>Mlig455_026054 {Length: 3987} {Pfam: Ligand-gated ion channel [PF00060.28, score=120.1]; Ligated ion channel L-glutamate- and glycine-binding site [PF10613.11, score=105.9]; Bacterial extracellular solute-binding proteins, family 3 [PF00497.22, score=65.9]; Receptor family ligand binding region [PF01094.30, score=44.9]} {Human: ENSG00000125675, GRIA3, glutamate ionotropic receptor AMPA type subunit 3, [Score=418, Expect=3e-131]; ENSG00000155511, GRIA1, glutamate ionotropic receptor AMPA type subunit 1, [Score=417, Expect=4e-131]; ENSG00000152578, GRIA4, glutamate ionotropic receptor AMPA type subunit 4, [Score=409, Expect=5e-128]; ENSG00000120251, GRIA2, glutamate ionotropic receptor AMPA type subunit 2, [Score=402, Expect=2e-125]} {Mouse: ENSMUSG00000001986, Gria3, glutamate receptor, ionotropic, AMPA3 (alpha 3), [Score=418, Expect=1e-131]; ENSMUSG00000020524, Gria1, glutamate receptor, ionotropic, AMPA1 (alpha 1), [Score=418, Expect=2e-131]; ENSMUSG00000025892, Gria4, glutamate receptor, ionotropic, AMPA4 (alpha 4), [Score=412, Expect=5e-129]; ENSMUSG00000033981, Gria2, glutamate receptor, ionotropic, AMPA2 (alpha 2), [Score=401, Expect=4e-125]} {Dmel: FBgn0004619, GluRIA, Glutamate receptor IA, [Score=376, Expect=6e-115]} {Celegans: WBGene00001613, glr-2, Glutamate receptor 2, [Score=346, Expect=3e-104]} {Smed: dd_Smed_v6_19602_0_1, dd_Smed_v6_19602_0_1, [Score=456, Expect=4e-146]} {RNA1310_47823} {RNA815_22886.2}
ATGCTCAGACAGCATTATCTTTGTCTTCTAGCAGCAGTGTCAGCTGTCTGCCTCTGCGCCGCATCCGACGCTGTTCTCAA
AGCGGGAACGCTGACTCTTGGCGCTGTGTTGCCAAGTCGCAATGCTCAACTTCGTTCAGCATTCTATTTGGCGCTAAAAC
GGCGCCAAACAGATCCAAGTGGCGCCGTACAGTGGCGCCTAGCTGTGGTAGACGCTGCCAATCCGATGGAAATCCAGCGA
GCAATACGTCGCGAACTTCAAGACGTCGCCTGTCTTATAGCTGTAAGCAGCGAGTTGGACTCGATGAGTCACGTTGTTCA
TCTAGCTAGAAATCTCAGCCTGCCGGTTGTCATGGCAACAGCAGTAGCCAGCGGAGACGCCGGGGGATTCTACATGCGAC
CGAGTCTGGCGCCAGAGGCGGCGCTGAAGATTGCGCTGGGATTCGGCTGGCGCCAGGCCGTCTATCTGGTTAACAGCGCT
GACGGTCTGGCCAGGGCTGCTCAGGCGGCTGCCACAGCTGCCCGATCGGGACTCGAACTCCGGACTGTCTACTTGCCGGC
GACAGAGGTGCCGCTACCCCGACGCTACTTGGATGTGCCAGATCTGGACGGCAAGCACCGAAGGCGGGTGGTGGTGGATC
TGGAGCCGGCGGAGCAGCAGGTGCAACACCTGATGGCATCGCTGAGCGGAGCCGGGCTTAACAGGCGCGAGTTTCACTAC
CTGCTGCTCGATGGGGCGGCGGCGCAGCTGCCCACGGTGGGGCTGCTGTACAGCGGGGTGTCCGTGACTGGCCTGCAGCT
GCTGGGGCTCGGGAGGCGGGAGGTTCGCGACCTCAAGCGCCGCTGGGAGCTGATCAGTCAGCATGTTGAAACTCAACACC
GGCAGCGCGAAGGCCACGGCGGCTCCTCTCCGCTTCCTCCTCCGTCGCTGCAGATGGTGGCTCTAGTCATGGACTCGGTG
ACCGCGGCGCTGACAGCAGCGACAGCAGCTCAGCTCGGCCTTAACGCGGCATCGTCGAGAACAACAACAGAAGCCAGGAA
ACGAATGCGGTGGCATCTGGCCAACACCGTTGATTTCGTTGGCTACACCGGCCGAATCACCTTTCGAGGCGGCGGCAGTC
AGCGGAGGACTAGCTTGTCGGTGCCGGTGCTGCAGTTGAACAGCCCGGACGGCTTCCGGCATCTGGACGATTGGCATTCG
AACTCGACTTCGCAGCCGATGCAACTGTCGCCGGACGTTGCTCATGGCGGCGGATTCTTCGATAGCAGCGACAGTGACAT
