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| AGRN agrin | The human orthologue of this gene is associated with the following human disease: |
Gene | Official Symbol | AGRN | Official Full Name | agrin | CGNC ID | 1448 | also known as | HSPG, agrin|heparan sulfate proteoglycan | gene type | protein-coding |
| Genomic Map | | Sequence Information | | Gene Expression | | Orthology | | Gene Ontology | Molecular Function | acetylcholine receptor regulator activity, calcium ion binding, chondroitin sulfate binding, more...dystroglycan binding, heparan sulfate proteoglycan binding, heparin binding, laminin binding, protein binding, sialic acid binding, transmembrane receptor protein tyrosine kinase activator activity | Biological Process | activation of transmembrane receptor protein tyrosine kinase activity, cell differentiation, more...G-protein coupled acetylcholine receptor signaling pathway, multicellular organismal development, positive regulation of filopodium assembly, positive regulation of Rho GTPase activity, positive regulation of synaptic growth at neuromuscular junction, positive regulation of transcription from RNA polymerase II promoter, receptor clustering, regulation of receptor activity | Cellular Component | basal lamina, cell junction, extracellular region, integral component of membrane, plasma membrane, synapse |
| Links to other databases | |
Entry 1GEISHA Id | AGRN.UApcr | Data Source | GEISHA ISH Analysis | Forward cDNA Template Primer | AACCCCAACTCCAGCCATTGAG | Reverse cDNA Template Primer | AATTAACCCTCACTAAAGGGATGAAGTCCTTGCCACGATTC | cDNA Template Length | 988 | Complete cDNA Template Probe | show AACCCCAACTCCAGCCATTGAGAGGGCAACGTGCTACAACACCCCACTCGGGTGCTGCTCTGATGGCAAGACTGCAGCT GCTGATGCAGAAGGGAGCAACTGTCCGGCTACCAAAGTCTTCCAAGGAGTCCTCATCTTGGAGGAGGTGGAAGGCCAGG AGCTGTTCTACACACCTGAGATGGCTGACCCCAAGTCAGAGCTCTTCGGGGAGACAGCCAGGAGCATCGAGAGCGCACT GGACGAGCTTTTCCGAAATTCTGATGTTAAGAATGATTTCAAGAGCATCCGTGTCCGAGACCTGGGGCAGAGCAGCGCT GTCCGTGTCATTGTGGAGTCCCACTTTGACCCAGCCACTTCCTACACAGCAGCTGACGTTCAGGCGGCCCTGCTGAAGC AGATCAGAGCCTCCAAGAAGAGGACCATCCTGGTGAAGAAGCCCCAGCAGGAGCATGTCAAATTCATGGACTTCGACTG GATCCCCAGGATCTTCACCACCACCATCACCACCACCACGGCCACCACCATGGCACCTGCCACCACACGGAGGCACACC ACAGCCTCTGCTGCCACCACTGCCCACATCCTGCGCCAGGACACCGTGGGTCACCCCAGTGCCAAGCTGGCAGCACCTG CAAGCACCAGGAGGCCTACATCCACCCTGCCTACCACCGCCCGGCGCAAACCCACTCGCCAGCCCCCCAGCACCACCAA GAAGCCCTCACGACCCTGCGACTCACACCCCTGCCTGCATGGTGGCACCTGTGAGGACGATGGCAAGGAGTTCACCTGC AGCTGCCCAGCAGGCAAAGGAGGAGCTGTGTGTGAGAAACCCATCAGGTACTTCATCCCCAGCTTCGGTGGCAAGTCCT ACCTGGCCTTCAAGATGATGAAGGCGTACCACACCGTGCGCATCGCCATGGAGTTCAGGGCCACGGAGCTCAGCGGGCT GCTGCTCTACAACGGGCAGAATCGTGGCAAGGACTTCATC |
