>Mlig455_007999 {Length: 3215} {TRANSSPLICED} {Pfam: DnaJ domain [PF00226.33, score=93.3]} {Human: ENSG00000090520, DNAJB11, DnaJ heat shock protein family (Hsp40) member B11, [Score=85.1, Expect=9e-18]; ENSG00000147570, DNAJC5B, DnaJ heat shock protein family (Hsp40) member C5 beta, [Score=83.2, Expect=4e-18]; ENSG00000140403, DNAJA4, DnaJ heat shock protein family (Hsp40) member A4, [Score=82.0, Expect=2e-17]; ENSG00000179407, DNAJB8, DnaJ heat shock protein family (Hsp40) member B8, [Score=80.9, Expect=6e-17]} {Mouse: ENSMUSG00000090202, 4930503B20Rik, RIKEN cDNA 4930503B20 gene, [RH, Score=82.4, Expect=1e-17]} {Dmel: FBgn0004179, Csp, Cysteine string protein, [Score=79.0, Expect=1e-16]} {Celegans: WBGene00001034, dnj-16, DNaJ domain (Prokaryotic heat shock protein), [RH, Score=335, Expect=5e-113]} {Smed: dd_Smed_v6_1779_0_1, dd_Smed_v6_1779_0_1, [Score=80.1, Expect=2e-17]} {RNA1509_12015, RNA1509_14449, RNA1509_29413, RNA1509_55977} {RNA1310_24689, RNA1509_12015, RNA1509_14449, RNA1509_29413, RNA1509_55977} {RNA1509_12015, RNA1509_14449, RNA1509_29413, RNA1509_55977, RNA815_10612}
CAGAAGCAGCAATGGCCAGCAGCGGCAGCAATGGGGGCGGCAAGCGGAAGGATTACTACGAGCTGCTGGGCGTGGAGAAG
TCCGCCAGCGCAGCCGAAATCAAGAACGCCTACAGGAAGCTGGCCATCCGGCTTCATCCGGACAAAAACCCTGGCGACGC
CGCCGCGGCCGAGAAGTTCAAGGAGGTGAGCATCGCCTACGCAGTGCTCAGCGACCCCAACAAGCGGCACCAGTACGATC
GCGGCCGCCAGCTCGGCGAGGGCGCCAACCTCATGGACTTCGAAGGCGTCAACATGGATGAGGTGGGAGGCCTTGGCCGC
GTGTTCGGCGCCCTGTTCAGCAGCCTAGGAGTGCCGATTCCCACCCAGATTGCGCCCAAGGTGCTGTCCCAGGCCTGCCA
GCTCGTCACCGGCGAGACGCCAGCCGACACCGTCGCCACTCTGGTGCCGGGAAGGCAGGTGGAGGACCGCGTGGAGCGGC
AGGCGGCCCGCTTCTACTGGCTCAATGTGGACGAGGCGGCCGCAGCCAGCGGGGTGCTGCTGCTGGCGCACAGCTCCTCC
TCCTCCAAGTTCAAGCTGGTGCTGTTCGACAAGGAGGGCGGGGTGCGCACCATCGAGGAGTCCTGCCGTAGCAGCGCTGG
TCGGCCGTCCGGGACACACGCGGACATGTTCCTGGTGCCCTTCGACCGCATGCACCTCTCAGAGCTCTTCCCGCTGCGCT
TCCTGCAGGAGGACAAGGACACGCCCATCAGCTTCTACCTGCTGCACATGTATGAGCCGGCGCACAGCATCTCCCTGAAC
CCCGGCAAGCACCTGGTGTGCCTGTACGGAGACAACTGGCTGCAGGACGTGAAGTACACCTTGCGCATGGTGGTGGGCGA
GCCCTCAAACTGCCAGCAGGTGCAGCAGATCAAGTCAGTGGAGGCCAGCCTGCGAACCAAGAAGGACGAGCTGGCCAAGT
TCAAGGACGAGTACATGGAGGCCGCCAGGCGCTACCAGGAGGCCTGCCAGCGGCTTGAGGAGGAGACCAAGGAGGTGCAG
