RCPedia: Genes

Summary

Gene Name	Arfrp1	Plot displaying the genomic locations of a parental gene (in chr3) and its retrocopy(ies). Each line represents a retrocopy.
Specie	Rattus norvegicus
Full Name	ADP-ribosylation factor related protein 1
Also known as	-
Coordinate	chr3:176857667-176865088
Strand	-
Gene summary	Predicted to enable GTP binding activity and GTPase activity. Predicted to be involved in protein localization to Golgi apparatus; protein transport; and retrograde transport, endosome to Golgi. Predicted to act upstream of or within gastrulation. Predicted to be located in membrane and trans-Golgi network. Predicted to be active in Golgi apparatus. Orthologous to human ARFRP1 (ADP ribosylation factor related protein 1). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Arfrp1

Retroname	Coord	Strand	Genomic Region	ENSG
Arfrp1P1	chrX:62959140-62960003	+	Intergenic	N/A	UCSC

Expression

Transcript Sequences

>XM_006235718.2
GCGACTCCGCCCGTGCTGGGTCTGTCGATCCTCGTTCCGTCAGGCACCGTGAGGGGTCAACGTGAGGTCGGTGGGGTTAGTAACGCGGTGGCGGCGGCTCCTCCTCCAAAATTTGAGCAGGGTGCCAAACAGGATGTACACGCTGCTTTCCGGGCTGTACAAGTACATGTTCCAGAAGGATGAATACTGCATCCTGATCCTGGGCCTGGACAATGCTGGGAAGACGACCTTCCTGGAACAGTCAAAAACACGATTTAACAAGAACTACAAGGGAATGAGTCTATCCAAAATCACCACTACCGTGGGTCTAAACATTGGCACTGTGGACGTAGGAAAGGCTCGTCTCATGTTTTGGGACTTAGGTGGGCAGGAAGAGCTGCAGTCGTTGTGGGACAAGTACTATGCAGAGTGCCATGGTGTCATCTATGTCATTGATTCCACTGATGAGGAGAGGCTGTCAGAATCAAAAGAGGCATTTGAGAAGGTGGTTTCGAGTGAAGCACTGGACGGTGTTCCCATCCTGGTGTTGGCCAACAAGCAGGATGTGGAGACTTGCCTCTCCATTCCTGACATCAAGACTGCATTCAGTGACTGTACCTGCAAGATTGGCAGGCGAGATTGTTTGACCCAGGCCTGCTCTGCCCTCACAGGCAAGGGAGTTCGAGAGGGCATCGAATGGATGGTGAAGTGTGTCGTACGGAATGTTCACCGGCCACCACGGCAGAGGGACATCACATAAGCACCTTCATCCTCACAGTCTTGGACTGTTCATCCCCTAGTGTTGGAAGAGTATTCTCTGCTGGCTTCTGTCCTCCTGATGCTGGGGGTTGAGCTGGGTTTGTCTGTTCATTTTTATTTGCTTTATGTTTTCTCTAAGACAAACTTTTCTCTGTGTCTGGAAAAGTGTAGGTATTCAGAGACAAACATGGGGTACATTGACAGTCCAGAGCTACATGCCCTACACTTCCATCCCCTGACCCAGATTAGAGCCCTCCTTACAGGTCAAGGTCTGGAACCCTCCTAATCTCGTGAGGACGGGGAGGTGTGAGGCCACGCCTAGGCCTGTTAGCCCGTTCCAGAGTGGAATTTGAGGTCATCCTACTTGAAATGGGGGGAGGGGATGTCTGTGGCAGCTGCTTTGTCCAGCTTGCCCATGGAGAAGGAGCGAATGGCCAAGGCCAGTCTCACTTGGAGAAAGAGCCCATGTCCAAGAGGCCAGCATGGTCCCTAGTTGTTTTGTGTGGAGTTGGATGTGTGGGGAGAGGATTTCTCTATAGACCCAGTTAGCCTGGAATTCTCTGCTTCCTTCCGTGTATCTGTGGGAACCTAGCTTTCTACTAGGTTCTGATATACTCTCAGAACAGGGTTCAGTAGACCTGCCTGGGAAGCCTAACTTCCCTTAAAACTCATTCTCAATCTGTTTTTTATCTCCCAAGGAGAGAGCTGACCTTGCTGGTATGTATTTCAGTACACCCATACACAGGTTGTATGGTATCTCAAGGGCACAGATTTCACTAGGCCAAGTGCTGTTCTTGCTAGTGCAGATGGACATCACGTTTTGAATAAGGTAGGCTGGGTCCCTACAGCGCCAGGTCAATGAAGTACTCCAGATATATGTGAAGTATATCATCCATGTAAGGTTCAGGTTCCTGAGGAGGCAGCAGCTATGCTGGTGCTAGCCATGCCTACTAGACCTACTGGGTTAAAATTTTCATCATATGATCAGGACAGGGTTTAAAATTAAGGCTCCCTAAGGGGCTCCTGTCCAACCATCTTTTCACGCAGTTAGATGGTGGTTCCTTACTGCCTGGGCTGGTGGTTATAGCCAGAAGCTGCTATTCTGGAGTACCTTCTGAGCGGGATCCCCTCAGAGAGGTTTGGAGCTGTGGCTAAGCCAAAGGTTCAAGAAAAACCTAGTGGCTCTTTGTCTCCACAGGGGCCTGGAAGGGGTGACAGAGAAGTTATGAATCAGGAGGGGATAGATGCTCTGATTCAAGGAAACATCCCATCCATAGGTATCTTAGAAGCTGGGTTGAATCATTCCTGAAGGACCCTCCTGGGAAGAGTAGTTTGCTTGTAAAATGGCCAAGCTAAGGGGAAATCCTCTAGCAGAGGGTACCAGACATCACCAGTGTCTTTCTGGCCATCTTTACTCAATTTCGTCAACACTGGAAAATAGGGGCTCCATGGATGACCCTTGGACACGTTGTAGTGGGCGGGAACAGAAGATGTGCCTTATGGATGGTGATCATCCTGGTGGTGTGGAACTGGCTGGTCTGGAAGCATAGTGGGATGAAGCTCCCACAACTTGAGAGCAATTGTTTTTCTGATTTAAATGATTAGCTTTATAAAAAGTAGATAAGAAGTCTAAGGTTGGGGTGTCATTGGTTGCAAGTGTAGAATAAAGTCCTGTGTGCAGTAA