Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

Advanced Search

Summary

Gene Name Nsrp1
Plot displaying the genomic locations of a parental gene (in chr10) and its retrocopy(ies). Each line represents a retrocopy.
Specie Rattus norvegicus
Full Name nuclear speckle splicing regulatory protein 1
Also known as Ccdc55|NSrp70|RGD1309863
Coordinate chr10:63098115-63131779
Strand +
Gene summary Predicted to enable mRNA binding activity. Predicted to be involved in developmental process and regulation of alternative mRNA splicing, via spliceosome. Predicted to act upstream of or within in utero embryonic development. Predicted to be located in nuclear speck. Predicted to be part of ribonucleoprotein complex. Orthologous to human NSRP1 (nuclear speckle splicing regulatory protein 1). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Nsrp1

Retroname Coord Strand Genomic Region ENSG
Nsrp1P1 chr20:48792099-48793766 - Intergenic
 N/A UCSC

Expression

Transcript Sequences

>NM_001037189.1
GGAACAAGATGGCGATTCCGGGCAGGCAGTATGGGCTTATTTTGCCAAAGAAAACACAGCCGTTGAACCGAGTTTTGCAAAAACCATCAGTGTTTGGAAATGATTCTGATGATGATGAGGCGTCTGTGAGCGAAAGCCTTCAGAGGGAAGCTGCTAAGAAGCAGGCCATGAGACAGACCAAACTGGAGATTCAGAAAGCTCTTGCAGAAGATTCTACTGTGTATGAGTATGACAGCATTTATGATGAAATGCAGAAAAAAAAGGAAGAAAATAACCCCAAACTGCTTATGGGGAAAGATCGAAAGCCCAAATATATTCACAACTTACTAAAAGCAGTCGAGATCAGGAAAAAGGAACAGGAAAAGAGAATGGAAAAGAAAATACAGAGAGAACGAGAGATGGAAAAGGGAGAATTTGATGATAAAGAGGCATTTGTGACATCTGCTTATAAAAAAAAACTTGAAGAGAGAGCTGAAGAGGAGGAAAGAGAAAAGAGGGCAGCTGCCCTGGAAGCACGTTTGGATGTGACCAAGCAGAAAGACCTCAGTGGATTTTATCGGCATCTATTAAATCAAGCAGTCGGTGAAGAGGCAGTTCCTAAATCCAGCTTTCGTGAAGCCAGAACTGTAATAAAAGAAGAGAAACTCAGGGGTTACCCTGATGAAACAAATTCAGAGAACAGACCACAGCAGAACTGCGCCTTGCAGAGTGGTGTAGAGGAAGCGGAGGAAAACCCAGATGCTGACAGTGATTCTGAGGAGAGCTGTGACGATGGTGAAAGAGGAGACCATAAAGTAAAGTCCAGAGGGGAAGAAGACACTGGCGCCTCCACAAAATACCTCAAGCATCACAAGAATCACACCCACTCACGATCATCTAGTGAGGAAGGGGGGCTCAGTACCAAGTACCACTCACGAAGTTCCCAGTCAAGAGGACATGAGCATAAGGGAGGTCAGCACCAGGACAGGCAGTCCAGAGACCAAGAGAGCTGTCACAAGGACCGCAGCCACCGGGAAGAAAAGAGTTCTCATAGGCACAGAGAGGCCAGTCATAAAGATCACCACTGGAAGAGGCATGAGCACGAGGACAAACCGAAGGGACGAGGACAGGGAGAAAGACAGGACAGAGAATGGAAGAGGGAGAAATATTCCTCAAGAGAACAAGAAAAAGACAGACAATGGAATGATCATGACCGATATAGTGAGaaagaaaagaaaggcaaagaaaaagaagagcacaggaaagcaaggaGGGAAAGATGTGAAGATGGTGCTAAGTACAGAGAGAGGAAGAAGCCAGAAGGAAGTGGGCAGTCTTCAGAAAGACATCGAGACAGAAGGGAGAGCAGCCCGAGGCCTAGACCAGAGGACGACCTTCTTGACCAAGAAAGATCCAGCAAAGCAAGAAACACGGAAAAGGACAAAGGGGAACAAGGGAAGCCCCCTCGTTCTGAAACATCACTAGCAACAAAACACAGACTGACAGAGGAAAGACCAGAGAAGGGCAGTCAGCCAGAGAGGCCCCCTGAGGCCGTGAGCAAGTTTGCAAAGCGGAGCAACGAGGAAACGGTGATGTCAGCTAGGGACAGGTATTTGGCCAGGCAGATGGCGCGGATAAATGCAAAGACGTATATTGAGAAAGAAGATGACTAAGGACTGCCCAGATCTGAAGTTCCTTGGAAACACAGAGCATTGGGACCCTTGAACTTGCTTTAAGAAAGCATATGACTGTATGAACAGCGACTGGGGAGTATTTTTTAAAGTGTGTTTTCAAAATTTGTTAAGTCAAAAGTCAGTTCTGTGAGCTTTGGTGCTTGTCTGGAGTTGAGATATTCCCTGATCTATAGCACTTTCTTGATTGTATGCAAGAATCATAAGGTGTTAAATCTTACAAAATTTCTATGAGGAAACTTGGCTTCATGTTATGTTTATACATTAAAAATAACTTGTAAAAA