>Mlig455_049087 {Length: 3460} {TRANSSPLICED} {Pfam: Ras family [PF00071.24, score=207.7]; Ras of Complex, Roc, domain of DAPkinase [PF08477.15, score=114.7]; ADP-ribosylation factor family [PF00025.23, score=53.9]; Signal recognition particle receptor beta subunit [PF09439.12, score=21.9]; 50S ribosome-binding GTPase [PF01926.25, score=20.9]; Elongation factor Tu GTP binding domain [PF00009.29, score=20.3]; Ferrous iron transport protein B [PF02421.20, score=18.9]; RsgA GTPase [PF03193.18, score=18.9]} {Human: ENSG00000152932, RAB3C, RAB3C, member RAS oncogene family, [RH, Score=355, Expect=1e-125]; ENSG00000169213, RAB3B, RAB3B, member RAS oncogene family, [RH, Score=346, Expect=3e-122]; ENSG00000105649, RAB3A, RAB3A, member RAS oncogene family, [RH, Score=345, Expect=8e-122]; ENSG00000105514, RAB3D, RAB3D, member RAS oncogene family, [RH, Score=338, Expect=3e-119]} {Mouse: ENSMUSG00000021700, Rab3c, RAB3C, member RAS oncogene family, [RH, Score=352, Expect=1e-124]; ENSMUSG00000031840, Rab3a, RAB3A, member RAS oncogene family, [RH, Score=345, Expect=4e-122]; ENSMUSG00000111277, Rab3a, RAB3A, member RAS onco family, [RH, Score=345, Expect=4e-122]; ENSMUSG00000019066, Rab3d, RAB3D, member RAS oncogene family, [RH, Score=342, Expect=1e-120]; ENSMUSG00000003411, Rab3b, RAB3B, member RAS oncogene family, [RH, Score=341, Expect=2e-120]} {Dmel: FBgn0005586, Rab3, [RH, Score=359, Expect=1e-127]} {Celegans: WBGene00004267, rab-3, Ras-related protein Rab-3, [RH, Score=353, Expect=3e-125]} {Smed: dd_Smed_v6_5920_0_1, dd_Smed_v6_5920_0_1, [RH, Score=345, Expect=2e-122]} {RNA1509_11395} {RNA1310_25880, RNA1509_11395} {RNA1509_11395, RNA815_16450}
AGTGGCACTGGTAATACCGCGCTGCAATTAAAACTTGCCTACCTGCTTAATTAGTTAATAAACTCGGGCTAGCGATTTAA
AGCAAGCAAACAATTAATAAAGATGGGCAGTCGCGATGCAGCCGATCAGAACTTTGACTACATGTTCAAACTGTTAATTA
TTGGCAACTCATCTGTTGGCAAGACCTCCTTCCTGTTCCGGTATGCTGACGACTCCTTCACATCCGCCTTCGTGTCCACT
GTTGGTATCGACTTCAAAGTGAAGACCGTTTTCAGACAGGATAAGCGCGTCAAACTGCAGATCTGGGACACCGCCGGCCA
GGAGCGCTACCGCACAATCACCACCGCCTATTACCGTGGCGCAATGGGCTTCATTCTGATGTACGATGTCACCAATGAGG
AATCGTTCAATGCTGTACAAGACTGGTGCACCCAGATAAAGACTTATTCGTGGGACAATGCGCAAGTGATCCTAGTTGGC
AACAAGTGCGACTTGGACGATGAGCGGGTTGTCAGCACAGAGAGGGGAAAACAGCTGTCTGATCAGCTTGGCCTAGAGTT
CTTTGAGACCTCTGCCAAAGAGAACATCAACGTCAAGGCCGTGTTCGAGCGCTTGGTAGACATCATCTGCGAGAAGATGT
CCGAGTCCTTGGACAGCGACCCCAACATGATGCACAACACGGGCAACCGGCTCGAAGGCTTTGAGCAGCAATCTTCCTCC
GGCTGCAGCTGTTAGAGCTGACCGCCTGCTGCCGCTCGCGCCGGCCAGCCCGCCCGTTTTTCTCTTCTCTCTTTCCGTGC
TCGATTGCATCATCTGCCGGAGCCTCATCTCTCTCATTTTGAATCCTGCCGGGCTTCATAACCCCCTCCCTCAAAATCAG
CTGGACGTCACCGATCTGGTCAAGGAAGACGCGACAAGCGAACAGTCTATGAGCTCATTACTAATTGCAGTCATATTATA
