>Mlig455_024262 {Length: 2032} {Pfam: ATPase family associated with various cellular activities (AAA) [PF00004.31, score=176.5]; AAA ATPase domain [PF13191.8, score=40.9]; Holliday junction DNA helicase RuvB P-loop domain [PF05496.14, score=38.8]; AAA domain [PF13401.8, score=34.4]; AAA domain (dynein-related subfamily) [PF07728.16, score=29.7]; TIP49 P-loop domain [PF06068.15, score=25.7]; AAA+ lid domain [PF17862.3, score=24.0]; AAA domain [PF13671.8, score=23.5]; RNA helicase [PF00910.24, score=23.3]; Threonylcarbamoyl adenosine biosynthesis protein TsaE [PF02367.19, score=22.8]; Rad17 P-loop domain [PF03215.17, score=21.4]; AAA domain (Cdc48 subfamily) [PF07724.16, score=19.5]; AAA domain [PF13238.8, score=19.3]; IstB-like ATP binding protein [PF01695.19, score=18.3]; Magnesium chelatase, subunit ChlI [PF01078.23, score=18.0]} {Human: ENSG00000124587, PEX6, peroxisomal biogenesis factor 6, [Score=278, Expect=8e-82]} {Mouse: ENSMUSG00000002763, Pex6, peroxisomal biogenesis factor 6, [Score=273, Expect=4e-80]} {Dmel: FBgn0033564, Pex6, Peroxin 6, [Score=256, Expect=2e-74]} {Celegans: WBGene00004195, prx-6, PEX6; PeRoXisome assembly factor; Pex6p homolog, [Score=233, Expect=2e-67]} {Smed: dd_Smed_v6_6906_0_1, dd_Smed_v6_6906_0_1, [RH, Score=203, Expect=1e-56]} {RNA1509_16683} {RNA1310_5166.1} {RNA815_11050}
ATGAATGCTGCGACTCACGAGCTTGCGACTGGCACTGTGCTGTACTATACGGTGACCGAAGTCAGCTCCGGCTCTGAGCA
CCTTGCCGGGCCAATACTGGCCGGCTTGGAGTTCACCAGCCTCCGAGTGCAAGCAGCCAACAACAATTACAAATCGGCTG
TAGTATCCTACGCACCGCGTCTTTATCCTTCGCCATCGCTACCGTTAGCCGCAGGTTTTGTTAACCGACTGACCACTTTG
CTGCGTCGATGCGTTGACGCTTCGATTGAGAATAGTCTTCCACCAGTCACTGTGCTCCTGCACGGGCCCAGCGGTTGCGG
CAAAGCTGCCGCCGCTCTAGCCGTAGCTGACCGTCTCAGTTTACACGTCCGAATTGCTCGATGTGAAAATTTAACCGTCC
AACTGCCTGGTTCGGTCAGTAGTAGCGACGGGTCTGCTCTTGGCTCTGCGTCTGACTATGGCGAGGAAGATTTTTCCACC
ATCCTGTCCGGTGACGCAGCCCTGCCGAGACTGCTGCTACTCACTGATGTCGGCTTGTTAGCTAGAAAACGGGACGGTTT
GTCGGGTGCCGATCCGGCGGCTGTGACTGCGTTGGCTCGGTTGCTGAATCAGACTGGCCGACAGCAGCAGGGTTGGTTGG
AGCACACAGACGGTCAAGGCCGGCAGCCGTCAGTCATAATTGGCACCTGTCAATCACTCAGCCAGTTGGACGCGGGCTTG
CTGGCCCTGTTCCAGCTAGACCTGGCCGTGCCACCGCCAACCGAGTCGGAACGTCGGCAAGCTCTGCTAAATGCCGGCGC
TGGTCTGGAAAGCGACGCCGCATTGCTGGACCGCTTAACTCAGCGCAGCGTCGGTTTCAACGCCGCCGAGCTCTGGGCGC
TGAGACGGCGCGCTCGTTTGTCGGAATTTGGCTACCAAGATTCTGCTGAAGAGACTATTGATCTTACCGCTACTAGAAGC
AAGCTTACAACAAATATCGAAGGTCAGATTCGTCCCTCTGCCCTGTCTGCCGCCCTGGATGCGACGCTGAAAGCTCGAGC
TGCTTCTCTCGGCGCGTCGAGTCTGCCTACAACCGCCGCTGTAGCCTGGGAAGACGTCGGTGGTCAGGAAGCGGCCGTGG
CTGAAATTTTAGCGACAGTGGAGGCGCCATTGAAACGGCCGGAGCTGCGACGGCACCGACGCTGCGGCCTGCTGCTCTAC
GGTCCGCCTGGCGTTGGCAAGACCCTGCTGGCCAGGGCGGCGGCCAGCCAGTTGGGGCTGTCCTTCCTGAGCGTGAAAGG
TCCCGAGCTCGTCAACATGTACGTTGGTCAATCCGAAGCGAACGTCCGGGCACTGTTCGCTGACGCAATTCGTCTTGCGC
CTTGCGTTGTATTCTTCGACGAATTGGACTCGATTGCGCCGGCTCGTGGCGGCGGCGGCGGAAGCGGTGCGGTTGACAGA
ATCGTTTCCCAGCTGCTCGCCGAACTTGATGGCATCAGAACGGCCGACGCTGCTGTTTTCGTCATTGGGGCCACCAACCG
AGCCGACCTGCTAGATCGCGCTCTCCTTCGGCCTGGCCGATTCGATCAGGCCTTGCTAATTGCGCCGGCCGAAAGTCTGG
AGGATAAAACGGCCCTTTTCAGGGCTCAATTACGGCGACGCACGTGCGCACCGGATGTTGACGTTGAGACGCTGGCTGCC
GCTCTGCCGTCGCTTGTCACTGGTGCTGATGTCATGTCGGTGGTGTCCAATGCCGCCGATCTGGCCTTGCGAGAGGCGGT
TTCCGCCATAGACAGCGGATCGGAGGACGAGCTGAGTGTGAATTGTTGCCTGACTCAGGCCATGCTGCTTAGCTGCGCCA
AAGAATTGGCGCCCTCCGTGACTGCTGAGCAAATGCTGGTTTATCGAAGCATGCAAGTTTGAGGTGGATATTTAATTTTT
TAAGCCTGTTTTTACTAGCTTTTGTCTTTTTTACTGGTTTTTTTACGAAATAAACCGTTAAAAGAAGTGCTGTTTTGATT
TTAAAGAAAATAGTTTGTTACTTAGTATTTAAC