>Mlig455_044042 {Length: 7304} {TRANSSPLICED} {Pfam: AAA domain (dynein-related subfamily) [PF07728.16, score=296.1]; Midasin AAA lid domain [PF17867.3, score=95.6]; ATPase family associated with various cellular activities (AAA) [PF07726.13, score=81.9]; ATPase family associated with various cellular activities (AAA) [PF00004.31, score=79.7]; AAA ATPase domain [PF13191.8, score=79.4]; Midasin AAA lid domain [PF17865.3, score=72.6]; P-loop containing dynein motor region [PF12775.9, score=67.5]; AAA domain [PF13401.8, score=66.8]; Sigma-54 interaction domain [PF14532.8, score=56.0]; AAA domain [PF13238.8, score=51.9]; ABC transporter [PF00005.29, score=49.0]; Threonylcarbamoyl adenosine biosynthesis protein TsaE [PF02367.19, score=45.5]; AAA domain [PF13173.8, score=41.4]; AAA domain [PF13604.8, score=39.9]; RNA helicase [PF00910.24, score=39.6]; Sigma-54 interaction domain [PF00158.28, score=38.2]; MoxR domain in the MoxR-vWA-beta-propeller ternary systems [PF20030.1, score=37.0]; Hydrolytic ATP binding site of dynein motor region [PF12774.9, score=36.2]; Rad17 P-loop domain [PF03215.17, score=34.9]; Dynein heavy chain region D6 P-loop domain [PF03028.17, score=34.1]; RsgA GTPase [PF03193.18, score=33.2]; Protein of unknown function (DUF815) [PF05673.15, score=33.0]; NACHT domain [PF05729.14, score=33.0]; Holliday junction DNA helicase RuvB P-loop domain [PF05496.14, score=30.0]; AAA domain [PF13671.8, score=30.0]; AAA domain [PF13521.8, score=29.8]; Ethanolamine utilisation - propanediol utilisation [PF10662.11, score=29.7]; ATPase domain predominantly from Archaea [PF01637.20, score=29.2]; P-loop containing region of AAA domain [PF13555.8, score=28.2]; Magnesium chelatase, subunit ChlI [PF01078.23, score=27.1]; 50S ribosome-binding GTPase [PF01926.25, score=25.4]; AAA domain (Cdc48 subfamily) [PF07724.16, score=25.4]; Zeta toxin [PF06414.14, score=24.2]; Deoxynucleoside kinase [PF01712.21, score=24.1]; Ras of Complex, Roc, domain of DAPkinase [PF08477.15, score=22.5]; Chloramphenicol phosphotransferase-like protein [PF07931.14, score=22.1]; AAA domain [PF13476.8, score=22.0]; Viral (Superfamily 1) RNA helicase [PF01443.20, score=21.3]; Conserved hypothetical ATP binding protein [PF03029.19, score=21.3]; Bacterial TniB protein [PF05621.13, score=20.6]; AAA domain [PF13481.8, score=20.3]; mRNA cleavage and polyadenylation factor CLP1 P-loop [PF16575.7, score=19.1]} {Human: ENSG00000112159, MDN1, midasin AAA ATPase 1, [Score=1132, Expect=0.0]} {Mouse: ENSMUSG00000058006, Mdn1, midasin AAA ATPase 1, [Score=1141, Expect=0.0]} {Dmel: FBgn0033661, CG13185, [Score=981, Expect=0.0]} {Celegans: WBGene00018898, F55F10.1, Midasin, [Score=784, Expect=0.0]} {Smed: dd_Smed_v6_12419_0_1, dd_Smed_v6_12419_0_1, [Score=551, Expect=5e-164]} {RNA1509_58959} {RNA1310_572.1} {RNA815_18229}
