Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Gene Name Setd3
Plot displaying the genomic locations of a parental gene (in chr6) and its retrocopy(ies). Each line represents a retrocopy.
Specie Rattus norvegicus
Full Name SET domain containing 3, actin histidine methyltransferase
Also known as RGD1309550
Coordinate chr6:132023128-132090072
Strand -
Gene summary Enables protein-L-histidine N-tele-methyltransferase activity. Involved in actin modification and peptidyl-histidine methylation. Predicted to be located in chromatin and cytoplasm. Orthologous to human SETD3 (SET domain containing 3, actin histidine methyltransferase). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Setd3

Retroname Coord Strand Genomic Region ENSG
Setd3P1 chrX:109677021-109678856 - Intragenic
 N/A UCSC

Expression

Transcript Sequences

>XM_017594510.1
GTCGAGTGAAAACTCAGAAATCAGGTACTGGAGCCACAGCCACCGTGTCACCGAAGGAAATCTTGAACCTGACAAGTGAGCTGTTGCAGAACTAGTGGGTTAAAGTGGAGGAGGAGTTCTTACGCAGTGGCTTTCACGTTACAGAATGTAGCAGTCCTGCACCCGGCCCAGGAAAAGAATGGGAAGAGTACACACAGATCCGGGCTCTGGTTGAGAAAATACGAAAGAAGCAAAAAGGTCTGTCTGTTACTTTTGATGGGAAAAGAGAAGATTACTTCCCTGATCTAATGAAATGGGCCTCTGAAAACGGGGCTTCTGTCGAGGGTTTTGAAATGGTTAACTTCAAAGAAGAGGGCTTTGGTTTGAGAGCAACAAGAGACATCAAGGCAGAAGAATTATTTTTATGGGTTCCACGAAAGTTACTAATGACTGTTGAATCTGCTAAGAATTCAATATTGGGGCCCCTGTATTCCCAAGACCGAATTCTCCAAGCTATGGGAAACATTGCACTGGCCTTTCATCTGCTGTGTGAGCGAGCCAGCCCCAACTCTTTCTGGCAGCCATACATTCAGACCCTCCCCAGTGAGTATGACACCCCTCTCTACTTCGAAGAAGAGGAAGTGCGCTGTCTTCAGTCGACACAAGCCATCCATGATGTCTTCAGCCAGTATAAAAACACAGCACGCCAGTACGCCTATTTCTATAAAGTCATCCAGACCCATCCTCATGCCAACAAACTGCCCTTGAAGGATTCTTTCACTTACGAGGACTACAGGTGGGCCGTCTCGTCAGTTATGACACGGCAAAACCAAATTCCTACAGAGGATGGTTCCCGGGTGACCTTGGCTCTGATTCCTTTATGGGACATGTGCAATCATACCAACGGCCTGATCACAACTGGCTATAACCTGGAAGATGACCGCTGTGAGTGCGTGGCTCTGCAGGACTTTCAGGCTGGAGATCAGATTTACATTTTTTACGGCACTCGGTCAAATGCAGAGTTTGTGATCCACAGTGGTTTTTTCTTTGACAATAACTCACACGACAGAGTGAAAATAAAGCTTGGAGTGAGTAAAAGTGACAGGCTCTACGCTATGAAGGCTGAGGTCTTGGCTCGGGCTGGCATCCCAACATCCAGTGTTTTTGCATTGCATTTTACTGAGCCACCCATCTCTGCCCAGCTTCTAGCTTTTCTCCGAGTATTCTGCATGACTGAAGAGGAGCTGAAAGAGCACTTGCTAGGGGACAGCGCCATTGACAGGATCTTCACTCTGGGGAACTCGGAGTTTCCTGTCAGCTGGGACAATGAGGTCAAACTTTGGACATTTCTGGAAGATAGAGCCTCACTTCTTTTAAAAACATATAAAACGACAATTGAGGAAGATAAGACTGTCTTGAAAAACCCTGACCTCTCTGTCCGTGCCACGATGGCCATCAAATTGCGCTTGGGTGAGAAGGAGATTTTGGAAAAAGCAGTGAAGAGTGCAGCCATGAACCGAGAGTACTACCGCAAACACATGGAGGAGAGGGCGCCACTGCCCAGATACGAGGAGAGTGACCTGGGGCTGTTGGAGGGTGGTGTGGGGGACTCGAGGCTCCCTCTGGTCCTGAGAAAGCTGGAGGAGGAGGCAGGTGTACAGGAGTCTCTGAGTCTCACAGAGACTGTCAGCAAAGTCAAGGCTGCCGAAAATGGGCTCGTCAATGGGGAAAGCTTGATCCCTAATGGGACCAGGTCTGAAAATGAAAGCTTAAGCCCAGAAGAGAGTGAAAACACGACAGGAGACACGGAAGAGTCTTCAGGAAGCATGGATGCGGTGAAGGAGCGACTCTGAGATGCTCACGGATCCAGTTGAGCAGAAGTTGCAGACAGCCCACCACATCACCGTGTTCCTTGTTAACATTTTTCTTTTCGCAGAGAGGAAAATATGTTTTGCTGCTTTATATAAAGTGATTTTTAAGTTATTATAAAGATCTAGCTTCCCTTTTTGATTAAGATTGCCATCTTGCTTCTGGGCGGAATAAAGTAGTGAAGAGCAGCAGAGGGGAGGAGGCGCCCTTGAGAGACTGCAGACCAGCTGTGGGCAGCGCTGCTCTCCTCGCTCCACAGTGAGTGCTGGCGCTGCTCCTGCCGAGGGAGTGAGGTTGGACTCTGGGTGTCGAGTGGATGGTGGAGGGTGAGGCACAGTGAAAAGAAAGCTGGGTGAGGTGGTTACAAACAAGAGTCTGGGCAAATCTTTTATTTTTTTCCTTAACAAGAATATCCCCAGTACCAAAAGAAAAGGTAAGGTGGCAACCTGATTTTTAATGGCTTAAAATGTTGATGATGATCCTAATTATATAAACACACACATATATCTAGTAATTTCTAAGGATTTGTTTACTTTTTGTGTTCTGTTTTGCTGTATTAAAAACTTGTCCTTTACCTTAAA