CGGTGTCGGCTTCAGGGGGCGCCGGAACCGAACGGCGAAGTCGTCGCTGCGCTGGCCGAGACTCATCCGGGTGGTGACCA
TCGAGTCCAGGCCGTTCGTGCAGCCGAAAACTCCATCGTTAGCGACAGCAGCCGATGACGTCGGTAGCAACGACACCGCA
CCGTCTGCGTCGCCACGTCGTCTGCCGTTTGAAGGCTTCTGCATGGAGCTGCTGGAGCGAATCGCCGAACGAGTGGGCGG
GCTGAAGTACTCGGTGCACCTTGTCGGCGACGGTCAGTACGGCGGCAGGAACTCCAGCGCCCCGGCAGCGGCACCGGAGG
CGGACAAGTGGAACGGCATGATCGGCGAGCTGCTTCAAGACACCGCCGATGTCGCCTTTGCGCCGCTGACCATCAACACG
GAGCGATCGAAGGTGGTGGACTTCACCGAGCCGTTTCTCACCTTTGGCATCTCAATTATGATTAAGAAGCCGCGCAAGGA
GAAGCCGGGAGTTTTTGGATTCTTGCAGCCGCTGTCTCAGGTGTGGCCCTACATGCTCACATGCGGCGCGGGGGTGATTG
CCGGTCTGCACCTGTGCGCCAGACTCAGCCCTGTTGAGTGGCGCATCACAGACTCCGAGCAGCTGCAGCCCTGCAGTCTT
CTGCTTCTGCGAAAGAGGCGCAGAGACTTCTCGCTGTTCAACTCGCTGTGGTTCGCGCTGGCCTCCATCGTCAACCAGAG
TGTGGACATCTCGCCTCGCAGCTCAGGTGCCCGCCTGGTAACCAGCGTGTGGTGGTTCTTCACCCTGATCATGATCGCTG
ACTACACCGCCATCCTGGCCGCCTCCCTGACAGTTGAGCTGCTGCGGACACCCATCGAGAGCTGGCCGGACCTGCTGGGA
GCTCACGAGACCAGCGGAATGTTGTTTGGCACCATCGCCTCGGGCTCGACTCAGGCCTTCTTTCTGAGCACCAAGATTTG
GCCCTACAGCGGCATCGGGGCCGTGATGAGGAGCAACTCCGATGAGGTGTACGCGAGCACCACAGCGGCCGGGGTGCAGC
GAGTTCGCGAATCCAACGGCCGCTACGCTTTCCTGCTGGAGTCGAAGATGAACGAATTCCACAACAACCGCGACCCCTGC
GACACCATGATGGTCGGGCAGCCGTTCGGCGACAACGGCTACGGGGTGGCCACCCAGCGCGGCTCGCCGCTCAGAGAGCT
CTTCAACGATGCCATCCTGCAGCTGAGGGAGCAGCAGGTGCTGGCCGAGCTGTACAAGAAGTGGTGGATTGAGAAGGGCC
AGTGCGCCACCGACGACTCTGACTCGAGCGACGCCGGCCAGTCGCCGCTGGCAGTCGTTAATGTGGCCGGTGTGTTCTAC
ATCCTGGTGGCCGGTCTGGGCGCTGCGATGGCGGCGGCGCTGGTCGAGTCCGCGTGCGCCGCGGCGATGCGGCGGCGGAG
AAATCGGCGACTGAGGCGGCGGCCGGAGATGGTGGCCGGCTGCGTCGGGGCGACATCGGCGGCTGGCGTCATCATGTAGC
TCTTGGGGAGTTTGAGTAGCAGTTTGAGTAGCAGTTTGAGTAGCAGTTTGAGCAGCAGTTCGAGCAGTAGTTTGAGCACA
GTTTGAGCAGCAGTTTGAGTAGCAGTTTTAGCAGCAGTTTGAGTAGCTGTTTGAGTTGCAGTTTGAGTAGCAGTTTTAGC
AGCAGTTTGAGCACAAGCAGCACAAACCACAGCTACAATAACTTCATCAAGATGCAGTCTTGGTGTGCAAATCGCATTTT
CCGACTTGAATTCTGCATGCTGTTTGCTGCATGCCAGACTCACCTGTGAGCTCACCACCTGACTGAAATTGGTCACCGCA
GACTTGCAGTGCGACAAAGGGAGACTAAAGCGCACATGGAAGGGAAATAACGTGTTTCCCAGAAAATAATTGAAGGCTGG
CTATGATTGAAAATGAACTGCAAGATGAGAAATCATGATTTTGTGGTAATCAAAATGACAAAATCTTTTGACAGAAGCAG
ATTTAGTTATTTTCTTTTTATATGTCATATAAGCAGCTGCATCATAAATTGTTTGCATGGCATAAAAATTAAAATGCAAT
TCAACTTCATTAGAAATAAAGTAAAAATCTTGTTCAACAACGTGTAGTAGCATGCATTGTAATTCTAGAAATTTTTGCGA
TAAATATACATGTATTCCAAATATACAAGGGGTGTCCCAGAAATAGTGTCACTTTTGCTTGCTTCCACAAGTATTAATGT
GTGTTAAAAAATCATATGCCCTAAAAGTTAGCGGCTTATTTTTGCTTTCAGACTGGAACAGATCTTGCAGCTGCTCTCTT
GCAACTCTGTGCTTGATCAGCTCTGCTTGTGGCTTCCTTCTGAGTGAGCATAGAAGCACTATGCAGTGTGTATTTCTATG
GCCAAGGGTATGCGAACAAATGCATGCTGCTTACAGCTTACAGCTGCTTATAAAAATCGGACTTTCGTGGCATGAAAGCT
AAAATAAGCCGCTAACTTTTAGAGCATGATTTTTTAACACACATTAATACTTGTGGAAGCAAGAAAAAGTGACACTACTT
CTGAGACACCCCTCGTAATAAGGTAAATTCCACGCGACTCTGTTTAAAATATTCTGGCCTCCGGAATGTTCCTTTAATTT
AAAAACTATAAATATAATAATGCACACGCGCAATCAAATAGTTGCAACCGTGGGCTCTACATTGCTCC