Entry 2GEISHA Id | AGRIN.Halfter.2005 | Data Source | Publication | Complete cDNA Template Probe | show GGACCCCTTAATCTGTGACAACCAAGTGTCGACCGGGGACACACGGATATCTTTGTCAACCCAGCCCCTCAGTACATGT GGCCTGCCCACCGCAACGAGCTGATGCTCAACTCCAGCCTGATGCGGATCACGCTGCGCAACCTGGAGGAGGTGGAGCA CTGCGTGGAAGAACATAGGAAGCTTCTTGCTGACAAGCCCAATAGCTATTTTACCCAGACCCCGCCGACCCCTCGAGAT GCCTGCCGAGGGATGCTGTGTGGGTTCGGGGCGGTGTGCGAGCGCAGCCCCACTGACCCCTCCCAAGCCTCCTGTGTCT GCAAGAAGACAGCTTGCCCTGTGGTGGTGGCTCCTGTCTGCGGCTCCGACTATTCCACCTACAGCAACGAGTGTGAGCT GGAGAAAGCCCAGTGCAACCAGCAGAGGCGGATCAAGGTCATCAGCAAGGGACCATGTGGCTCCAAGGACCCCTGTGCA GAGGTGACGTGCAGCTTTGGCAGCACGTGCGTCCGCTCTGCAGATGGCCAGACGGCAGGGTGTGTTTGCCCCGCATCCT GCAGCGGTGTGGCCGAGAGCATCGTCTGCGGCAGTGATGGCAAGGACTACCGCAGCGAGTGCGACCTCAACAAGCACGC CTGTGACAAGCAGGAGAATGTCTTCAAGAAGTTTGATGGAGCCTGCGACCCCTGTAAGGGCATCCTCAACGACATGAAC CGTGTGTGCCGGGTGAACCCCCGCACCCGCCGGGTGGAGCTGCTCTCCCGCCCCGAGAACTGTCCCTCAAAGAGGGAGC CAGTGTGCGGTGACGATGGGGTGACATATGCCAGTGAGTGTGTGATGGGGCGCACGGGGGCCATCCGGGGGCTGGAGAT CCAGAAGGTGCGCTCTGGGCAGTGCCAGCACCAGGACAAATGCAAGGATGAATGCAAGTTCAATGCTGTCTGCCTGAAG CGGTGGCACGCGCGCTGCTCCTGCGACCGCATCACTTGTGATGGCACCTACCGGCCTGTCTGCGCCCGCGACAGCCGCA CCTACAGCAATGACTGTGAGCGGCAGAAAGCCGAGTGCCACCAGAAAGCTGCCATCCCAGTGAAGCACAGCGGACCCTG TGACCTGGGTACTCCCAGCCCCTGCCTGAGCGTGGAGTGCACTTTTGGGGCCACCTGCGTGGTGAAGAACCGGGAGCCC GTGTGCGAGTGCCAGCAGGTGTGCCAGGGCCGCTATGACCCCGTCTGCGGCAGCGACAACCGCACCTACGGCAACCCCT GCGAGCTCAACGCCATGGCCTGCGTCCTCAAGAGAGAGATCAGGGTGAAGCACAAGGGGCCCTGCGACCGCTGTGGCAA GTGCCAGTTTGGGGCCATCTGCGAGGCGGAGACGGGGCGGTGCGTGTGCCCCACGGAGTGCGTGCCCTCCTCCCAGCCT GTCTGTGGCACAGATGGCAACACCTACGGCAGCGAGTGTGAGCTCCACGTCCGAGCGTGCACGCAGCAGAAGAACATTT TGGTGGCTGCCCAAGGCGACTGCAAGTCCTGCGGCACGACGGTGTGCTCCTTCGGCAGCACGTGTGTGGGTGGGCAGTG CGTGTGTCCCCGCTGTGAGCAGCAGCCCCTGGCCCAGGTCTGTGGCACCGATGGCCTCACCTATGACAACCGCTGCGAG CTCCGAGCAGCCTCCTGCCAACAGCAGAAGAGCATCGAGGTGGCCAAGATGGGGCCGTGTGAGGACGAATGTGGCTCAG GGGGCTCAGGCTCTGGTGATGGGAGTGAGTGTGAGCAGGACCGGTGCCGGCACTACGGGGGCTGGTGGGATGAGGATGC AGAGGACGACCGCTGTGTGTGTGACTTCACCTGCCTGGCGGTGCCACGCAGCCCGGTCTGTGGCTCTGACGATGTGACC TACGCCAATGAGTGTGAGCTGAAGAAGACGAGGTGTGAAAAACGCCAGAACCTCTATGTCACCAGCCAAGGAGCCTGCC GTGCCCTCACCACGACCCCACCGCCTCTCCCAGTTGTGCACTGCAGTCAGACCATCTATGGGTGCTGCCCGGACAACAT GACCCTGGCGCTCGGAGTGGGTGCAGCCGGGTGCCCAAGCACCTGCCAGTGCAACCCCTATGGCTCCTATGGAGGAACC TGCGACCCTGCCACGGGGCAGTGCTCCTGCAAGCCAGGTGTTGGGGGGCTCAAGTGTGACCGCTGTGAGCCTGGCTTCT GGAACTTCCGTGGCATCGTCACCGACAGCAAGAGCGGCTGCACGCCCTGTAACTGTGACCCGGTGGGCTCAGTGCGTGA TGACTGCGAGCAGATGACTGGGCTCTGCTCGTGCAAGACTGGAATCACTGGCATGAAGTGCAACCAGTGTCCCAACGGC