GACTATTTTTTGCAAAGATTCAATTTAATTATCATTAGCATCCATTTCAAGTACAAACAATAAGCTCGCGCTGGTCTAAT
GTTGTTCCGTGTTTAAAAATATTTAAAAGTATTGTACTTTTCCCGTTGAAAACGATACCGTCACAAGAGTCGCTAAAAAG
TCGTTTCAAGCAACTCGCTACGAGCTAGTGACTCTTGTGACTTTTTAACGACCCAAAAGACTGTAATCGGACGGAGACGT
CAGGTGTTGAATTTTAAAAGAGTCGGGAAAGAGTCGTCCAAGAATTGTTGTTTTGGTGCTTAACTTTCTACTAACTCAGT
AGGCTAGCTAGAGTGCAATTAGAGAGCAATGGGCTATACTGGGTGTTGATTGCGTAACTCTAACTCTGGCTCTTCTGCGA
CTTTTTGGCGACTCTTATCTTGCCATCTCGTCGTTTTAGAGTCGTCTGGAGTCGCTTGTTTCCTATTTAACCTGCGTCAT
CTGCAACGACTCCGAAACGCCAAGGTACCGCTTTCATCGGGTTTATTGGTTTACAAGATAATACGAGTATGAATCTGTGC
AATTTTACAGTTAGAATAAATTTTCCTGATTCGTCCTTACTACTTATACTACTGAGTCATTGTGTTACTATTTGGGCCGC
CAGTAGTGTGTATAAGTTTTTTGCTTCACTGCATTGCGGCGTAGTTCAAATTGATTAACAGAACTACAGGTTTAGTAGAG
TATTCAACTCCGATTGTCTTCGAGTAGCTATTAGTCTTGTTGCCAGTGCAATAATCCAAATGCCGCTCTGTTGTTTGGTG
TCTTGGCTAAAAATTTCTTCACTCATTAATTATTATCGCCTAATTAAATTTTCCAGTGTCATTATGATAGGGCGCTTGTG
CACTTATTAATCTAGATTGCAATATAATGAGAACTATAATTAGTGTTTGTCTTTGTGTGCCCAAAGCTCAAGATAAATTG
TTAACAATAATTATTAGTTTTATTATATATTACTATACTTTATATATTTAATTAAATTTCGCCTGATAATCCGTCATCAA
CCCGCCCTAATGTTATTTGAGTAGGCATGTAAAAGCAATCTTAGGAGCGCAGAAATTGGAGTGAAGTCGTGTTACTGTTT
CTCCGTTCCTTTTGCTGCTCGTTGGAATTCGTTTTAAGTCCATCTGCTTGTCCTCGTCTGCTGTCTGTTTGTCTGCCTTC
TTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGT
CTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTGTGTCTGTCTGTCTGTATGTCTGTCTGT
ATGTCTGTCTGTCTGTCTTAGTGTCTGTCTGTCTGTCTGTCTGTATGTCTGTCTGTCTGTCTGTCTGTCTGTCTTAGTGT
CTGTCTGTCTGTCTGTCTGTATGTCTATCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTTTGTGT
CTGTCTGTCTGTCTGTCTGTATGTCTATCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTTTGTGTCTGTCTGT
CTGTCTGTCTGTATGTCTATCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGT
CTGTCTGTCTGTCTGTCTGTCTGTCTGTCTTTGTGTCTGTCTGTCTGTCTGTCTGTCTTAGTGTCTGTCTGTCTGTCTGT
CTGTATGTCTATCTGTCTGTATGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTTAGTGTCTGTCTGTCTGT
ATGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTATGTCTGTCTGTCTGTCTGTATGTCTGT
CTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTGCCTGTCTGCATTCTATGTCATTAGTTATTTATACACTGCTTTAAA
CCCTCATTGTGCATAATAAGTATATATAATTCACTGCTCTGTCTATATTGATGCATTATTCTGATTATTATATTATTTAT
TCATACATATATATTATAAAATGTGTTATTTACTATTGATGAATATACTCGCGTCAAACACACCAAATTAACTGTGTTAC
ATTTTACTTTCTTATTTTGACATTTTTTTCGCTAGAAATTTTCCCAAATCCTCTCCAGTCTTAGCAACGCTTTAACCTTG
TCCTGCTGTTGTCTGAAACTCTGTCTTTAAGCCTAGAGTTGGCCCGGGCGTTGCTCCCTTCTATTTTGAGGTGTGCTCTA
GTTAAAACAAACACGAAACGGCCATATATCTATATGTTATTCGCGTTAAGTCATTGACCCATCGCATTAATAATATTATT
ATATATACAAAGACTATTAAATATGATTAAATAAAACTGTTGCATCAAAACAAAATTATTACTTTTTTTCGAGTCTCAAG
CTTGCGTGGATTTTTTGCGCC