>Mlig455_040861 {Length: 3678} {Pfam: Protein kinase domain [PF00069.27, score=305.4]; Protein tyrosine and serine/threonine kinase [PF07714.19, score=233.3]; Ankyrin repeats (3 copies) [PF12796.9, score=74.0]; Ankyrin repeats (many copies) [PF13637.8, score=57.6]; Fungal protein kinase [PF17667.3, score=52.2]; Ankyrin repeats (many copies) [PF13857.8, score=47.2]; Ankyrin repeat [PF13606.8, score=45.9]; Ankyrin repeat [PF00023.32, score=41.3]; ABC1 atypical kinase-like domain [PF03109.18, score=35.2]; Phosphotransferase enzyme family [PF01636.25, score=30.9]; Kinase-like [PF14531.8, score=24.5]; Ternary complex associated domain 9 [PF19974.1, score=23.0]; Seadornavirus VP7 [PF07387.13, score=21.9]} {Human: ENSG00000085511, MAP3K4, mitogen-activated protein kinase kinase kinase 4, [Score=129, Expect=1e-29]} {Mouse: ENSMUSG00000051590, Map3k19, mitogen-activated protein kinase kinase kinase 19, [Score=124, Expect=3e-29]; ENSMUSG00000014426, Map3k4, mitogen-activated protein kinase kinase kinase 4, [Score=124, Expect=3e-28]; ENSMUSG00000028862, Map3k6, mitogen-activated protein kinase kinase kinase 6, [Score=119, Expect=9e-27]} {Dmel: FBgn0024329, Mekk1, [Score=121, Expect=2e-27]} {Celegans: WBGene00003472, mtk-1, MTK1/MEKK4 homolog, [Score=108, Expect=1e-23]} {Smed: dd_Smed_v6_4849_0_1, dd_Smed_v6_4849_0_1, [Score=114, Expect=1e-25]} {RNA1509_27731} {RNA1310_10050} {RNA815_9449.1}
ATGTTCTATCTGGATGTTCTATCTGGATGCTCTATCTGGATATTCTATCTGGATGCTCTATCTGGATATTCTATCTGGAC
ATTATATCTGCATATTTTCTCCGCATATTCCATCTACCACTGTCGATTTTATTTCTAATCAAACCACTCCTCTCCTCTCT
CAGCTGTGCCATTTTTCACTGCCCACTCGAATCTGCAAGTCTGCACTCCAACCGCTACTACCATAAGTAGTATGCATTCC
GTACGTAAGAGAATTCGAGATCGAAGCACCCGGCTCGCATTGAGCCAATCAGGCACGAGCAGTGCATATCTCAGGCACTG
TCTTCTCAGAACGATATAAAATATCCTGTGCTGAAGCGGCTGCTCATGCAGTTTTCTTTTCAGGCTGACTTGAGAAGAAG
CTGGTCGGGGTGCGCATAATGGGCAGTGAAGCCTCTAAGGAACAGGATAAGACTCTCGACCAGCTTGTCAGCCGAGGTGA
CTTCGGCCAGGTGCGGCGGCTGGCAACGCGCCAGCTGGTCACCAGCGCTGATGAAGCTCGTCGGACCGTCCTCATGCTGG
TGGCCGACGCTTCTGAAACTCCCGTGCACACTGAAAAGTGCATCTTGTACTTATTTGAGCTGGGCGCGAACCCCAAGGCG
ACTGACGCGAACGGCGACACGGCTGCGCACCTGGCAGCCCGGCGGGACCACCTGCGGCTGCTGACGCTGCTTTCGTTCGA
TGCGAAGTGGCTGCGGAACGACAACGGCGCCACTCCGCTGATGGAGGCGGCGCAGACTGGAAGCTGGAAATGCGCCAAGC
ACCTGCTGCACCTGCTCAGGCAGAAAAGTTTCATTAAGTGTCTGGAGCATGGAAACTCGAAGAGGCTGCTCGAACTGAAG
AATTCCGAGGGTCGGACGGCGTCGGACCTGGCGAAGCTCAGCGGCCACTCAGAGCTGGCCAGCTACATCGAGCGGGAGAT
GCGGCTGGTTGTGGATGCACACGGCTATATCTCCGGCCTGACAGCCCAGGAGGAGGCGGATCGACAGGAACTGCAGCGGC
TGGCCAAGGCGGGCGACTCGGCGGGGCTGCGGCGAGCGGCGACCTGCGGCAGCTGCGACCTGCCTGACGATGAGGGTCGC