AGCAAGATGGGCATGGCTGGCTGTGAAAAAGACCCATCAGCTCCAAAATCCTGTGAGGAAATGAGCTGCGAGTTCGGGG CTACGTGTGTGGAGGTCAACGGCTTTGCCCACTGCGAGTGCCCGTCCCCACTCTGCTCAGAGGCCAACATGACCAAGGT GTGTGGCTCTGATGGTGTTACCTATGGGGACCAGTGCCAGCTGAAGACCATTGCGTGCCGGCAGGGACAGCTCATCACA GTGAAACACGTGGGGCAATGCCACGAGTCTATAACTCACACGAGCCATACGATGCCACCCACCCCTCTGCCCACCTTGC CCTTGGACAAGCTCATCGTACCCCCACCACTGCAGCTGACCACCCAGGCTCCAGAGCCCACTGAGCTGGCCACCACCTC CCTGCTGATGGAAGCCAGCCCCACTACAAGAAGTCACCCTACAACAAGGCGTGTCACAACGACCCGACCTGTCACCACA CCATGGATGACCCATGGAGTGCTGAAGACCACCGTCCGCCCACTCTCCACCTCTCCAGTGGTCCTGGCCACCACTCAGC CTCCCTACGCTGAATCGGGCAGTGCAGAAGGCAGTGGGGACCAGGAGATGAGCATCAGTGGGGACCAGGAATCCAGTGG GGCAGGCTCTGCTGGGGAAGAGGAGGTGGAGGAAAGCCAGGTAACCCCAACTCCAGCCATTGAGAGGGCAACGTGCTAC AACACCCCACTCGGGTGCTGCTCTGATGGCAAGACTGCAGCTGCTGATGCAGAAGGGAGCAACTGTCCGGCTACCAAAG TCTTCCAAGGAGTCCTCATCTTGGAGGAGGTGGAAGGCCAGGAGCTGTTCTACACACCTGAGATGGCTGACCCCAAGTC AGAGCTCTTCGGGGAGACAGCCAGGAGCATCGAGAGCGCACTGGACGAGCTTTTCCGAAATTCTGACGTTAAGAATGAT TTCAAGAGCATCCGTGTCCGAGACCTGGGGCAGAGCAGCGCTGTCCGTGTCATTGTGGAGTCCCACTTTGACCCAGCCA CTTCCTACACAGCAGCTGACGTCCAGGCGGCCTCGCTGAAGCAGATCAGAGCCTCCAAGAAGAGGACCATCCTGGTGAA GAAACCCCAGCAGGAGCATGTCAAATTCATGGACTTCGACTGGATCCCCAGGATCTTCACCACCACCATCACCACCACC ACGGCCACCACCATGGCACCTGCCACCACACGGAGGCACACCACAGCCTCTGCTGCCACCACTGCCCACATCCTGCGCC AGGACACCGTGGGTCACCCCAGTGCCAAGCTGGCAGCACCTGCAAGCACCAGGAGGCCTACATCCACCCTGCCTACCAC CGCCCGGCGCAAACCCACTCGCCAGCCCCCCAGCACCACCAAGAAGCCCTCACGACCCTGCGACTCACACCCCTGCCTG CATGGTGGCACCTGTGAGGACGATGGCAGGGAGTTCACCTGCAGGTGCCCAGCAGGCAAAGGAGGAGCTGTGTGTGAGA AACCCATCAGGTACTTCATCCCCAGCTTCGGTGGCAAGTCCTACCTGGCCTTCAAGATGATGAAGGCGTACCACACCGT GCGCATCGCCATGGAGTTCAGGGCCACGGAGCTCAGCGGGCTGCTGCTCTACAACGGGCAGAATCGTGGCAAGGACTTC ATCTCCCTGGCACTGGTGGGCGGCTTCGTGGAGCTCAGGTTTAACACAGGCTCTGGCACGGGCGTCATCACCAGCAAGG TGCGCGTGGAGCCTGGCAAGTGGCACCAGCTGGTGGTGAACCGCAACCGCCGCAGCGGCATGCTGGCTGTGGATGGGGA GCACGTCAGTGGGGAGAGCCCCACGGGTACCGATGGGCTCAACCTCGACACCGACCTCTTTGTTGGAGGAGCTCCTGAA GACCAAATGGCTGTAGTGGCAGAGCGTACTGCGGCTACGGTTGGCCTGAAGGGCTCGATCCGCCTCCTGGATGTGAACA ACCAGATGTACGACCTGAGGGAGAAAGGCAGCGATGTGCTGTATGGCAGTGGGGTGGGCGAGTGTGGCAACGACCCCTG CCACCCCAACCCCTGCCACCATGGGGCATCCTGCCACGTCAAGGAGGCAGAGATGTTCCACTGCGAGTGTCTCCACTCC TACACCGGTCCAACATGTGCTGATGAGAGGAACCCATGCGATCCAACGCCGTGCCACATCTCTGCCACCTGCCTGGTGC TGCCGGAGGGAGGTGCCATGTGTGCCTGTCCCATGGGACGGGAAGGAGAGTTCTGTGAGCGAGTGACGGAGCAGGACCA CACCATGCCCTTCCTCCCAGAGTTCAATGGCTTTTCCTACCTGGAGCTGAACGGGCTGCAGACCTTGTTCCTGACCTGC AGACAAATGTCCATGGAAGTGGTGTTCCTGGCCAAGAGTCCCAGTGGCATGATCTTCTACAATGGGCAGAAGACAGATG GCAAAGGAGACTTTGTGTCTCTGGCTTTGCACGATGGCTACCTGGAGTATCGATATGACCTGGGAAAGGGGGCAGCTGT GCTCAGGAGCAAAGAGCCAGTTCCCCTCAACACCTGGATAAGCGTTTTGTTGGAGAGGAGTGGGCGCAAAGGGGTAATG