Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Gene Name Gucy1a1
Plot displaying the genomic locations of a parental gene (in chr2) and its retrocopy(ies). Each line represents a retrocopy.
Specie Rattus norvegicus
Full Name guanylate cyclase 1 soluble subunit alpha 1
Also known as Gucy1a3|SGC
Coordinate chr2:181045694-181103321
Strand -
Gene summary Enables ion binding activity. Contributes to adenylate cyclase activity and cytidylate cyclase activity. Involved in response to herbicide and response to organic cyclic compound. Part of guanylate cyclase complex, soluble. Human ortholog(s) of this gene implicated in Moyamoya disease. Orthologous to human GUCY1A1 (guanylate cyclase 1 soluble subunit alpha 1). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Gucy1a1

Retroname Coord Strand Genomic Region ENSG
Gucy1a3P1 chr7:117375115-117375852 - Intragenic
 N/A UCSC

Expression

Transcript Sequences

>NM_017090.2
CGGATGCCCCTGGCCTCCCGTGACCGCATCATGATGCTGGGCCACTCGTGTCTTTGAGTCAGTAGAAGCAGATCTTCATCAGTCCACATCAACACCGGCTAATAAGGAGGAAACCACTGCCAAGCTCCAGGAACACCATGTTCTGCAGGAAGTTCAAAGATCTCAAGATCACGGGGGAGTGTCCTTTCTCCTTACTGGCTCCTGGTCAGGTTCCTACGGAGCCAATAGAGGAGGTGGCCGGAGTCTCTGAGAGCTGCCAGGCCACTCTGCCCACCTGCCAGGAGTTTGCTGAGAATGCAGAAGGGAGTCACCCCCAAAGAAAGACAAGCCGCAACAGAGTCTACCTACACACCCTGGCAGAGAGTATTGGCAAGCTCATTTTCCCAGAGTTTGAGAGACTGAACCTTGCACTTCAGAGAACATTGGCAAAGCACAAAATAAAGGAAAACAGGAATTCTTCAGAAAAAGAAGACCTTGAAAGAATAATTGCAGAAGAAGCAATTGCGGCAGGTGTCCCAGTGGAGGCGCTCAAAGACTCTCTGGGTGAGGAACTGTTCAAGATCTGTTATGAGGAAGATGAGCACATCCTGGGCGTGGTTGGCGGCACCCTGAAGGACTTTCTCAACAGCTTCAGCACGCTCCTGAAGCAGAGCAGCCACTGCCAGGAGGCGGAGAGGCGGGGGCGACTGGAAGATGCCTCCATCTTGTGCCTGGACAAGGACCAGGACTTTCTAAATGTTTACTACTTCTTCCCGAAGAGAACCACAGCCCTGCTTCTCCCCGGTATCATTAAAGCGGCTGCTCGCATACTGTACGAAAGCCACGTGGAGGTGTCCCTGATGCCTCCCTGCTTCCGAAGTGAGTGTACCGAATTCGTGAACCAGCCCTATTTGCTCTACTCGGTCCACGTGAAGAGCACCAAGCCTTCTCTGTCCCCAGGCAAACCCCAGTCCTCGCTAGTGATCCCTACTTCGCTCTTCTGCAAAACTTTCCCATTCCACTTCATGCTGGACCGTGACCTGGCCATTCTGCAGCTGGGTAATGGCATCAGAAGGCTGGTGAACAAGAGGGACTTCCAAGGGAAGCCCAACTTTGAAGAGTTCTTTGAAATTCTAACTCCCAAAATCAACCAGACATTTAGCGGCATCATGACAATGTTGAATATGCAGTTTGTCATACGGGTGAGGAGATGGGATAACTTAGTGAAGAAATCTTCAAGGGTTATGGACCTCAAAGGTCAAATGATCTACATCGTTGAATCCAGTGCCATCTTGTTCTTAGGGTCGCCGTGTGTGGACAGATTGGAAGATTTCACAGGACGGGGTCTCTATCTGTCTGACATCCCGATTCATAATGCCCTGAGGGATGTTGTCTTGATAGGGGAACAGGCACGGGCTCAAGATGGCCTCAAGAAGAGGTTGGGAAAGCTGAAGGCAACCTTGGAGCATGCCCACCAAGCCCTGGAGGAGGAGAAGAAGAAGACGGTAGATCTCCTGTGTTCTATCTTTCCCTCTGAGGTTGCTCAGCAGCTCTGGCAAGGACAAATTGTGCAAGCCAAGAAGTTCAATGAGGTCACCATGCTCTTCTCAGATATCGTAGGGTTCACTGCCATCTGCTCTCAGTGTTCACCTCTGCAGGTCATCACCATGCTCAACGCTCTCTATACTCGCTTTGACCAACAGTGTGGAGAGCTGGATGTCTACAAGGTGGAGACCATCGGAGATGCATATTGTGTGGCAGGGGGATTGCACAGAGAGAGTGACACACATGCTGTCCAGATAGCACTGATGGCCCTGAAGATGATGGAGCTCTCCAATGAGGTCATGTCTCCCCACGGAGAACCTATCAAGATGCGAATCGGACTGCATTCTGGGTCAGTGTTTGCTGGAGTTGTTGGAGTGAAGATGCCCCGATATTGCCTGTTTGGAAACAATGTCACTCTGGCTAACAAATTTGAGTCCTGCAGTGTGCCTCGGAAAATCAATGTCAGCCCCACGACATACAGGTTACTCAAAGACTGTCCTGGCTTTGTGTTCACCCCGAGATCGAGGGAGGAGCTTCCACCAAACTTCCCTAGTGACATTCCTGGAATCTGTCACTTTCTGGATGCTTATCAACATCAAGGACCTAATTCTAAACCATGGTTCCAGCAGAAAGATGCAGAAGATGGAAACGCTAACTTCTTAGGCAAAGCATCAGGGGTAGATTAGTGAGCCGCATGTTTCTGTGTTTGATGCCTTTGAGGGTGCGCAGAATCTCTGAAATGACTTTAGGATTGCAGAAGATAAAAAACTGTGTTAAAATTGCAGGGGTGAAACCCAGTTTCCTCTGTTTCCCATTTAAGATGGAAAAAAAAAAGTGTTCAATGCTTCAGCGCTTTCAACCTTCTTCTCTATTTAAGAAACAAACCTCAAAAGTGACTTGTGACTTTTGGGGACATAGCTTTGTTCTAGAGCAGTCACTACCTGCACTCGAAATCCAACACAGTGTACATATTCCAGACAATTGTAGTCAAGTTTAAGTGTCAAAGTAATGTACTCACCTGTGGCCTGTGACCAGTGCAAACTGTGGTTATTACAGTGTGTCTGTGGTAGTGTTGCCTGTAAATCTCTGAATAGAAATGACAGTGTTTAATTCTG