>Mlig455_056030 {Length: 3592} {Pfam: Ligand-gated ion channel [PF00060.28, score=91.2]; Ligated ion channel L-glutamate- and glycine-binding site [PF10613.11, score=54.2]; Receptor family ligand binding region [PF01094.30, score=40.3]; Bacterial extracellular solute-binding proteins, family 3 [PF00497.22, score=40.0]} {Human: ENSG00000120251, GRIA2, glutamate ionotropic receptor AMPA type subunit 2, [Score=155, Expect=2e-38]; ENSG00000182771, GRID1, glutamate ionotropic receptor delta type subunit 1, [Score=153, Expect=1e-37]; ENSG00000164418, GRIK2, glutamate ionotropic receptor kainate type subunit 2, [Score=152, Expect=2e-37]; ENSG00000152578, GRIA4, glutamate ionotropic receptor AMPA type subunit 4, [Score=148, Expect=5e-36]; ENSG00000163873, GRIK3, glutamate ionotropic receptor kainate type subunit 3, [Score=148, Expect=5e-36]} {Mouse: ENSMUSG00000033981, Gria2, glutamate receptor, ionotropic, AMPA2 (alpha 2), [Score=155, Expect=1e-38]; ENSMUSG00000056073, Grik2, glutamate receptor, ionotropic, kainate 2 (beta 2), [Score=152, Expect=2e-37]; ENSMUSG00000041078, Grid1, glutamate receptor, ionotropic, delta 1, [Score=151, Expect=4e-37]; ENSMUSG00000001985, Grik3, glutamate receptor, ionotropic, kainate 3, [Score=149, Expect=1e-36]; ENSMUSG00000025892, Gria4, glutamate receptor, ionotropic, AMPA4 (alpha 4), [Score=148, Expect=4e-36]} {Dmel: FBgn0038837, CG3822, [Score=149, Expect=1e-36]} {Celegans: WBGene00001614, glr-3, GLutamate Receptor family (AMPA), [Score=133, Expect=7e-32]} {Smed: dd_Smed_v6_21015_0_1, dd_Smed_v6_21015_0_1, [Score=269, Expect=3e-82]} {RNA1310_21369} {RNA815_25524}
GCGAGAAAGCCATGACTGCTTCAAGATCGCTGGTCCAGTTCATTGCCAGCTGCCTCATCTGTGCGTCCGCCTCATCTGCG
CTGACTTTCAAAATCGGACTGGTCGTGCAGAACGGCTTCATCAACGAGTCGCTGATTGAGAATGCGGCATCCAGGCGGAT
CAACTCGAACTGGCGAGTCCTGCCTCATCACGAGGTGTCCTTCGTGCGCGTGACGGTTGACGGGTGCAGCTCGCAGCTCG
CAGTGCAAACTCTGTGCTCAGAGCCCGGCTTATCAGGCCTAATTGGTGTGGGCTGCTGCTCTCTGCTGGACCAGCTGGCC
TCATTCAGCGAGTCCCTCAAGCTGCCGTTCATCGCCCTGCCGACGGCCCTGTGCGATGCCGAACCACTGCTGAAAGGTCA
CACAGTGGTGGGCAGCCACCGACTTTCGGACATGCTGGATGCGGCAGTCCAAGCCGTCACTTCCGATTCCATTGTCAGTA
GCGTGGCGATTCTGTTTGACAGGCAGCAGAGCATGAGGTCGCTGCAGAGCCTGCAGTCTGGTCTCGCTGTTGCCGGAGTG
AGCAGCCTGACGTTCCAGGTGGACACGGCTGCCAACGAATCGGTGACACCCCAGCTGGTGCAGCACCTGAGACGCATTGT
GAAAAAGAAGGTGTTCAAGCTGCTGCTGCTCGCCAGTCCGCGCAATGTGCTCAGCGTGCTCAGCCTGGCCAGCGAAGCCG
GCGTGATGCAGCAGAACTATTTCTGGCTGCTGCTGGACACCGGGCTGTCCGAGGCGGAGCTGCTCAGCGCGACGCCGACA
AACGCGAATGTAGCTCTGCTTAGAGGCGGCGTCTTTAAGGAGTGCTCAGCAGCAGTGATGGACGTGTTTCCCGGATGTCA
GCTGCACCGGATTAAGGAGATGGACGTTCGCTTCGTTGACGCTGTGGAAGCCATGGCCAGGGCGCTGGACGATTCTCTAA