AGGATCAACAATGGCGAGAGGGTGATGGGAGAGTCACCGAAATCCCGTAAGGTGCCTCACGCCTTCCTCAACCTGAAGG AGCCATTCTACGTGGGGGGAGCCCCCGATTTCAGCAAGCTGGCTCGAGCTGCAGCCATCTCCACCAGCTTCTATGGAGC TGTGCAGAGGATCTCCATCAAAGGGGTTCCCTTGCTGAAGGAGCAGCACATCCGCAGCGCCGTTGAAATCTCCACTTTC CGTGCCCACCCCTGCACCCAAAAGCCCAACCCGTGCCAGAATGGAGGCACCTGCAGCCCCCGGTTGGAGAGCTACGAGT GTGCCTGCCAGAGGGGCTTCTCTGGGGCTCACTGCGAGAAAGTGATCATTGAGAAGGCAGCTGGAGATGCAGAGGCCAT TGCATTTGATGGTAGGACGTACATGGAGTACCACAATGCCGTGACAAAGAGTCCCGACGCATTGGACTACCCTGCTGAG CCCAGCGAGAAGGCTTTGCAATCCAACCACTTTGAGCTGAGCATCAAAACAGAAGCAACCCAGGGCCTGATCTTGTGGA GTGGGAAGGGGCTGGAGCGATCCGACTACATCGCCCTCGCCATCGTGGATGGCTTCGTGCAGATGATGTATGACCTGGG CTCCAAGCCAGTCGTCCTGCGGTCCACAGTCCCCATCAACACCAACCACTGGACCCACATCAAAGCATACAGAGTACAG AGAGAAGGCTCCCTCCAGGTCGGCAACGAAGCTCCCATCACTGGCTCTTCACCGCTGGGTGCCACACAGCTGGACACGG ATGGGGCCCTGTGGCTGGGGGGAATGGAGCGGCTCAGCGTGGCTCACAAGCTGCCCAAGGCTTACAGCACTGGCTTTAT TGGCTGTATAAGGGACGTGATTGTCGACCGCCAAGAACTGCATCTGGTGGAGGACGCTTTAAACAACCCCACGATATTA CACTGCTCAGCCAAATAGACCCCCAGGGACCCTTCCTTCTCCTTCCTTCCTCCTGCCTATTGCTGTAATTATTTTCTAT TTTTGTAAACTTATTGCTTTTTATATTTTGGGGGGAGGGGGGAAAGGGAGGGGAGGAACCACCATTTCTGTTGGGTTAT TTTGTTCGGTTGCGGTATATCCAGGTCAGTCAGACTCTAATCGAGCGGCAGCAACAAAGAACAAACCTTGAACCAAGTC TCCAAGAAGTGACAGAAGAAGTTCCCCATTGCACCTGTGTTGTAAATCTCACTCATACTTGAAGCTTATTTTGGGGTTT GTTTATTTTCCCCTCTTTTACTTGTGTTCTTGGGTTGTTGTTCACACCATGGGGGGATAAAGGATGCTGGTGCTGGCAA GCCCTGTGGCCTTTGTGGGTTCACCACTCGCCTATCTCAGGCCCCTGTGTTCACCCCATCTCCCTCCTCCCCCCTTCCT CTACTATAATTTATGTGTGTAAGGATCTCAAGTGCTTTTCTCCTTTGTGCTCTGTTAAATCAGGGATGCCATGCACTGG AAGAGAGACCAAGGTCTGCTCTGAGCAGGCAGAAAAGCATTGCTCTTTGGTTGTCTTATGCCTGTTTGCTGGACTGAGA GGGGCTGGGGGGGGGGGGGAAGCGTCGGTTTCTCTGTTGGCTCTCCCCCTCCTCCTCCTCCTCTTGGACACATGCAGAA GCAGCTGTGAAACCTCATTTCCATGCTTTGTGTTGACCCAGACTTGTCCTCACCACCTGCTTGCCCTGGCTGCTCTTCC GAGAGCTTCTGTGCCCCAAACCGTGCACCACTGACAACTTGCAACGTGTCCTCAGGAGCTGGGGGTCCCCTCCTTCAGC ACCGACTGCGAGGGGTATGGGATTGGGTCCTCTTCTGCTTTAAAGAAACTTCTTGGACCTGTCCTGCCCTGACCCACGT CCATTTTCCAGCCTCCTGGCACGCTTGCCCTCTGCCTACCACGAGGACGGTTGCAGCGCATCTCTGTAAGCTGGTGTTA GAACCCATGCCATGGCAAACGCTCACCGTTTTACCTTTGTCTCCAAGCTTTTGCAACACCCGGTGCAATGCAGGGGCTT CCATGCCGTGATCAGAGCTCCTCCAGTGCCATCAGCCATGGCTCCAGCAGGATGGGGTGGGCTGGGAGCCAAGTGGCCA GATGGGAGAGCTGGGGAGGGGTTTTTTTTTAAAGTGTTGTCTTTCCTGCCTTTGAAGTGTTGTCTTCCTCCATTCGAGT CTTGAAAGCAAAATGTCAGCTGCACAGCCACGGTGTGTGTGAGCGTGTGTGGATGTGTGCAAACACTGGGTCTCCCAAA GCAAAAACAAAGGGATTGCAGCTCTGAGCACTGCAACTCAGGTTCCTTCTCCATGGGAAGAGCTCCCTGCTGCCACATG GCATCTGTCACCACTGGGCCACCACGGTGTCCCCATCCCACCCTGCGAAGGCAGCTGGCAGTGCTTTGTGGCCAACTGC CTTATGGAGCATCGAGAATGGGTTGGAAGGGTCCAGCTGGCTGTCAGGTGTTCCCTGACATCCCGGGGGCTGTCGGCTT