CAATCACAGCAAAATCCAGTTGCACAATTGCCGCAGGCGCAGCCGCTGCCGCAATTTTATCCAACCAAATCGGCTCGCAA
ATGCGCCAGCCTGGTCAGCCTGTGCGATCCAGGCCAGCCTCTTCTTGTCCAGGGCCCAGTTGGCTGCGGCAAGACGTCCC
TAGTTGAACTGTTAGCCAACGAGGCCGGTGCCAGCTTAGCAAAGCTGCAGCTCGGCGATCAGACAGACAGCAAAACTCTC
ATTGGCTGCTATTGTTGCACACCTGTGCCTGGCCAGTTCGTATGGAAACCCGGACCGCTATTGTCAGCTGTGCAGTCTGG
CAGTTGGCTTCTTCTAGAAGACATTGACAGCGCGCCACCTGATCTATTGAGCACCCTGCAACCGTTGATTGAGCACAAAT
CTGTGTACGTGTCGCACTATGGAGAAAGCGTCACACCTGCCGACGGGTTCCGTCTAGTGGTTACTAGGCGACTCTACCAG
AGTCTGGACGGCTACTCGTGCGCCCATAACAGCTTCCTGTCTGCCGGACACTGGCTGATGCTGCGTCTGGATCGTATCGA
TGCCGAGGACTTGGCTCAGATCATTCAGCTTAACTATCCAAACGCGGCGCCATTGACGTCGAAAATCTTGGAAATTTTCG
ACCTATTTCAAGCCGCCGACCGTGACGCGCCGCAGTCCCGGCATCGCCGCCTGGTGACTACTCGGGATCTGTTGAAATTC
TGCTCCCGACTAGAAGCCTCCGCCTCCGCCTGGCGCTATCCGCAAGCGCCAGACGACGGACCAGCCGCGCCAGTCGAGTA
CAACGCTCGGGCGGTGTTTCACGAGGCGCTCGACTGTTTCGTAGCCGCCAGCGCCGAATTCGACGAACGCAAAGCTGGCG
CTCTTCGACTAGCCCAGGCGGTCAGCCTCACTCGCGAGGAGGCGCTCGAACGTTTGAAAGGCGTCGCTTTGGACGTTGCC
GAGACGCCAAATAGCGTAATAATTGGCCGGGCTCGACTGCCGCGGCTGGACAGTCGGCCGAGTAAGCAGCGGCAGGCCGG
CGGCGGTCTGGCTTTGAATCGGGGCACAGCAAGCCTGCTGGAACGGCTGGCCGTGTGCGCTAAGCAAGGCGAGCCGGCAC
TGCTTGTAGGCGAAACCGGCTGCGGTAAGTCCGCCTGCGTCCAATACCTGGCCAACAGACTGGGCCGCAGCCTCCGCGTC
ATCAATTTGAGCCAGCAGACTGACCCGGCCGATCTCATTGGCGGCTACAAGCCTCTGCAGCTTCGCCTGATAGTAAAGCC
AGTTCGGGAACAGTTCGAACTGTTATTCGGCCAGCTGTTCAATGCGGACGGAAGTAATGATAAATTTCTGACCTACGTTC
AGCTCTGCTTTCACAGCGGCCGCTGGTCCGACCTGTTGCAGCTGATGGAGCGGCCGTTGGCTAGCGCCCTGCGCCGGTTG
CCTGGCAACGCTGATTGGCTGACACTGCGGGATCGGCTAGCCCAGCTCAGAGCTCAACTACTCGCCTGCGAGGGAGCAAA
CCAGGCAACTTCGTTCAGCTTCATCGAAGGTGCCTTAGTCGAGGCCATCCGCTCCGGCCACTGGGTGCTGCTGGACGAGA
TCAATCTGGCCACGCCCGAGACGCTGGAGTGCCTGTCCGGTTTGCTTGACCGGCCGGACGGCTCATTGGTGCTGACTGAG
CGCGGCGACTCGCAGCCGGTGCCCAGGCATCCGGACTTTCGCTTGTTCGCCTGCATGAACCCGGCCACAGATGCTGGGAA
ACACAATCTGCCTATTGGTGTCCGCAACCGGTTCACTGAGCTGGCATTTGCCGAACCTGACGATGACACTGACTTGGCTC
ACCTGGTCAGCCACTACCTGGCCGCCCTCAGTCCCAGCGCCGCCCAGGTGGCCGGCATTGTCCGATTCTACCGGCGCGTC
CGCTCGGCCGCCGACTCGACGCTCTGCGACGCTTCAGGCCTGCGTCCGCACTTCAGCCTTCGCAGCCTTTGCCGCGCCCT
ACGCGAAGCCGGCCGCGACGCCTATAGAAATGCGCCCCGATCGCTGTACGAAGGCTTTGCTTTCGCCTTCTTGGCCCAGC
TGGACAAGCTGTCTGCTCTGGCCGTCGAGCGAATGATTGCTAATGATATACTCGGCTGTCAGCAGCTGCCTACCTTTCAG
ACGCCGCCCAGGCCCATAGACGACGCCGGCACCCAAGACGGCGCCAGTCGCTACATCCTGGTTGAGAACTATTGGATCCG
