 N-terminal ubiquitin interaction motif [PF18282.3, score=21.8]; Ubiquitin interaction motif [PF02809.22, score=20.7]} {Human: ENSG00000159352, PSMD4, proteasome 26S subunit, non-ATPase 4, [RH, Score=342, Expect=6e-115]} {Mouse: ENSMUSG00000005625, Psmd4, proteasome (prosome, macropain) 26S subunit, non-ATPase, 4, [RH, Score=341, Expect=1e-114]} {Dmel: FBgn0015283, Rpn10, Regulatory particle non-ATPase 10, [RH, Score=317, Expect=6e-105]} {Celegans: WBGene00004466, rpn-10, 26S proteasome non-ATPase regulatory subunit 4, [RH, Score=214, Expect=9e-66]} {Smed: dd_Smed_v6_1231_0_1, dd_Smed_v6_1231_0_1, [RH, Score=245, Expect=6e-78]} {RNA1509_19280, RNA1509_20122, RNA1509_2886, RNA1509_8983} {RNA1310_11583, RNA1509_19280, RNA1509_20122, RNA1509_8983} {RNA1509_19280, RNA1509_20122, RNA1509_8983, RNA815_4417}
CTTTTCTCTTTTTCGGCTACAAAAAATTAGACTGATTGATAATAATATCATACAGCATGGTACTCGAAGCCACCGTTATC
TGCGTAGACAATTCCGATTACGCTCGGAATGGCGATTTTGTGCCCACAAGACTGCTGGCCCAGCAGGACGCTGTCAGTTT
GGTTTGCCATTCTAAGAAGTCCAACGCTGAGAATACGGTCGGTTTAATCTGCATGGCTGGCGCCGAAGTGCTGGTGACTC
TGTCCCCGGACGCCCAGAAGGTCATGTCCCGGCTGCAGTCTGTGCAGCCCCGGGGCAGCATCCAGTTTAGTACATCGATT
CGCATCGCTCACTTGGCCCTGCGACACAGGCAGAGTCGAAATCAGCGAATGCGCATTGTGGCCTTCGTTGGCTCGCCTAT
TGCCGAGGACGAGAAGGATCTGATTCGCCTGGGCAAACGGCTTAAAAAGGAGAATGTCAGTCTAGACGTGGTCAACTTTG
GCGAGGAGGAGGCCAACCAGACCAAACTGACCGCCATGCTGGATGCTGTGAATGGCAAAGACGGCACCGGCTCTCATCTG
GTTACCGTTACGGCCGGATCTATGCTTCACGATAGCCTGATGGTAAGCCCAATCGTTGTCGGCGAAGACGGCGCCGGCTC
GCTGCCGCCGGGCTACGGCGGCGGCTACGACTTCGGCGTCGACGCCCAGGACGACCCGGAGCTGGCACTGGCTCTGCGCG
TCTCCATGGAGGAGCAGCGGGCCAGGCAGGAGCAGCAAAACGCCAATCAGGAGGGCTCCGGCAGCCTAGCCGGCGGTGTT
GTGGCCGCCTCGACTGGCGCCGGCACCGGCGCTGGCAGCGAAGCGCCACGCAACCCCGAGGAGGCGATGCTGGCTAGGGT
TATGGGCGGCGCTGATACTGGCGTCTCCATGGACACGGACATCGACATGCTGGCCAGCATGACCGAAGATGAGCAAATCG
CGATGGCGCTGCGCATGTCCCTCCAACCCGAGCTTGGTGCCGAGACCCCGGCGCCAACTGCCAGTGCCGCGGCCGCCGCT
GCGGGCGGCGCCGGCGCCGCTTCTGGTGCCGCTTCTGGCTCGTCTAGCGAAGGCCGCCTCGATCCGCCTAGCAAGAAAAT
CAAAGTCGACCCGTCCGAAGATCTCAAATCCGGCTCAGCAGCCGCCGATGACGACGAGGCCCTCGAGGACCCGGAATTCC
TGGAAAGCGTGCTCCAAGGCCTGCCGGGCGTGGACCCGAAATCCGCCGAAGTTCAAGCCGCCCTGCGCAATAGGAAGCGC