GTGGTTTCACACCGATTCCTATCTCACCTTCTGCTGTACCCTTCCAAAATGCTCTTTCTGAGCACTGAGCTTTCAGCCA CGAGAAGTCGGGGGGCTTTTCTCAGGGCGAGCTCTGAATGCAGACCTAATCAATGGGGACGGCACCATGGCAATCCACT CTGACTGCCTCTTGCTTTTTGCTCCTTGCCCAAGCAAGAAGAGCCCCATTGCCTACCCCAACCCGTGGAAGTCAACTCT TGATCTATCATCATGCCCCAAAAACCCAATGGTTATGTCTTTCAGGGAAGATGGTGAGAAGTGGAGGCTCCAGTGTTTG TGTGTGTGGCAATAGCACGTGTTGAGTGGCTGCTGTATATAACGTGTGGGTCCTGGGGGTGATGGCTGCGTTGGGGCTT CCAGCTGGATGTCATGGCCACCCCACTGAGACCAATGGGGAGCGTGCCAGCTCAGTGGGAAAGGGCGCCATGGAGGAAG CTGCTCAATATCCAGAATGCCACTGAAATGAAGCCAGGGTCACTGC | Citation | Halfter W, Dong S, Schurer B, Ring C, Cole GJ, Eller A. Embryonic synthesis of the inner limiting membrane and vitreous body. Invest Ophthalmol Vis Sci. 2005 Jun;46(6):2202-9. | Copyright | Copyright © 2013 by the Association for Research in Vision and Ophthalmology | Comments | As insufficient information is provided in publication to verify exact sequence used to synthesize probe, the sequence below was obtained from NCBI NM_205527.1 |
Stage | Image (click image to view full size) | Location (click to highlight) | Comments (click to highlight) | 31-36 | | stage 36 | | stage 36 | | Eye
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Entry 3GEISHA Id | AGRIN.Ma.1994 | Data Source | Publication | Complete cDNA Template Probe | show CCTCCTTTTCACCTCCTGGAACAAAAGTAGCCCTTCTCTCCGCGCTCTGCCCGACCCGCTTTGTGCAGCGGGGACGCGG GGGGCTGCGGGCGATGGGGGGGTCGGGGGCGGCCGCGACCCTGGCGCTGGGTTTGGCGCTGGGATTGGCCCTGGGAGGG TGGGCGAACTGCCCCGAACGGGAGCTGCAGCGCCGAGAGGAGGAGGCCAACGTGGTGCTCACCGGAACGGTGGAGGAGA TCATGAACGTGGACCCCGTGCACCACACCTACTCGTGCAAGGTGAGAGTGTGGCGTTACCTGAAAGGCAAAGACATCGT CACCCACGAGATCCTCTTGGACGGTGGGAACAAAGTGGTCATCGGTGGCTTCGGGGACCCCTTAATCTGTGACAACCAA GTGTCGACCGGGGACACACGGATATTCTTTGTCAACCCAGCCCCTCAGTACATGTGGCCTGCCCATCGCAACGAGCTGA TGCTCAACTCCAGCCTGATGCGGATCACGCTGCGCAACCTGGAGGAGGTGGAGCACTGCGTGGAAGAACATAGGAAGCT TCTTGCTGACAAGCCCAATAGCTATTTTACCCAGACCCCGCCGACCCCTCGAGATGCCTGCCGAGGGATGCTGTGTGGG TTCGGGGCGGTGTGCGAGCGCAGCCCCACTGACCCCTCCCAAGCCTCCTGTGTCTGCAAGAAGACAGCTTGCCCTGTGG TGGTGGCTCCTGTCTGCGGCTCCGACTATTCCACCTACAGCAACGAGTGTGAGCTGGAGAAAGCCCAGTGCAACCAGCA GAGGCGGATCAAGGTCATCAGCAAGGGACCATGTGGCTCCAAGGACCCCTGTGCAGAGGTGACGTGCAGCTTTGGCAGC ACGTGCGTCCGCTCTGCAGATGGCCAGACGGCCAGGTGTGTGTGCCCCGCATCCTGCAGCGGTGTGGCTGAGAGCATCG TCTGCGGCAGTGATGGCAAGGACTACCGCAGTGAGTGCGACCTCAACAAGCACGCCTGTGACAAGCAGGAGAATGTCTT CAAGAAGTTTGATGGAGCCTGCGACCCCTGTAAGGGCATCCTCAACGACATGAACCGTGTGTGCCGGGTGAACCCCCGC ACCCGCCGGGTGGAGCTGCTCTCCCGCCCCGAGAACTGTCCCTCAAAGAGGGAGCCAGTGTGCGGTGACGATGGGGTGA CGTATGCCAGTGAGTGTGTGATGGGGCGCACGGGGGCCATCCGGGGGCTGGAGATCCAGAAGGTGCGCTCTGGGCAGTG