GCGCGGCCCTTTGCAGCCAGCCACTCAGCCGCGCTACGTTCTGACCGCCTCTATCAAAGAGAATCTCCGTTGCTTAGCCC
GGATCGTGTCAGCCGGCAGTCTGCCCGTGCTAATCCAAGGCGAAACCTCCGTTGGTAAAACTTCTCTAATCCGCTACCTG
GCTGAGCTGACTGGCAACGAGTGCTTGCGGATTAATAATCACGAGCACACCGAGATTGCTGAGTACGTTGGTAACTATGC
GTCTGACCGGGATGGCCGGCTCGTGTTTCAGGAGGGCCCGCTCGTGCAAGCGATGCGCCGCGGCTCCTGGATAGTGCTAG
ACGAACTGAACCTGGCGGCCAGCGACGTGCTCGAAGCTCTCAATCGAGTTCTAGACGACAATCGTGAGCTATTCGTAGCT
GAGACTCAAGACACGATCCGAGCTCATCCTCACTTTATGCTGTTTGCTACTCAGAATCCGCCCGGCCTGTACGGCGGTCG
GAAACGACTGTCCAGAGCTCTGCGCAATCGATTTGTTGAGCTGCATTTTCAACCGATACCCAGGCCGGAGCTGGAGCTCA
TACTGCAGCGGCGTTGCGACTTGCCGTTGTCGCGTTGCGCTAAACTAGTAGAAGCAATGCACCAGCTGCAGGCGAGGCGC
AAGCGGACGGGGATATTCCAGGGCAAGGACGGATTTGTCACGCTCAGGGATCTGTTCCGATGGGCTGAGCGGCATCGGCT
GTTTACTTTGCCAGACTCAAAGCAGACCCTGTTCGACTGGGACCAGTTCCTAGCTGAGCAGGGCTACCTGCTCCTAGCCG
GTCGGGCCCGCGATCCAACCGACGCTGCCGACGTTCAGTCGGTGCTGGAGTCGGTATTCCGACGTCGCCTATCCGAGTCG
GAACTGTTCGATTTGCACGATAAAACATCGCCAGTTAGTAAGCAGATTTTAACAGACTGTCGCACTGCTCTGGCTAATGA
TGCTGATGCTGGTGATGATGAAGCTTCTCATCAACAGCTGGCCTGGACTCGCGAATTGCGCCGGCTGTGCGTGCTGCTTG
GCAACTGTCAGAAATTCGGCGAGCCGGCTCTGCTGATCGGACCGACAGGCGTTGGCAAGACTACGGTGTGCCAAGCTCTG
GCTGAAATGCGGCGCCAGGATCTGCTGACACTGAATTGTCACATGAATACTGAGGCTGCTGACTTTCTTGGCAGCCTGAG
GCCTGTCAGGGAGCGGCGGATTGACGCCTCGGAGGAGCAACAATCGCAGCCGGTCATTCCAATGTTTGAATGGGTCGACG
GAGTCCTAGTCCAGGCGATGCGCCGCGGCGCCGACCTTCTAGTTGACGAGATCTCCTTAGCTGACGACTCGGTGCTGGAG
CGACTGAACAGCGTGCTGGAGCCGGAGCGCGAGCTGGTGCTGGCCGAGCGCTCTCGCACCGGCGACGGCGGCAACACAGT
CGAAGTATTGAAAGCTTTGCCAGAATTTCGCCTAGTGGCCACAATGAACCCTGGCGGCGATTTCGGCAAAAAGGAACTAT
CACCGGCTTTGCGCAACCGGTTCACGGAGATCTGGTGTCCTCAGCCGGCCTCTCTGCTGCCGATTGTAGCCAGAAATCTT
GGCCAACAGTTGGCCCATCTGGCCAAGCCTATGGCCGACCTGCTGACCGAAGCGGCCAAGGCGGCGCCAACAGACGATGG
CCGGCTGACTGTGAGCGCCCGCACCGCCCTGGTCTGGGTGGCCTTCGTTAGGCAGCGTCGGCAAGCTGACCGGCTGCCAG
CTGAGCTGGCCTTCCTGCACGGCTACCAGATGACCTGCCTGGATCCGCTTGGGGACGCCGCTGACCAGTCAGTGACCACC
AGGCTGCTCTCTGAGGCGGTCGCCCAGCTCCGCTCCTGCTGCCTCTCTGCCGGCCTGTACACTGCCAAATCGTTTGAGGC
TAAAATTGTCCGACCGTTTGTTGAGTCAGCCAAGCCTGGCTCCGTGCTGCCACTGACTGTCTCTGTTGAGGAGCGGCAGT
TTGGCATTGAGCCATTTTTTATTGATATGGGTGAGAGAATGCGTACCACAGATGGCACTTGCACTGTGATTCGAGTATCA
CCCGGGACACCCCACCCACCTCAACCCAGGATCACATCGAAATCAATCCAGAATTACATCAAAATCACTACAGAATCGCA
TCAAAATCACTCCAGAATCACATCAAAATCACCCCAGAGTCACATCAAAATCACTCCAGAATCGCATCAAAATCACTCCA
GAATCACATCAAAATCACCCCAGAGTCACATCAAAATAACTTCAGAATTACATCGAAATCACTCCAGAATTACATCAAAA
TCACTCCAGAATTACATCAAAATCACCCCAGAGTCACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCG
GATAAAATCACCCCAGAGTCACATCAAAATCACTCCAGAATCACATCAAAATCACCCCAGAGTCACATCAAAATCACCCC
AGAATCGCATCAAAATCACTCCAGAATCACATCAAAATCACCCCGGAGTCACATCAAAATAACTTCAGAATTACATCGAA
