Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Gene Name Hells
Plot displaying the genomic locations of a parental gene (in chr1) and its retrocopy(ies). Each line represents a retrocopy.
Specie Rattus norvegicus
Full Name helicase, lymphoid specific
Also known as -
Coordinate chr1:257901856-257953889
Strand +
Gene summary Predicted to enable chromatin binding activity. Predicted to be involved in DNA metabolic process; heterochromatin organization; and lymphocyte proliferation. Predicted to act upstream of or within several processes, including cellular response to leukemia inhibitory factor; heterochromatin assembly; and negative regulation of intrinsic apoptotic signaling pathway. Predicted to be located in chromosome, centromeric region. Predicted to be active in nucleus and pericentric heterochromatin. Human ortholog(s) of this gene implicated in immunodeficiency-centromeric instability-facial anomalies syndrome 4. Orthologous to human HELLS (helicase, lymphoid specific). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Hells

Retroname Coord Strand Genomic Region ENSG
HellsP1 chr13:29636598-29637314 - Intergenic
 N/A UCSC

Expression

Transcript Sequences

>NM_001106371.1
CTCGCGCGGTGGGGTGAGTGAGCCGACCTACCTTGCAGCACTGTGAGGAGTTAGCTCGCGGCGTTTGAGGCGACCAGAGTCCAGCCATGCCTGCGGAGCGGCCCGCGAGCAGCAGCGGGCCCTTGGCTCCAGAAATGGCTGAGCAAACGGAGCCTGCAGTGATTACCCCAGCCATGCTGGAGGAGGAAGAACAGCTCGAGGCTGAGGGACTTGAGAAGGAACGGAAGATGTTAGAAGAGGCTCGAAAGTCTTGGGACAGAGAGTCCACTGAAATTCGGTACCGCAGACTGCAACATTTGCTTGAAAAAAGCAATATCTACTCAAAATTTTTGTTGACTAAAATGGAACAACAGCAGTTGGAGGAACAGAAGAAAAAAGAGAAGTTGGAGAAAAAAAAACGGTCATTAAAAGTTACAGAGGGTAAAAATTTAATTGATGGAAATGAAGAGAATACAGTCATGAAAAAGAAAAGAGGAAGAGAAGATGAATCTTATAATATTTCAGAGGTCATGTCAAAAGAGGAAATTTTGTCAGTGGCTAAAAAACATAAGGATAATGAGGATGAAAACTCTTCCACTACTAATCTTTGTGTAGAAGATCTTCAGAAAAATAAGGATTCAAATAGTATGATTAAAGATAGATTGTCTCAAACTGTTAGGCAGAATTCTAAATTCTTTTTTGATCCAGTTCGGAAATGTAATGGACAGCCTGTACCCTTTCAACAACCCAAGCATTTCACAGGAGGAGTGATGAGGTGGTACCAAGTAGAAGGCATGGAATGGCTTAGGATGCTTTGGGAAAATGGAATTAATGGCATTTTAGCAGATGAAATGGGTTTGGGAAAGACGGTTCAGTGCATTGCTACAATTGCATTGATGATTCAGAGGGGAGTACCTGGACCTTTCCTTGTTTGTGGCCCTTTGTCTACACTTCCTAACTGGATGGCTGAGTTCAAAAGATTTACTCCAGAAATTCCTACTTTGCTGTATCATGGAAACCGGCAGGAACGTCGAAAATTAGTAAAGAATATTCACAAAAGACAAGGGACGTTGCAGATTCATCCTGTTGTAATCACATCATTTGAAATAGCTATGAGAGACCAGAATGCTTTACAGCATTGCTATTGGAAATACTTAATAGTAGATGAAGGACACAGGATTAAGAATATGAAGTGCCGGCTAATCAGGGAGTTAAAACGGTTCAATGCTGATAACAAACTTCTTTTGACTGGTACTCCCTTGCAAAACAATTTATCAGAACTTTGGTCATTGCTAAACTTTTTGTTACCAGATGTATTTGATGACTTGAAAAGCTTTGAGTCTTGGTTTGATATCACTAGTCTTTCTGAAACTGCTGAAGATATTATAGCTAAAGAAAGAGAACAGAACGTTTTACATATGCTGCACCAGATTTTAACGCCTTTCCTACTGAGAAGACTGAAGTCTGATGTTGCTCTTGAAGTCCCTCCTAAGCGGGAAGTGGTTGTTTATGCACCACTTTGCAATAAACAAGAGATCTTCTATACAGCTATTGTGAACCGCACAATTGCAAACATGTTTGGATCTTGTGAGAAGGAAACAGTTGAGTTAAGTCCTACTGGAAGACCAAAACGGCGAAGTAGAAAGTCAATAAATTACAGCGAACTGGATCAGTTCCCTAGTGAATTAGAAAAACTAATAAGTCAAATACAGCCAGAAGTAAAAAGAGAGAGGACTGTTGTGGAAGGTAATATCCCTATAGAATCTGAAGTTAATCTGAAGCTGCAGAATATAATGATGCTACTTCGAAAGTGCTGCAATCATCCATATATGATTGAGTACCCTATAGACCCTGTCACACAGGAGTTTAAGATTGATGAAGAATTGGTAACAAATTCTGGGAAGTTCCTAATTTTGGATCGAATGCTGCCAGAACTTAAAAAAAGATGTCACAAGGTTCTGGTTTTTTCACAAATGACAAGCATGTTGGACATCTTGATGGATTATTGCCATCTTAGAAACTTTACCTTTAGCAGACTTGATGGGTCCATGTCTTATTCGGAAAGAGAAAAAAATATATACAGTTTCAACACGGATCCAGAGGTTTTTCTTTTCTTAGTGAGTACACGAGCTGGTGGCTTAGGCATTAATTTGACTGCAGCAGATACAGTGATCATTTATGACAGTGATTGGAATCCTCAGTCTGATCTCCAGGCCCAAGATAGATGTCATAGAATTGGTCAGACAAAGCCAGTTGTTGTCTATCGCCTCGTGACAGCAAATACTATTGACCAGAAAATTGTGGAAAGAGCAGCTGCTAAAAGAAAGTTGGAGAAGCTGATAATCCATAAAAATCATTTCAAAGGTGGTCAGTCTGGGTTAAGTCAATCTAAGAATTTCTTAGATGCAAAGGAATTAATGGAGTTATTAAAATCTAGAGATTATGAAAGGGAAGTAAAAGGATCCAGAGAGAAGGTCATTAGTGATGAAGATCTAGAATTGTTATTAGATCGAAGTGATCTCATTGATCAAATGAAGGCTTCAAGACCAATTAAAGAGAAAACGGGGATATTCAAAATACTAGAAAATTCTGAAGATTCCAGTGCTGAATGTTTGTTTTAAAGGGAAGCAAAATGGATTTTAAAAACTTTTGTTTACATCCATTCTGGTAATTTGCCTGTTTGCTTTGAAATTCATATTGTTCACTTTACTTTTACGATTATATCAGTTAATATACTGTAACTACTATTATTGCATACTTGATAATTTTGTGGATTTTATTTAGTATAAAATTCTTGTAAATTTAGATTTTCAGTTAGTTTTTGGGACTGGGTAGTACTTTTGAGTTTTGTTATTATGTACTTAACCATTGCCAAGTTTATCAGTCTTCCTGTGGAAGTTTAGTAAGTTTCTCCCCCACCCCCTTTAGTAATATAATTCATGGGATTTTTGACTTCAGTTATGGAGCAGGCTTTTGGTAGGGGAGAGATTGATTGAAATTGTACTTTCTGTTGCTGAAGTAAAGTTTTTGAGTTTTGAGTCAATAAGATGACTTATCAAATAAATGTTTATTGTAATATGATCTGGTTACATTATTTTGTCAGAAAACTTAATGATTTAGTTAAAATAGTAAGGCTTATTTAATACTAGGATTCAACAGTATTGTCTGAACTGACTTCATTGTTT