CCAGCACCAGGACAAATGCAAGGATGAATGCAAGTTCAATGCTGTCTGCCTGAACCGCCGTGGCACGGCGCGCTGCTCC TGCGACCGCATCACTTGTGATGGCACCTACCGGCCTGTCTGTGCCCGCGACAGCCGCACCTACAGCAACGACTGTGAGC GGCAGAAAGCCGAGTGCCACCAGAAAGCTGCCATCCCAGTGAAGCACAGCGGACCCTGTGACCTGGGTACTCCCAGCCC CTGCCTGAGCGTGGAGTGCACTTTTGGGGCCACCTGCGTGGTGAAGAACCGGGAGCCCGTGTGCGAGTGCCAGCAGGTG TGCCAGGGCCGCTATGACCCCGTCTGCGGCAGCGACAACCGCACCTACGGCAACCCCTGCGAGCTCAACGCCATGGCCT GCGTCCTCAAGAGAGAGATCAGGGTGAAGCACAAGGGGCCCTGCGACCGCTGTGGCAAGTGCCAGTTTGGGGCCATCTG CGAGGCGGAGACGGGGCGGTGCGTGTGCCCCACGGAGTGCGTGCCCTCCTCCCAGCCTGTCTGTGGCACAGATGGCAAC ACCTACGGCAGCGAGTGTGAGCTCCACGTCCGAGCGTGCACGCAGCAGAAGAACATTTTGGTGGCTGCCCAAGGCGACT GCAAGTCCTGCGGCAGCACGGTGTGCTCCTTCGGCAGCACGTGTGTGGGTGGGCAGTGCGTGTGTCCCCGCTGTGAGCA GCAGCCCCTGGCCCAGGTCTGTGGCACCGATGGCCTCACCTATGACAACCGCTGCGAGCTCCGAGCAGCCTCCTGCCAA CAGCAGAAGAGCATCGAGGTGGCCAAGATGGGGCCGTGTGAGGACGAATGTGGCTCAGGGGGCTCAGGCTCTGGTGATG GGAGTGAGTGTGAGCAGGACCGGTGCCGGCACTACGGGGGCTGGTGGGATGAGGATGCAGAGGACGACCGCTGTGTGTG TGACTTCACCTGCCTGGCGGTGCCACGCAGCCCGGTCTGTGGCTCTGACGATGTGACCTACGCCAATGAGTGTGAGCTG AAGAAGACGAGGTGTGAAAAACGCCAGGACCTCTATGTCACCAGCCAAGGAGCCTGCCGTGCCCTCACCACGACCCCAC CGCCTCTCCCAGTTGTGCACTGCAGTCAGACCATCTATGGGTGCTGCCCGGACAACATGACCCTGGCGCTCGGAGTGGG TGCAGCCGGGTGCCCAAGCACCTGCCAGTGCAACCCCTATGGCTCCTATGGAGGAACCTGCGACCCTGCCACGGGGCAG TGCTCCTGCAAGCCAGGTGTTGGGGGGCTCAAGTGTGACCGCTGTGAGCCTGGCTTCTGGAACTTCCGTGGCATCGTCA CCGACAGCAAGAGCGGCTGCACGCCCTGTAACTGCGACCCGGTGGGCTCAGTGCGTGATGACTGCGAGCAGATGACTGG GCTCTGCTCCTGCAAGACTGGGATCACTGGCATGAAGTGCAACCAGTGTCCCAACGGCAGCAAGATGGGCATGGCTGGC TGTGAAAAAGACCCATCAGCTCCAAAATCCTGTGAGGAAATGAGCTGCGAGTTCGGGGCTACGTGTGTGGAGGTCAACG GCTTTGCCCACTGCGAGTGCCCGTCCCCACTCTGCTCAGAGGCCAACATGACCAAGGTGTGTGGCTCTGATGGTGTTAC CTATGGGGACCAGTGCCAGCTGAAGACCATTGCGTGCCGGCAGGGACAGCTCATCACAGTGAAACACGTGGGGCAATGC CACGAGTCTATAACTCACACGAGCCATACGATGCCACCCACCCCTCTGCCCACCTTGCCCTTGGACAAGCTCATCGTAC CCCCACCACTGCAGCTGACCACCCAGGCTCCAGAGCCCACTGAGCTGGCCACCACCTCCCTGCTGATGGAAGCCAGCCC CACTACAAGAAGTCACCCTACAACAAGGCGTGTCACAACGACCCGACCTGTCACCACACCATGGATGACCCATGGAGTG CTGAAGACCACCGTCCGCCCACTCTCCACCTCTCCAGTGGTCCTGGCCACCACTCAGCCTCCCTACGCTGAATCGGGCA GTGCAGAAGGCAGTGGGGACCAGGAGATGAGCATCAGTGGGGACCAGGAATCCAGTGGGGCAGGCTCTGCTGGGGAAGA GGAGGTGGAGGAAAGCCAGGTAACCCCAACTCCAGCCATTGAGAGGGCAACGTGCTACAACACCCCACTCGGGTGCTGC TCTGATGGCAAGACTGCAGCTGCTGATGCAGAAGGGAGCAACTGTCCGGCTACCAAAGTCTTCCAAGGAGTCCTCATCT TGGAGGAGGTGGAAGGCCAGGAGCTGTTCTACACACCTGAGATGGCTGACCCCAAGTCAGAGCTCTTCGGGGAGACAGC CAGGAGCATCGAGAGCGCACTGGACGAGCTTTTCCGAAATTCTGATGTTAAGAATGATTTCAAGAGCATCCGTGTCCGA GACCTGGGGCAGAGCAGCGCTGTCCGTGTCATTGTGGAGTCCCACTTTGACCCAGCCACTTCCTACACAGCAGCTGACG TTCAGGCGGCCCTGCTGAAGCAGATCAGAGCCTCCAAGAAGAGGACCATCCTGGTGAAGAAGCCCCAGCAGGAGCATGT