ACCGCATTGATGTGGGCAGCTCAAAGCAGCTCGTGCGGTGATGAGGCTCTGTGGGAGCAGCTGGTGCAGCTGGGTGACCC
CACCTGTGCGGATAAATGTGCTGACAGTTGCCTGCACCATGCAGCCTTGGCTGGCAATTCTGCCGCAGCCTCCGCTCTGC
TGACTTCCGGAGCCTCCACCAATGCCAGGGGTCACTGGAAATTCACGGCCCTCATGGGGGCGGCCTTTGCGCACCCCGCC
ACCGCCGCCACAGTCGGTCAGGTTCTGCTGAACTCAGGGGCGGATTGGAGCCTGAAGTACAGAGACGGCAGGACTGCGCT
GGATTTGGCCACACAGCACGGAAAGAGCGAACTGGCGGAGCTGCTGCGTGGGTACGACGGCAAGATCTACTTCGATGAGC
CTATGGCACTGCCTCCCGAAGGCCCCCCGTTCCGGGAGCGCTGGGACGCCGTTCGCCTCATCGGTCGCGGTGGCTTCGGC
GAAGTCCACGAAGTTCGAACTGACACGGGCGTCACGTGCGCTGCCAAGACTCTTAAACTTCCTGTGCAGCTTGTTGATGA
GCTGCCCTCTGTGAGCACAGAGATCCACAGAGCTGTCGAGAGCGAGAGAAACCTGTGCCGACTGCGGCATCCCAACATCG
TCAGGTTCTTGCACATCGCTCAGCCGGAGCCCGCCACAGCCGTTGTGTTCATGGAGCTGCTGGACGGCAAAAGCTTGGAG
AGGTTTATCGACAACAGGCCACTGGAGGAGCTGACGATTCGAGACTTCAGCGAGCAGATCTGCCGCGCGCTGATCTACCT
GCACAGCCGGCAGCCGCCCGTGATCCACAGAGACATCAACTGCTCGAACATAATTGTTTGTGCCGACAACACGCGAATCA
AGCTGATCGACTTCGGCCTGTCAGTCAAGCTGGAGCAGTCAGTCAGCCACATCTCAGCCTCCAAAGCCACCCCCGAAGGC
ACTCTTAACTTCTTGGCTCCGGAGCTGCTGGCACCAGAAGAGTCGGACAGCCCGCGGTACAGCAGAGAGTCGGACATCTG
GGCGTTCGGCTGCTCGGTCTTCCAGATGGCCTCGGGCAGGCGGCCCTTCGCTGAGCACAAAATGCCGCAGACGCTGCCCG
AGAAGCTGAGAAGCGGCGGTGCCCCCGCCCTGCTGACGGGCTGCTCTGCGGAGCTGCAGGACTTCTACAGCCGCTGCACC
GCCATGGACCGCAAAAGCAGAAAGTCCGCACTGGAGCTGATGGGGCACGAGTTCCTCATCGTCAGGGAGAGTTGGGACTC
CGATGGCTTCGTTGCAAGAGGATTCTTTGGTGACATTCAGGAAGTTGTCACTGACAGAGACATCAGGTGCGCTGCCAAGA
CTCTCAGACTGCCTGTGCAGCTCGGTGATGACCAAACCTCTGTGAGCACAGAGATCCACAGAGCTGTCGAGAGCGAGAGA
AACCTGTGCCGACTGCGGCATCCCAACATCGTCAGGTTCTTGCACATCGCTCAGCCGGAGCCCGCCACAGTCGTTGTGTT
CATGGAGCTGCTGGACGGCCGAAGCTTGGAGAGGTTTATCGACAACAGGCCACTGTACGAGCTGACGATTCGAGACTTCA
GCGAGCAGATCTGCCGCGCGCTGATCTACCTGCACAGCCGGCAGCCGCCCGTGATCCACAGAGACATCAACTGCTCGAAC
ATAATTATTTGTGCTGACAACACGCGAATCAAGCTGATCGACTTCGGCCTGTCAATCAAGCTGGAGCAGATAGTCAGTCG
CCACTCATCATTCCCGGAGGCATTGAAAGGCACTCTGAACTTCATGGCGCCAGAGCTGCTCGGAATCGGCACCTCGGAAT
GCGTGCAGTGCAGCAGAGAGTCGGACATCTGGGCGTTCGGCTGCTCGGTCTTCCAGATGGCCTCCGGTAACAAACCATTC
ACCAGAGTCAAAAGCTTCTGGGAAATGGCCCAGCATCTTGACAGGAAGGGCGCCCCCGCCCTGCCGGACGGCCGGTCTGC
GGAACTGAGGGATTTCTACAGCCGCTGCACCGCCAAGGACCGCAGGAGAAGAAGATCCGCACAGGAGCTGCTGGAGCACG
AGTTCCTGGTGAAAAAGTCTGACTCGCAGCGCTAAGCCGAGATGCTTCTAAATATGTTTGTAAAGATTTTGAATATTTTA
TGCACGATGCGCGTAAGTAAAGCACTATTTACAGTTTGTTTTGTGCTTTTTTTCCATTTTCCTGAATTTTTTACGTGACT
CTTTGCAGTGCTGAAACTTGCATACTGCTTCAATTCCCCTGTGACTGAGTTCCAGATGCACCTATTGACGTTTCTCATTT
AAGCTCAACTTGTTTATCTGCACCGCAGGCGTTAACTGATCTCCTCTATCCTCAAGCAGTTTAACTGCTCAAATGCTTTG
CTTCACTCAATTTCTTTGCTGTTAGCCATCAGCTGCTGTCGCTATTTTGTGAGCTTTGTGAGGAATTACTCAAATATACT
CATGTGCGACTCTCTAGCATACCGGAACTGCCCGACTCTCAGCACTGAGTGGCTGTCGTTTTTTAACTCTACTGCTGAT