ATCACTCCAGAATTACATCAAAATCACTCCAGAATTACATCAAAATCACCCCAGAGTCACATCAAAATCACCCCAGAATC
ACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAATCACCC
CAGAATCACATCAAAATCACCCCAGAGTCACATCAAAATAACTTCAGAATTACATCGAAATCACTCCAGAATTACATCAA
AATCACCCCAGAGTCACATCAAAATCACCCCAGAATTACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAAT
CGGATAAAATCACCCCAGAGTCACATCAAAATCACCCCAGAATCACATCAAAATCACTCCAGAATTACATCAAAATCACC
CCAGAATCGCATCAAAATCACTCCAGAATCACATCAAAATCACTCCAGAATCACATCAAAATCACTCCAGAATCACATCA
AAATCACCCCAGAATCACCTCAGAATCACCTCAGAATCGCATCAAAATCACCCCAGAATCACCTCAAAGTCACCTCAGAA
TCGCATCAAAATCACTCCAGAATCACATCAAAATCACCCCGGAGTCACATCAAAATAACTTCAGAATTACATCGAAATCA
CTCCAGAATTACATCAAAATCACTCCAGAATTACATCAAAATCACCCCAGAGTCACATCAAAATCACCCCAGAATCACAT
CAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAATCACTCCAGA
ATCACATCAAAATCACCCCAGAGTCACATCAAAATAACTTCAGAATTACATCGAAATCACTCCAGAATTACATCAAAATC
ACTCCAGAATTACATCAAAATCACCCCAGAGTCACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGA
TAAAATCACCCCAGAGTCACATCAAAATCACTCCAGAATCACATCAAAATCACCCCAGAGTCACATCAAAATCACCCCAG
AATCGCATCAAAATCACTCCAGAATCACATCAAAATCACCCCGGAGTCACATCAAAATAACTTCAGAATTACATCGAAAT
CACTCCAGAATTACATCAAAATCACTCCAGAATTACATCAAAATCACCCCAGAGTCACATCAAAATCACCCCAGAATCAC
ATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAATCACTCCA
GAATTACATCCAAATCACCCCAGAGTCACATAAAAATCACCCCAGAATCACATCAAAACCACCTCAAAATCACATAAAAA
TCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAATCACTCCAGAATCACATCAAAATCACCCCAGAGTCAC
ATCAAAATAACTTCAGAATTACATCGAAATCACTCCAGAATTACATCAAAATCACTCCAGAATTACATCAAAATCACCCC
AGAGTCACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAA
TCACTCCAGAATCACATCAAAATCACCCCAGAGTCACATCAAAATCACTCAAGAATCGCATCAAAATCACTCCAGAATCA
CATCAAAATCACCCCAGGGTCACATCAAAATAACTTCAGAATTACATCGAAATCACTCCAGAATTACATCAAAATCACTC
CAGAATTACATCAAAATCACCCCAGAGTCACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAA
ATCACCCCAGAGTCACATCAAAATCACTCCAGAATCACATCAAAATCACCCCAGAGTCACATCAAAATCACTCCAGAATC
GCATCAAAATCACTCCAGAATCACATCAAAATCACCCCGGAGTCACATCAAAATAACTTCAGAATTACATCGAAATCACT
CCAGAATTACATCAAAATCACTCCAGAATTACATCAAAATCACCCCAGAGTCACATCAAAATCACCCCAGAATCACATCA
AAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAATCACCCCAGAAT
TACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAAAATCACCCCAGAGTCACATCAAAATCACC
CCAGAATCACACCAAAATCACCCCAGAGTCACATCAAAACCACCTCAAAATCACATAAAAATCACCCCAAAATCGGATAA
AATCACCCCAGAGTCACATCAAAATCACCCCAGAATCGCATCAAAATCACTCCAGAATCACATCAAAATCACTCCAGAAT
CACATCAAAATCACTCCAGAATCACCTCAAAGTCACCTCAGAATCGCATCAAAATCACTCCAGAATCGCATCAAAATCAC
CTCAGAATCACATCAAAATCACCCC