CAAATTCATGGACTTCGACTGGATCCCCAGGATCTTCACCACCACCATCACCACCACCACGGCCACCACCATGGCACCT GCCACCACACGGAGGCACACCACAGCCTCTGCTGCCACCACTGCCCACATCCTGCGCCAGGACACCGTGGGTCACCCCA GTGCCAAGCTGGCAGCACCTGCAAGCACCAGGAGGCCTACATCCACCCTGCCTACCACCGCCCGGCGCAAACCCACTCG CCAGCCCCCCAGCACCACCAAGAAGCCCTCACGACCCTGCGACTCACACCCCTGCCTGCATGGTGGCACCTGTGAGGAC GATGGCAAGGAGTTCACCTGCAGCTGCCCAGCAGGCAAAGGAGGAGCTGTGTGTGAGAAACCCATCAGGTACTTCATCC CCAGCTTCGGTGGCAAGTCCTACCTGGCCTTCAAGATGATGAAGGCGTACCACACCGTGCGCATCGCCATGGAGTTCAG GGCCACGGAGCTCAGCGGGCTGCTGCTCTACAACGGGCAGAATCGTGGCAAGGACTTCATCTCCCTGGCGCTGGTGGGC GGCTTCGTGGAGCTCAGGTTTAACACAGGCTCTGGCACGGGCGTCATCACCAGCAAGGTGCGCGTGGAGCCTGGCAAGT GGCACCAGCTGGTGGTGAACCGCAACCGCCGCAGCGGCATGCTGGCTGTGGATGGGGAGCCCCACGTCAGTGGGGAGAG CCCCACGGGTACCGATGGGCTCAACCTCGACACCGACCTCTTTGTTGGAGGAGCTCCCGAGGACCAAATGGCTGTAGTG GCAGAGCGTACTGCGGCTACGGTTGGCCTGAAGGGCTGCATCCGCCTCCTGGATGTGAACAACCAGATGTACGACCTGA GGGAGAAAGGCAGCGATGTGCTGTATGGCAGTGGGGTGGGCGAGTGTGGCAACGACCCCTGCCACCCCAACCCCTGCCA CCATGGGGGCATCTGCCACGTCAAGGAGGCAGAGATGTTCCACTGCGAGTGTCTCCACTCCTACACCGGTCCAACATGT GCTGATGAGAGGAACCCATGCGATCCAACGCCGTGCCACATCTCTGCCACCTGCCTGGTGCTGCCGGAGGGAGGTGCCA TGTGTGCCTGTCCCATGGGACGGGAAGGAGAGTTCTGTGAGCGAGTGACGGAGCAGGACCACACCATGCCCTTCCTCCC AGAGTTCAATGGCTTTTCCTACCTGGAGCTGAACGGGCTGCAGACCTTTGTTCCTGACCTGCAGGACAAAATGTCCATG GAAGTGGTGTTCCTGGCCAAGAGTCCCAGTGGCATGATCTTCTACAATGGGCAGAAGACAGATGGCAAAGGAGACTTTG TGTCTCTGGCTTTGCACGACGGCTACCTGGAGTATCGATATGACCTGGGCAAAGGGGCAGCTGTGCTCAGGAGCAAAGA GCCAGTTCCCCTCAACACCTGGATAAGCGTTTTGTTGGAGAGGAGTGGGCGCAAAGGGGTAATGAGGATCAACAATGGC GAGAGGGTGATGGGAGAGTCACCGAAATCCCGTAAGGTGCCTCACGCCTTCCTCAACCTGAAGGAGCCATTCTACGTGG GGGGAGCCCCCGATTTCAGCAAGCTGGCTCGAGCTGCAGCCATCTCCACCAGCTTCTATGGAGCTGTGCAGAGGATCTC CATCAAAGGGGTTCCCTTGCTGAAGGAGCAGCACATCCGCAGCGCCGTTGAAATCTCCACTTTCCGTGCCCACCCCTGC ACCCAAAAGCCCAACCCGTGCCAGAATGGAGGCACCTGCAGCCCCCGGTTGGAGAGCTACGAGTGTGCCTGCCAGAGGG GCTTCTCTGGGGCTCACTGCGAGAAAGTGATCATTGAGAAGGCAGCTGGAGATGCAGAGGCCATTGCATTTGATGGTAG GACGTACATGGAGTACCACAATGCCGTGACAAAGAGTCCCGACGCATTGGACTACCCTGCTGAGCCCAGCGAGAAGGCT TTGCAATCCAACCACTTTGAGCTGAGCATCAAAACAGAAGCAACCCAGGGCCTGATCTTGTGGAGTGGGAAGGGGCTGG AGCGATCCGACTACATCGCCCTCGCCATCGTGGATGGCTTCGTGCAGATGATGTATGACCTGGGCTCCAAGCCAGTCGT CCTGCGGTCCACAGTCCCCATCAACACCAACCACTGGACCCACATCAAAGCATACAGAGTACAGAGAGAAGGCTCCCTC CAGGTCGGCAACGAAGCTCCCATCACTGGCTCTTCACCGCTGGGTGCCACACAGCTGGACACGGATGGGGCCCTGTGGC TGGGGGGAATGGAGCGGCTCAGCGTGGCTCACAAGCTGCCCAAGGCTTACAGCACTGGCTTTATTGGCTGTATAAGGGA CGTGATTGTCGACCGCCAAGAACTGCATCTGGTGGAGGACGCTTTAAACAACCCCACGATATTACACTGCTCAGCCAAA TAGACCCCCAGGGACCCTTCCTTCTCCTTCCCTTCCTCCTGCCTATTGCTGTAATTATTTTCTATTTTTGTAAACTTAT