Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

Summary

Gene Name BRWD1
Plot displaying the genomic locations of a parental gene (in chr21) and its retrocopy(ies). Each line represents a retrocopy.
Specie Homo sapiens
Full Name bromodomain and WD repeat domain containing 1
Also known as C21orf107|DCAF19|N143|WDR9|WRD9
Coordinate chr21:39184176-39321595
Strand -
Gene summary This gene encodes a member of the WD repeat protein family. WD repeats are minimally conserved regions of approximately 40 amino acids typically bracketed by gly-his and trp-asp (GH-WD) residues which may facilitate formation of heterotrimeric or multiprotein complexes. Members of this family are involved in a variety of cellular processes including cell cycle progression, signal transduction, apoptosis, and gene regulation. This protein contains 2 bromodomains and multiple WD repeats. This gene is located within the Down syndrome region-2 on chromosome 21. Alternative splicing of this gene generates multiple transcript variants encoding distinct isoforms. In mouse, this gene encodes a nuclear protein that has a polyglutamine-containing region that functions as a transcriptional activation domain which may regulate chromatin remodelling and associates with a component of the SWI/SNF chromatin remodelling complex.[provided by RefSeq, Jun 2011]

Retrocopy(s) from BRWD1

Retroname Coord Strand Genomic Region ENSG
BRWD1P1 chr1:13555064-13557933 + Intergenic
ENSG00000215909 UCSC
BRWD1P2 chr12:89917470-89919893 - Intergenic
ENSG00000258290 UCSC
BRWD1P3 chr7:17031458-17033452 - Intergenic
ENSG00000232841 UCSC

Expression

Transcript Sequences

>NM_001007246.3
AGGCGGCGCGCACGGTATggcggcggcggcggcggcggcggcgCGCGCCTGAGAAGAGGGGACGCCAGCCCGGTCAGGCCTCGGCGCGGCCTACAcgctccgctcgctcgctcgctcCCGCCTCCCGCCCCGCGCCCGGCCATGGCGGAGCCGTCGTCCGCCCGACGCCCGGTGCCTCTCATCGAGTCGGAGCTGTACTTCCTTATCGCCCGGTACCTATCGGCGGGCCCGTGTCGGAGAGCGGCCCAGGTGCTGGTGCAGGAGCTGGAGCAGTACCAGTTGTTGCCGAAGAGATTGGACTGGGAGGGCAACGAGCACAACAGGAGCTACGAGGAGTTGGTCTTGTCCAATAAGCATGTGGCTCCTGATCATCTTTTGCAAATCTGCCAGCGCATCGGTCCTATGTTGGATAAAGAAATTCCACCCAGTATTTCAAGAGTCACTTCTTTACTTGGTGCAGGAAGGCAGTCTTTGCTACGTACAGCAAAAGGTACCTTAATTTGAAGAAGTGTTCTGCTTTGTATTAATAGCCTAATAATTATTATAATTGTGAAGTAATGTAAGCATTGTGGAAGAAAGGTGATAATGTAACTATAAATCATGCTGTGGACTATAAAATTCTCTGCATTTAGCATAGAACATTGAATTTTATTACATAAGTGTTTAATGGGTCCTTCTGCATTAAAAAGTTGATAAAGATATAGATGTTAAGCTAAAAAGCTTGAATTTATTCTGAGATGTTGTTTGAGGTTTTATCAATGTGAGTTCTTAATTTTCCATTTTGTAGCTCACTCATAACTTCATTGAATGTAATTGTATGTGTCTAATAAACTCTTTAAATGCTAGAGGTATTTCATTTGATATTTAGCTTCTGAAAGCCCTTTGTTATAAAGGGAAGTGATTTTCTAAATTTGGTAGCAGCTTGAAAACAAGCACCACAAATGTAAAACTGCATGGTTCTTTTTTTACTAATTTAATTTTTTTGCCAAGTTATGTGCTAGCAAAATGTTTGAAATTGCTATTCTTTTTCTGTTAGCTTGGTATATATGACTTAGACTAAGTATATGTATGTGATATAAtatatgtgtacatgtggctaaactgctaatgggcaaagattgttggttcttctgatgctgagtatacatcaagttcatcccatgattattttttattacgagctattgctgatgtgatgctactcttagctgcaccaccagtataaagcttaactgagaaagaacacccctccctcttagttccgtgccagactggtttgttagctttagttgtttcttagtgctctagccatgtcaccctgtggcactaatcaggacactgtttatattcttcctcttctgtgtccctattcactttgtaattattctattttagctggttatatggtagttaattggtagcctgttttcctttgttttctttacttgtgtcaagctccatgtcgttgttttgtgatgagcagtgatttagaactggccagacCTTAGAAGAGTCTTCAGCAAGCTGCCCTAGGGTAGGGGCGTATTCTCTGTTTGTTTTGTACTGGTACCCCAGGAGGATGCCTTGTAACTGCTCTTTGGTCATGATAGTGGTAATGAATCCATTCATGTAAAATGCAATATGTCTGTTAGTTTGGGGCACCCGAGGCTCAGTAGAGGTTTAGTATGATGCCTTCCCTTTCTTCTTTGAGTTATGAAGAAACTAATTTCTGGCACAGTGTGACTGCTTCAAACCTATGTTCTGCTGCTATCTCCTATAGAGGAGGGCAGACTTTTTTTTCTTAGTGCATTTGCTGGTAGGTCAAGGAGGGATGGACTTTGAATTAGTGTTCAGAGTCACAGATCCTACGTATGTGCTCTTCAGTAGAGGATTTTCTGTGATCCTACAATGAAGGGAAAGCTATATAATTTATTGGTACTTCCTAAAGATAGAGACTAAAGTCATGGTAGTATTGGCCAAATTAATTTTAAAACTGAACAAGTCATGAATTTTCATATAAATCAAAGAACTTTTTCCTTATAAAAGCTTCCATTTTTGAAAAGTTGGATCAGTTGTAAGACCTTTCATCTTTAGTATTGTATGATATAATTCTACATTGAAAAATAAACACTTGGCATTAAATGggacttggagtcaaaagatctggttttatggtccatcttttaccaatcatttgctgtggatctctttaaaggtcctggaacctttgagcctcagttacctcacttgtaaattggcaaaaatacctacctcacagggttgttgtgaggattcaatgagctaatgtatgttgaaagcactttgtgaattgtaaagtgctacacaaatgttagttgttgttGCTGCTGTATCTGAGATGTCTTAATTTTCTTTTTCTTCAGAAATAGTCTAATAAACCTCCAGGGCTTTTCTGTTAAAGTATACTAGTTGGTAAAATGTTGAATAAACAGTTTATTACAATATA