>Mlig455_047170 {Length: 2656} {Pfam: Ras family [PF00071.24, score=256.5]; Ras of Complex, Roc, domain of DAPkinase [PF08477.15, score=126.1]; ADP-ribosylation factor family [PF00025.23, score=52.2]; Elongation factor Tu GTP binding domain [PF00009.29, score=24.2]; Bacterial TniB protein [PF05621.13, score=22.8]; 50S ribosome-binding GTPase [PF01926.25, score=20.2]} {Human: ENSG00000136238, RAC1, Rac family small GTPase 1, [Score=197, Expect=8e-60]; ENSG00000128340, RAC2, Rac family small GTPase 2, [Score=194, Expect=3e-58]; ENSG00000169750, RAC3, Rac family small GTPase 3, [Score=191, Expect=3e-57]; ENSG00000119729, RHOQ, ras homolog family member Q, [Score=189, Expect=3e-56]; ENSG00000070831, CDC42, cell division cycle 42, [Score=188, Expect=4e-56]; ENSG00000285721, AL031281.2, novel protein, identical to cell division cycle 42 (GTP binding protein, 25kDa) CDC42, [Score=188, Expect=4e-56]} {Mouse: ENSMUSG00000001847, Rac1, Rac family small GTPase 1, [Score=197, Expect=6e-60]; ENSMUSG00000033220, Rac2, Rac family small GTPase 2, [Score=192, Expect=6e-58]; ENSMUSG00000018012, Rac3, Rac family small GTPase 3, [Score=191, Expect=2e-57]; ENSMUSG00000006699, Cdc42, cell division cycle 42, [Score=188, Expect=3e-56]; ENSMUSG00000024143, Rhoq, ras homolog family member Q, [Score=188, Expect=4e-56]} {Dmel: FBgn0010333, Rac1, [Score=196, Expect=1e-59]} {Celegans: WBGene00000424, ced-10, Ras-related protein ced-10, [Score=194, Expect=4e-59]} {Smed: dd_Smed_v6_610_0_1, dd_Smed_v6_610_0_1, [Score=191, Expect=1e-57]} {RNA1509_10246} {RNA1310_7436, RNA1509_10246} {RNA1509_10246, RNA815_2869}
TTGTAGTTCGCCTGCTTACCCGTCTAGACGTACACGGTGCTATCAGAATCGCGGAATTGTGCTGTCTTCTGTTTTGTAAG
AGCTAAATATAACTCCGGCCCTTTCTATCCAAATATGTACACCCGAAACATCACGGATGAGAAATAACGATGTAGAACGT
TATTTAGTGCCTCCTTCGACTTGGCAGTTAACCCAGCTCTGCAAAAAAACTTGTCGGAAGTTTGATAGCAGCAATCATGA
GAATGATCAAATGTGTTATTGTTGGCGACTCTACCGCTGGCAAGACCTGCATGATTGAGACCTACGTAAATGGCTCAATG
CCAGACACGTTTATTCCAACAATTTACAAAACGTACTCAGCTCGGCTGCCCATGGAATCGGAGTCTATCGAACTGGCGCT
GACAGACACGGGAGGCAGTGAAGGCTACGACACTCTCAGACCAGTCGCCTATCCGCAGACAGACGTGTTTATCATCTGCC
TTGACTTGACCAAGTCAGCCGAACTTGTGCTTGGCAATGTGCGTACAAAGTGGTACCCGGAGTTGAGCCACCACTGCCCC