TGCTTTTTATATTTTGGGGGGAGGGGGGAAAGGGAGGGGAGGAACCACCATTTCTGTTGGGTTATTTTGTTCGGTTGCG GTATATCCAGGTCAGTCAGACTCTAATCGAGCGGCAGCAACAAAGAACAAACCTTGAACCAAGTCTCCAAGAAGTGACA GAAGAAGTTCCCCATTGCACCTGTGTTGTAAATCTCACTCATACTTGAAGCTTATTTTGGGGTTTGTTTATTTTCCCCT CTTTTACTTGTGTTCTTGGGTTGTTGTTCACACCATGGGGGGATAAAGGATGCTGGTGCTGGCAAGCCCTGTGGCCTTT GTGGGTTCACCACTCGCCTATCTCAGGCCCCTGTGTTCACCCCATCTCCCTCCTCCCCCCTTCCTCTCACTATAATTTA TGTGTGTAAGGATCTCAAGTGCTTTTCTCCTTTGTGCTCTGTTAAATCAGGGATGCCATGCACTGGAAGAGAGACCAAG GTCTGCTCTGAGCAGGCAGAAAAGCATTGCTCTTTGGTTGTCTTATGCCTGTTTGCTGGACTGAGAGGGGCTGGGGGGG GGGGGGAAGCGTCGGTTTCTCTGTTGGCTCTCCCCCTCCTCCTCCTCCTCTTGGACACATGCAGAAGCAGCTGTGAAAC CTCATTTCCATGCTTTGTGTTGACCCAGACTTGTCCTCACCACCTGCTTGCCCTGGCTGCTCTTCCGAGAGCTTCTGTG CCCCAAACCGTGCACCACTGACAACTTGCAACGTGTCCTCAGGAGCTGGGGGTCCCCTCCTTCCAGCACCGACTGCGAG GGGTATGGGATTGGGTCCTCTTCTGCTTTAAAGAAACTTCTTGGACCTGTCCTGCCCTGACCCACGTCCATTTTCCAGC CTCCTGGCACGACTTGCCCTCTGCCTACCACGAGGACGGTTGCAGCGCATCTCTGTAAGCTGGTGTTAGAACCCATGCC ATGGCAAACGCTCACCGTTTTACCTTTGTCTCCAAGCTTTTGCAACACCCGGTGCAATGCAGGGGCTTCCATGCCGTGA TCAGAGCTCCTCCAGTGCCATCAGCCATGGCTCCAGCAGGATGGGGTGGGCTGGGAGCCAAGTGGCCAGATGGGAGAGC TGGGGAGGGGTTTTTTTTAAAGTGTTGTCTTTCCTGCCTTTGAAGTGTTGTCTTCCTCCATTCGAGTCTTGAAAGCAAA ATGTCAGCTGCACAGCCACGGTGTGTGTGAGCGTGTGTGGATGTGTGCAAACACTGGGTCTCCCCAAAGCAAAAACAAA GGGATTGCAGCTCTGAGCACTGCAACTCAGGTTCCTTCTCCATGGGAAGAGCTCCCTGCTGCCACATGGCATCTGTCAC CACTGGGCCACCACGGTGTCCCCATCCCACCCTGCGAAGGCAGCTGGCAGTGCTTTGTGGCCAACTGCCTTATGGAGCA TGCAGAATGGGTTGGAAGGGTCCAGCTGGCTGTCAGGTGTTCCCTGACATCCCGGGGGCTGTCGGCTTGTGGTTTCACA CCGATTCCTATCTCACCTTCTGCTGTACCCTTCCAAAATGCTCTTTCTGAGCACTGAGCTTTCAGCCACGAGAAGTCGG GGGGCTTTTCTCAGGGCGAGCTCTGAATGCAGACCTAATCAATGGGGACGGCACCATGGCAATCCACTCTGACTGCCTC TTGCTTTTTGCTCCTTGCCCAAGCAAGGAAGAGCCCCATTGCCTACCCCAACCCGTGGAAGTCAACTCTTGATCTATCA TCATGCCCCAAAAACCCAATGGTTATGTCTTTCAGGGAAGATGGTGAGAAGTGGAGGCTCCAGTGTTTGTGTGTGTGGC AATAGCACGTGTTGAGTGGCTGCTGTATATAACGTGTGGGTCCTGGGGGTGATGGCTGCGTTGGGGCTTCCAGCTGGAT GTCATGGCCACCCCACTGAGACCAATGGGGAGCGTGCCAGCTCCAGTGGGAAAGGGCGCCATGGAGGAAGCTGCTCAAT ATCCAGAATGCCACTGAAATGAAGCCAGGGTCACTG | Citation | Ma E1, Morgan R, Godfrey EW. Distribution of agrin mRNAs in the chick embryo nervous system. J Neurosci. 1994 May;14(5 Pt 2):2943-52. | Copyright | Copyright © 1994 Society for Neuroscience | Comments | Insufficient information provided in publication to verify exact sequence used to synthesize probe. Sequence was obtained from NCBI (NM_205527.3). AGRIN is also known as HSPG in NCBI. |
| Data from NCBI Unigene EST Profile Unigene ID: Gga.48948 |
MouseFrogFruit FlyZebra FinchZebrafish
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