GACAAAGACGGCGGCAATGAGGGCGGCAGCGGCGGCGGCGGCAGCGGAGCAGCTTGATTCATTAATTTTATTACCTGCTT
TATTAATCCTTACCTATTACTGTCTGACTAAAAACTCGTTGGTTTGTTTTCGGCTCTCATTAATTAACTGCGCGCCTCTT
TTGTTATTCTTAGGAGAAACTATTAAGATATGGCTACCTAGCAACGGGTGTGTTTACCTTGGATACCGGTAGTTTTGTGG
ATTTTCCGTGTAGCTTAAATACTCTGCATAGCAACGGTGTGTTTACCTTGGATACCGGTAGTTTCGTGGATTTTCCGTGT
AGCTTAAATACTCTGCTAGCAACGGTGTGTTTACCTTGGATTCCGGTAGTTTTGTGGATTTTCCGTGTAGCTTAAATACT
CTGCATAGCAACGGGTGTGTTTACCTTGGATACCGGTAGTTTTGTGGATTTTCCGTGTAGCTTAAATACTCTGCATAGCA
ACGGTGTGTTTACCTTGGATACCGGTAGTTTCGTGGATTTTCCGTGTAGCTTAAATACTCTGCATAGCAACGGTGTGTTT
ACCTTGGATACCGGTAGTTTTGTGGATTTTCCGTGTAGCTTAAATACTCTGCATAGCAACGGGTGTGTTTACCTTGGATA
CCGGCAGTTTTTCGGATTTTCCGTGTAGCTTAAATACTCTGCATAGCAACGGGTGTGTTTACCTTGGATACCGCTACCTA
TAGTGAACAGAAAATTGCTTCCTTATCTACCGCCCTACCATAACTACGCGACTTAAGTTGCCTTGGGTACCAACGACTCC
TGTGTACTTTTATATTTGCAGCAAAGCTATGTACTATTAAATCAATTCAAAAGTTTGTCAATACTTGTACGATCTATTTG
CAACCGTAGTAAAGCAAACACCACTATTAATAAAAGTTTATATTTTCCTTTATTCCGCTCCAATTCGGCTTGTCTAAACT
ACTTCAAGTAGCAATGCATGAATATGACTATTCAATTTGCTAATAAAGAATCAAATTGGCAATTGGCATTTTTTCTGCAA
AAAAGCAAATAAAATTTAAAGTGCGTACTAATACGATCATTTAGCTTTGTCACCTCTTTTCCCCAAGTCTTTTAACTTCA
GCAAAAAAGTTTAAATAATACTAAACAATGGGAATATCTGCCGTCTTGCGCTTCATATGCTGTTGCTGCTAAAAGAAGAC
AAATTTTGCCTGGCCTGAAAGGCATCAATTGTTTGACTTTGTTTTCGTGTTTTCTTTAATAAAACTGACCCAACGAAACA
TGCCAAGTGGACTACTCGCGAAAACCAGATGAAGCCTTCATTTATTGATTCGTCCTTGAAATGCAGATCATTTGTAATCT
TGATCGCATGCTGTAAAGTGTAAACCACATTGTTGTTCAGGCATCGCGCGTCCTTCGAGTCATAAAAATACAGTAAGATG
GCTGCTGTATGCTGTCACGTTATTTTTTGTTTACTAAGCACAGTGGCCAGTGGGTAGCTTTGGTCTCAGAATTAGCACGG
CCCAAGAGTCCAAAATCCAGACCAGACAATGTGCCTTAGTCACCTGATGATGCTGGCAGCCTCAGGGCAGACCACAGATA
TTATAGTAATCTACAGACAGACAGACAGACATCAAGAGAGTTGAGTGAGAATTACAGTATGTAATGGAATTCTTCGCTTC
TCTCGAAGAGTCGCAGTAAATACTGGTATAAAGCCTGTTTCTTTCATTGTCAGCACGCCTCAGACAGGATTCTGTGAGCG
TCTTAAGGTCGTTATTTGACGGCGAATGTACATATGAAATGTACGCAACCCTAGAGAGGGAGAGAGAGTGGGGAGGGTGT
TAAATTCTGGCACTCCAATTTAAAGACTTTCTAGTGGAAAATTCCACTCCAATAAAACCTTGTGTGTCCGTTTACTATTG
GCTACAATAATCACTCAACCCCAAAGCGCCACCCTCCTCTATCCCCTACTAGCGAGACCCCCTCCAACCCCCCCTCTATA
AATTAATCGGACGAAAGCGCAGTTGAGGCTTCGCCTGCCTTCTTTTTTGACACATTTTTAAATGGAGTCAATTCTG