TCAGCACGCATTATTTTGGTTGGAACAAAGCTTGACATGCGAACAGGTTTGAAAATAAGCGAGACCAAGGAAGAAGATGC
TGAGAAAAACCTTACAGCTGAGCAAGCCAACGAATTCGTCAAGGAAATCAATGCGGCAAAGTACATGGAATGCTCCTCAA
TTACTCAGCAAGGATTAAAAGAAGTGTTCGAAGAGGCCGCTCGCTTAGTTCTTAACTCTTCTGACGCTCGCAATGGCAAA
AAGAAGAAAAATAAACACCACGGAGATTCCAAGAAAGTCGTTTCGTTCCTTCATTCGCTATCGTCGTCGAGAAGGAACTC
TGAAACGTCTATCAAGCAAAGTGTTCTTTCCGATGGTGGAACCAAAGATTCCGAGACCGAAACTTCACCTGATGAGCCGA
GCATTAAATCTCCATCATCGATTAAAGCCTTTTTCCGCGGTTTACGCCCTGGGAAAACATACTCGTACAATATCGCATCA
CAACAGAAGTCGCACGATAAGAAAACCAAAGCTTCGAGTGAAACTTGCGAGCCAGCGGACACTTCATCCGCTGAAGTTTT
GGATCAGCCCCAACAGCCTGCTTCGAGTACACAAGAAGCCGTGAGTCCCGAGCTCAGCGAAGACGAGCAGCCGACATCCG
AAACAGAAAGTGACGACGAAAGCTCGGACACGGAGTCCGCCAGTGCTCAGCGAGAGCCAGTCTCGGAAAACCTCAGAGAG
CCTAGTTCTCGAGTTGATTATCCGGAAACTATTGTCGTGTTTCGAACCGCCGAATCAAAGACGAAGAGTGACACAATAAC
ATTAAAAGTCGTCATAGTTGGAGATGAAGCGGTTGGCAAGACCAGTCTGCTGACCGCATTCGCAGAGGACCAGTGTCCTC
AGGAGTATGTTCCCACAGAGACCGACGACTGCTTTGCCGTGGAGGGTTCACTGGCTGGAAGCCAACTGTGTCTCCGCTTG
TGGGACGTGAGCTGTGCGGAGTCCTTTGACCGCTTAAGGCCTCTGCGGTATCGCCAATCAGATGTGTTTATCATCTGCTT
CTCCCTCATCAATTCTGCTAGTTTCGAGAATGTACGGGCCAAGTGGTACCCGGAAGTGAGCCGTCATTGTCCTGAAAAGC
CATTTATCCTGGTCGGAACGAATTCCGATCTGCGCGATGACCCAGAGACCATCGACAAGCTGGAGGAAAGGAATCTCGTT
CCAATCAGCGTGACTCAGGGCGAGCAGTTGGCTAAAGAGATCGGTGCTGAAGTGTATCTAGAGTGCTCCGCTCTGTGTAG
AACAGCTGTGGAAGACATCTTTAGACAGGCGGTATTGGCTTCCGTGAGAAAAACAGAAAGCAAAAATCATCACGGGTAGA
TCGATCGAAATTGAATACAAGAAACCAACGCACTCATGACAATATGGGCTAAATCTGTATTCAATACAAATCGTGCATGA
CAACCTCTATTAGCAGTACCATTTTAAACGCATATTCGGCTCCATATTAAAATGATCCTGAATTCACAGTACCTGCTGTT
TTTCGTTCGTACTCTCGTAGCTTTCGATTTCCAGACTCATAAGAACTTTAACATAACTTGTAAGCCAATATCATCAGTTG
CTTTGGTCCGTCTTTGATGACATTACACCATATGTGCAGACGCTTACGCAGGACCCGTAACTTGATAGATACGAGCGTAG
ATTAATGGATTAGGTCGTAGTAACTGCGCACTGTAATTGCACATGTGTTGTTGAGCAGCTCCCGTTCTTAGATTACCGTT
GATTCTTAACGTACTCATTTTTTCACATTCACATAGTTCCCTTGATATTCAGTTGTAAATAGGCTTGCTATTTTTCTGCC
ATATTTTCACCTTAAAACTATCAGTAGCACACAGATTCTTTGCTTCTTTTGTTATCATGCAGTGTGTTGAGGTCTCATCA
AATTCAAATGCAGCGCCCCATTTTTAGATTTATCCATATTTTCTGCGCCTTCCTACTTTAAGTGACTTTTTGAGCAAAAT
ATCTCCTTTAAGCAGAAATTAAAGGAGACTAAATAAAATATTTTTTGTTACCCGCTACTCTCTGATAGCTGCCGCACGTG
TTTCTTTAGACCTAAAG