RCPedia: Genes

Summary

Gene Name	Msl3	Plot displaying the genomic locations of a parental gene (in chrX) and its retrocopy(ies). Each line represents a retrocopy.
Specie	Rattus norvegicus
Full Name	MSL complex subunit 3
Also known as	Msl31\|Msl3l1
Coordinate	chrX:27015826-27033562
Strand	+
Gene summary	Predicted to enable DNA binding activity; histone acetyltransferase activity (H4-K16 specific); and methylated histone binding activity. Predicted to be involved in histone modification and regulation of gene expression. Predicted to be located in nucleus. Predicted to be part of MSL complex and NuA4 histone acetyltransferase complex. Human ortholog(s) of this gene implicated in Basilicata-Akhtar syndrome. Orthologous to human MSL3 (MSL complex subunit 3). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Msl3

Retroname	Coord	Strand	Genomic Region	ENSG
Msl3P1	chr20:37588581-37589006	+	Intergenic	N/A	UCSC

Expression

Transcript Sequences

>NM_001014111.1
GAGCAAATGAGCGCGAGCAAGGGCATGAAATTTCAATTCCACTCTGGGGAGAAAGTGCTGTGCTTCGAGCCTGACCCCACCAAGGCGCGAGTGCTGTACGATGCCAAGTTGGGATAGATGGGCGGCTGAAGATCATGTGCTACATGATACAGATGAAAACCGAAGATTACAGCGAAAATTGGCCAAAAAGGCAATAGCTCGCCTGAGAGGCACAGGAAAAAAGAAGAGGCGCTGTAGGTTGCCTGGTGTTGACTCTGTCTTAAAAAGTGTGCCAGTCAAAGAAAAAACTAAAAATGACGAAAATTCAATAAGCAGCACCTGTCATGAGAGCTGTGGAGAAAAGAATGGAGGAATAAAAGAACACCGACAACGCCGTATTAAAGTAAAGACTAAAGGGAAGAAAAAGGTATTGTCTCTGCGCTCAAGAAAGGATATGGATGAGAGGACAATCACTATAGAGATCCCTGAAGTTCTCAAGAAGCAGCTTGAGGATGACTGTTACTATATCAACAGGAGAAAGCGGTTAGTGAAACTTCCATGCCAGACCAACATCATAACAATTTTGGAATCCTATGTGAAACATTTTGCTATTAATGCAGCCTTTTCAGCCAACGAGAGGCCTCGTCACCATCATGCCATGATGCATGCGCACATGAATGTTCACTATGTCCCAGCAGAGAAGAATGTTGACCTTTGTAAGGAGATGGTGGATGGATTACGAATAACTTTTGATTATACTCTCCCATTGGTTTTGCTTTATCCATATGAACAAACTCAATATAAAAGGGTGACATCGTCAAAATTCTTTCTTCCTATTAAGGAAAGTACCACGACAACTAATAGGAGTCAGGAGGAGCTGTCTCCTAGCCCACCTTTGTTGAATCCATCCACACCACAGTCTACAGAGAGTCAGCCACCTACTGGTGAACCAGCCACCCCCAAGAGGCGCAAAGCAGAGCCAGAGGCACTGCAGTCTCTCAGGAGGTCCACGCGGCACAGCACCAACTGTGACAGGCTGTCTGAAAGCAGCTCGTCACCTCAGCCGAAGCGCAGGCAACAGGACACATCCACCAGCATGCCGAAGCTGTTTCTGCACTTGGAAAAGAAGACACCTGTGCATAGCAGATCATCTTCCCCCATTCCTCTGACTCCAAGTAAGGATGGGAGTGCTGTATTCGCTGGCTTCGAAGGGAGAAGAACCAATGAAATCAATGAGGTACTGTCTTGGAAACTTGTGCCTGACAATTACCCACCAGGAGACCAGCCACCTCCCCCTTCATACATTTATGGTGCACAGCATTTGCTCAGATTATTTGTGAAACTTCCAGAAATCCTTGGGAAGATGTCCTTCTCTGAGAAGAATCTGAAGGCTTTACTGAAGCACTTTGATCTCTTTCTGAGGTTTTTAGCAGAATACCATGATGACTTCTTCCCGGAGTCGGCTTATGTTGCTGCCTGTGAGGCACACTACAGCACCAAGAACCCCAGGGCAATTTATTAAACTTTTGATGGTTTTGAGAAAACAGCTGCACTATGTGGCTTTCTATTTTAGGTTCCAGGTGAAGTGTTAATGAGATGCTAGCCCTACCCTGGGGGTACTCTGACAGAAACAGGCTCTGTTTTTTTGAGTTCTTCACATACTATTATTTCTGTTAAGAATTACTTTCTGAGCTCAGCATGGTGGTCCATGTCTATGGGGAGGGGGTCGGTTTAATTAATTAATTAATGGTTTTTAAAAACTGTAATGATGACTTCCTGGGTGCCTGAACGTATTCCAAAGTAACACTGCTACACAAGCTCTGTGTGCCGGCAGGATAAAAACAGCCATAGCTGTCTTCATAGGGATACATTCACGACTGTATACTTAGGTTAAACATGGTTCCAGTAGACAGCACCGTTGGTTGTTAGCAAGAGCCACATGGTTTGATTATTTGTTAATGTTAAACAAAGATGGTTTTGAAAACTGTTTTCTGTTCAACAGATCTTAGTCGGTGCTTGGAAGCCGCAAAGCACTCTCAAAGTATTTCTGAGGGAATTGATATTGATGGCAAACGAGAACATGCAGCTATGCATTGCTTGTAGCAGTTCCCTTTCTCAGAAACATTATTTTTGTTGCTCTAAATAAAGCATTGCCTGTCTTGTTTGAGATTTTACAGCCATACTCTGCTATGTAATGTTATAGTTCCTTTTTCTATGAAATGTTATTTTGGGTGATCTAAATAAAGCTTTGCCAGTTTTGTTTGAAA