RCPedia: Genes

Summary

Gene Name	Ecd	Plot displaying the genomic locations of a parental gene (in chr15) and its retrocopy(ies). Each line represents a retrocopy.
Specie	Rattus norvegicus
Full Name	ecdysoneless cell cycle regulator
Also known as	RGD1565023
Coordinate	chr15:4399829-4431268
Strand	+
Gene summary	Predicted to enable histone acetyltransferase binding activity. Predicted to be involved in positive regulation of transcription by RNA polymerase II. Predicted to act upstream of or within cell population proliferation and regulation of G1/S transition of mitotic cell cycle. Predicted to be located in cytosol and nucleoplasm. Predicted to be active in nucleus. Orthologous to human ECD (ecdysoneless cell cycle regulator). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Ecd

Retroname	Coord	Strand	Genomic Region	ENSG
EcdP1	chr3:544790-546698	+	Intergenic	N/A	UCSC

Expression

Transcript Sequences

>XM_017599828.1
GGTTCCGGAGATTCATGGCTTCCAGGCTTCCAGGCTTTCAGGCGTGGGCCCAAGCGAACGTGAGAACACTGCCTGGTCGGGGATTGGGCAGTTGGTGGTAGCCTCTCCCCAAGAGTCCTAGTGGAAGAGGCGGCCAAGGAAAGGTGCCAGAGCAGAGGCACACGAGAGAGCTAGTAAACGAATCGCTTTACTTTTGTCAGGTGGAAGAAGAGAGTCTAGTTTGGTGAAAGATCACTAGACCGCGCCAGGGCAGTGCTCCTGGGTCGCTTCTTTCCGTGCTCTCAGGAGGTGTTCCCGCCCACATGTATGGCATGACAAAGTTTGGAGACAATATTGAGGATGAGTGGTTTATTGTTTACATCATAAAGCAGATTACAAAGACGTTCCCAGAGCTGGTGGCGAGGATCGAAGACAATGATGGTGAGTTCCTGTTAATAGAAGCGGCCGACTTTCTCCCCAAGTGGTTGGATCCGGATAACAGTGCCAATAGGGTGTTTTTCCATCGTGGGGAGCTGTGTATTATTCCTGTGCCGAGGAAATCCGAAAGGATACCCTGGTTACCCACGACGCCCCCAACGATCCAGCAAGCGTTGAGTATAATCTCAGCACACCCAGAAGCTATTCTGGCTTCAGAATCTGTACAAGCTGCTGTGGACAGGCGCATCAGTGGGTATCCAGAAAAAATTGGAGCCTCCCTCCACCGAGCACACTGCTTCCTTCCAGCTGGCATCGTGGCAGTGCTCAAACAACGGCCCAGGCTGGTGTCTGCCGCTGTCCAGGCCTTCTACCTACGGGACCCCATTGACCTGAGAGCCTGCCGTGTCTTCAAGACATTTCTACCCGAAACACGGATAATGGCATCTGTCACTTTCACGAAATGTCTGTATGCACAGCTGGTACAACAGAAGTTTGTGCCCGACCGGCGGAGTGGATACGGCCTCCCACCTCCGTCGCATCCCCGGTACCGGGCCCATGAACTGGGCATGAAGTTGGCTCATGGATTTGAGATTTTGTGCTCCAAATGTAGCCCACATTTTTCTGACTCCAGGAAATCCCTTGTCACAGCTTCACCGCTCTGGGCCAGCTTCCTTGAAAGTCTAAGAAGGAATGACTACTTTAAGGGACTGATGGAAGGTTCTGCTCAGTACCAGGAGAGGCTAGAAATGGCAAAGAACTATTTCCAGCTCTCCATCCACCGGCCAGAAAGTTCGCTTGCCATGAGCCCAGGTGAAGAGATCCTAACCCTGTTAGAGACACTGCCATTTGACATCGCCGAGCTCAAGACAGAAGAAGCTGACCTTCCTCCTGAGGACGATGACCAGTGGCTAGACCTCTCGCCAGACCAGCTGGATCAGCTGCTGCAAGACGCTGCGGGCAGAAAAGTCTCTCAGCCCGGTCCCCAGAAGGAGGAGCAGCAGAACTGTGATGTAGGGCAGGTCTCAGACAGCATGAAGGCCTTCATCTCCAAGGTGTCAACCCACAAGGGGGCAGAGCTGCCCAGAGACCCTTCGGAAGCCCCGATCACTTTTGATGCAGATTCTTTTCTGAATTATTTTGATAAGATTTTAGGGACAAAGCCTCAGGAGTCAGACTCTGATGACCAGGACGAAGATGACTTGGAGTGTTTAGACAGCGACGATGACTTGGGCTTGGAAGCTCAGGAGTCTGAATCTCTGAAAGGAGCTCTTGGCAGTCTCAAGTCCTACATGGCCCAGATGGACCAGGAACTGGCACACACCTGCATGGGAAAAAGCTTCAGTACCCGGAAGCAATTGGACCCTCCATCCCAGACTGCAAATGACAATTCAGATGAGGAAGATTCTGGTGCAGGAGATTGCACTGTTGAAGCTGTGGATGTCGACCTGAACCTGGTCTCAAATATACTGGAATCCTACAGCTCCCAAGCTGGCCTGGCAGGACCTGCTTCCAATCTGCTACACAGCATGGGCGTGCGGCTGCCTGACAACGCCGACCACCATAGCAGCCAGTGACAGTGAGCCTGCACATCGCCGCCCTTCTCACTGAATTAACAGGGAGTGACTGTGCTCATTCTCCCCCACTCTTCATAAGAGTGTCTTCTGCACAGGCTTCAGAGTCCCAGCGCCACCTCTCCCAAGTACTCATGAGCGCCTTCGGTTTGCTTTAAGTTTTCCCAAGACGGGGTTTCCCTTGTAGTTTAATAAAACATTGCCCTGTTGGTGTAATTCTGAA