GAGCTGATCAAGCAGCGGGAGGCCAGCTATCAGGAGTACATCGCGGCCGCCCAAGCCAAACACGGCCCCGTCACCAGCGT
CAGCAACTCGCCCAAGAAAACAGGACTGGGGGGACTTTTTGGCGACTTTTTCAAGTAGTTTGTCGGGTGTCCAAGTGGTA
CTGGGAGCCTCTTGATTTTGTACTTTCCATCCGCTGGGCCTCTGCCGTTCCAAGCTTGCATAAAGCTTTTGCAAAAGTAA
TATCAACTGCATAGAGAGTTTTATTTATAGCAGATTAAGATTTTTTATGACCACTGGACTGGGGGGACTTTTTGGCGACT
TTTTCAAGTAGTTATCGGGTTGTCCAAGTGGTACTGGGAGCCTCTTGATTTTGTACTTTCCATCCGCTGGGCCCCTGCCG
TTCCAAGCTTGCATAAAGCTTTTGCAAAAGTAATATCAACTGCATAGAGAGTTTTATTTATAGCAGATTAAGATTTTTTA
TGACCACTGGGCTGGGTCATAGACACCACAGTTTATGAGCATCGAGCTGGGTCATAGACACCACAGTTTATTATCATCGA
GCTGGGTCATAGACACCACAGTTTATGAGCATCGAGCTGGGTCATAGACACCACAGTTTATTATCATCGAGCTGGGTCAT
AGACACCACAGTTTATGAGCATCGAGCTGGGTCATAGACACCAAAGTTTATTAGCATCGAGCTGGGTCATAGACACCACA
GTTTATGAGCATCGAGCTGAGTCATAGATACCACAGTTTATGAGCATCGAGCTGGGTCATAGACACCACAGTTTATTATC
ATCGAGCTGGGTCATAGACACCACAGTTTATGAGCATCGAGCTGGGTCATAGACACCAAAGTTTATTAGCATCGAGCTGG
GTCATAGACACCACAGTTTATGAGCATCGAGCTGAGTCATAGATACCACAGTTTATGAGCATCGAGCTGGGTCATAGACA
CCACAGTTTATGAGCATCGAGCTGTGTCATAGATACCATAGTTTATGAGCATCGGCCAGTGGAACAATGAGCTTCAATAA
AACACTATCTTGAACCCAAAGTTACAAGGCAGGTAGGCGTCAGTCACTAGGATCTAGTCTTAATAATTTCCGGTAAGGAA
TATATAGATAACTTCTATATTAATCATATTATATTATCATTATTGTTATTGGTGTTGTAATCCCACAGCAGATACGCTAC
ACATATAATCTTTCTAATGCGCATAATGTTCAGCAAACATTTACTTACTAGTTTATTAATGCTATTAAAGCGTTATTTGT
TTATTGTGAATTAACCATCAAGCACATTTCCAACCGCCTGTCTATTTTGAGGCTAACCTGACAATTCCCCACCTGCCCTT
TAGCCCTATTGATCTGCGCATTTTCTCTCTGTTTTGCCGCTCACATCTCACTGATTTTGCCTCCGCTGCTGCTGGGCCCA
CGGCTGCAAATCTTGCCTGAAATCCCTCTTGGGCGAGTAGTAGCTGGCAGTGACAGCATCCGTGATAGTCTACTACTAGT
AGCTGGAAGTGACAGCATCCGTGATAGTCTACTACTAGTAGCTGGAAGTGACAGCATCCGTGATAGTCTACGACTAGTAG
CTGGAAGTGACAGCATCCGTGATAGTCTACTACTAGTAGCTGGCAGTGACAGCATCCGTGATTGTCTACTTACTACTACT
AGTAGCTGGCAGTGACAGCATCCGTGATTGTCTACTTACTACTACTAGTAGCTGGTAGAGGTCATCGGATCGGGTCAGAG
GTCGCCTTTCCGCACATTTGCTGTCGGCGGGTTCATCTTTGGAGTTGCATAGCAGGCTTAGCAAAAATATTTTGTCCTAC
GAATAGTTTTTCCTCATTCGCAAATTGCACCCAGCCTATTAGATGTTGCTTCCCTCGACTGTGTTATATTTGTCTTATAT
TTGTTATATTTGTTATATCTGTGTTACGTAGACCAGTTTTCGTTCTCACAGGTTTCCCAATTGCCTATACGCTCGTAGTA
GCGTTTCCTGCATGAAATGCGTTGTGATTATTAAATCTGTTTAATTCGCTTTTTAAGCCTATGAGGTTGTGTACACACTT
CTGTTTGATATCAACTTTGCAGTCCCTTTCATGAACTGCTGTGTCTAGAATTCAATATTATAATTTATTTAAATACATTC
TTGCTTATCCAGAGAT