CGGATCCGGGATTCTCTCCTAGCAACGCCACCTGCTTCCCGATGCAGCGGTGGAGCTTTGGATCGACTGTGCTTCACAAA
CTGATCAGTATCAGCCACTATGACACGAGTCGCGGTGTCATCTCATACAATAGCTCTAGCCGGCACTTCAGCTCGCAGGG
CTTGGAACTGGTTGCCACTTACAATGAACTTCGAACCTCTCCAAATTTAATGATAAAGTCTGTCAAATTTGACGCATCAA
CCGGAAACATGCGGCTGCTGTTTCGGTACAAAGATATCGAGTTGGTTTTTCCAAACACATTCATGGGGTTTAAGAACGAC
ACAATAGTGGCTTGTTCTCCTGAGAGTTCTCCTATGACAATTTTCAATCGCACTTTTTCCAACAAGACTGTAATACTGAA
CGGTATGGCTGTTGACATTCTTCGCTACCTGGCAGAGAAACTGGATTTTCGCTTCATCACAAAGGACTCCGACGATGGAA
ACTGGGGTTCGCCGCAGGCTGACTCAGAGTTCTACAACGGATGCGTGGGCGAGCTGCAGCGAGGGACGGTGCACATCGGA
GCCGGGCCCTTCACCAAGACTGCCGTTCGCGACCGAGTGATCGACTACTCAACGGCCCTATTTCAAGAGTCCAACGGGAT
CCTGGTGCCGAAGCCGGAGCGCGAGTCCCGCCTGTGGAACCTGTTCATGCCTTTCACCTACAAGGTTTGGCTCACCATAA
TCGGCACCATTGTTGGCTGCTCGCTGATCGCCTGGCTGTTTGCCTTCTTCTCTCCGTTCTCCGCCTTCAATCTGGGTGCC
GACTATGCAGTCGCCGACGAGGTGTGGCTGAAGGAGTACCTGTGGAGCTGCATCGGCAGTTTCTTGCAGCAGGGCCAGGA
CTTTTATCCGTTTGCGATGTCCGCCAGAGCCGTACTGGCTTCCTGGTGGTTCTTCATAGTCATTATCTATGCTATCTACT
CGGGAGTTCTGACGTCTTTCCTGACTGTCACCGTCACTAAATATCCGATCAAGACGCTGGACGACCTGGTTACCCAAACT
GCGGTGACGCCCTACGTGCGCAGAGGAACGAATCTTTTCGATTTGTTGAGCAACGCGCAGTCTGGCGTCTACAAGCAGCT
TGCCGAACAAGTAGTGCTGTACGACCCGGATGTGGAAAGCTGCCCGTCTAACCCACCCAGAGCAGACCAAGCTTGCGTGG
AGGACTATTCTGCCTTACTGGCAATAGCGCTGAAGAACTGCACCCAGTACTACGTAGCGAACGAACAGTTCAACACTGGC
ACAATCGCTTTTATGTTTCCTGAAGATGCTCCCTATGCTGATTTGTTTAACTTTCACCTGCAGAAGCTGCACGAGTCCGG
CCAAATCCAGCGCTGGTTCGACATCTACTGGTCGAAGGACAACGGCTGCAAAGACGAGACCATATCGGACACGGATCCCA
TCAACTTCGAGGGCATCGGTGGTTGTTGCATCGTTACCTGCGTCTTCTACGGCTTGGGCCTTCTGATTCTGCTGCTGGAG
CTGCTGTGGACTAAGGTGTTGAAGAGGCAGACGCAGGAGTCTGCGGATTATGGATCTAATTAGGAGATTCAGCCTTGATC
AGAAAATGGGGCTTTTGGGGGCTGCTTTGGGGCTGCTTTGAGGCTGTTTAGGACTTTTTGGGGCTGTTTTGGGGCTGCTT
TGGGGCTGTTTTGCGGCTGTTTTAGGGCTGCTTTGGAGCTGTCTCGGGGCTGTTTTGGGGCCGTCTCGGGCTGTTTTAGG
GCTGTTTTAAGGCTGTCTCGGGGCTGTTTTAGGGCTGTTTTGGGGCTGTCTCGGGCTGTTTTAGGGCTGCTTTGGGGCTG
TTTTGGGGCGTTTTTAGGGCTGTTTTGGGGCTGTTTTGGGGCTGTTTTTTTAGCCTTTTTGGGGCTGTTTTGGGGCTGTC
TCGGGGCTGTTTTGGGGCTGTTTTGGGGCTGTTTTGGGCCTGTTTAAAGGCTTCTGTCAAAACTAAAATTAAATTAGTTT
CCGGCTGAACTTTCAAGACTATAATGTAGCTTGCATCACCGAATCTGGATGAAAATTTGAAATTCCAAGTCGACTTCAGC
AATGTTGGTCACGCGGCATCGTTACCGCCATCGACTATAATCTAATGCTAAATTGATGTATGTGCTATTGAGAATTATAA
GAATTGCACTTTCTAAACAGTTTATTAGACTAATGAAAAGCTTATATATGCGTTTGTAATTCATATCAAATTATATTAAA
TAATGCAATTTTAACCATACATACATGTGTTCCTTATTAGCCACGCTCGTACTATGCTTTCCTCTGTCTTTTTGTGCTTG
CGACCTCTTTCTGTCTCCTGACAGTTTGTCTGACACCCTATAGAAACTCCTATTGGAGTTCTGACAGCTTGTCTGACACC
CTATAGAAACTCCTATTGGAGTTCTGACAGCTTGTCTGACACACTGCGCGGTAGTTAATTATGAAAAGAAAAATATTATT
GTTCTGGCTATTATAGGTAAATGCTAAAATTTAAATATAGATAAAAATATTTTCATAGATCTGTTTTCAAGTTGTAAAAA
TTAATCAATAAATTTTATATCGCAAATAACCTGCATGATATGCGATCGCCAATCCTCGGCGGATAAACTGAGT