Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Gene Name Ddx21
Plot displaying the genomic locations of a parental gene (in chr20) and its retrocopy(ies). Each line represents a retrocopy.
Specie Rattus norvegicus
Full Name DExD-box helicase 21
Also known as Ddx21a|Ddx21b
Coordinate chr20:32213147-32232632
Strand -
Gene summary Predicted to enable RNA binding activity; RNA helicase activity; and identical protein binding activity. Predicted to be involved in cellular macromolecule biosynthetic process; positive regulation of I-kappaB kinase/NF-kappaB signaling; and positive regulation of myeloid dendritic cell cytokine production. Predicted to act upstream of or within response to exogenous dsRNA and response to virus. Predicted to be located in chromosome; cytosol; and nucleoplasm. Predicted to be active in nucleolus. Orthologous to human DDX21 (DExD-box helicase 21). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Ddx21

Retroname Coord Strand Genomic Region ENSG
Ddx21P1 chr7:20077128-20077837 - Intergenic
 N/A UCSC
Ddx21P2 chr7:23010372-23011234 + Intergenic
 N/A UCSC

Expression

Transcript Sequences

>NM_001037201.1
CGCGGTTGTGGAAGCCGGTAGGCCTGAGCTGCTCCTGCTGAATAATGCCGGGAAAACTCCGCAGTGCGTCCAAGTCGGAGTCAGAAGGGACCGAGGAGAGTATGGAGACGCTGCAGAAGCCAAGCGAGAAGAAAACTAGAAAAGAGAAGCCAAAATCTAAGACTGACGAGGCAACAGAAGGAGTGGAAGAGGCCGCTTCCTCCAAAGTGAAAGCAGTTAAAAAGAAAGGGCCTTCTGAGGATGATGTGGGTCCCCCTAAATCCAAGAAGGCCAAGAAGCAGGAGGAGGAGCCTCAAGATGACCCTGCTTCTAAAAGCAAAACCTCCAAGAAGAAAAAGGAGCCCCTAGAGAAGAAAGCACCCTCTGCTAAAACCAAAGAAATGAAAGCCGAGGAGCCTTCTGAGGAAGAGGCAGACGCTCCTAAGCCCAAAAAGACAAAGAAAGGGAAGGAAGCAAACGGAGATGTGGGAGAGAAGAGCCCCGGGCTGAAGAATGGGCTCTCCCATCCCAAGCCAGACTCCAGCTCCACCCAAGCTCCCGGAGAGGAAAGCGAGACAGAAAAGGAAATACCCGTGGAGCAGAAAGAAGGAGCCTTCTCTAATTTTCCCATATCAGAAGAGACTGTCAAACTTCTCAAAGCTCGTGGGGTGAACTTCCTCTTCCCTATACAAGCCAAGACATTCCACCATGTGTACAGTGGGAAGGACTTAATCGCCCAGGCACGCACAGGAACCGGGAAGACCTTCTCCTTTGCCATCCCTTTGATTGAGAAACTTCAAGGTGGGCTGCAAGAGAGGAAGAGAGGCCGAGCCCCTCAGGTGCTAGTCCTTGCACCTACAAGAGAATTAGCAAATCAAGTGAGCAAAGACTTCAGTGACATCACCAAAAAGCTCTCAGTAGCCTGTTTTTATGGTGGAACTCCCTATGGTGGTCAAATCGAACGAATGCGGAGTGGGATTGACATCCTGGTCGGGACCCCAGGTCGTATTAAAGACCACTTGCAGAATGGCAAGCTAGACCTCACCAAACTTAAACATGTTGTCCTGGATGAAGTTGATCAGATGTTGGATATGGGCTTTGCTGATCAAGTGGAAGAAATTTTATGTGTGGCATACAAGAAAGATTCTGAAGACAACCCCCAAACATTGCTTTTCTCTGCAACTTGCCCTCATTGGGTATTTAATGTTGCTAAGAAATACATGAAATCTACATACGAACAGGTGGACCTGATTGGTAAAAAGACTCAGAAAGCAGCCATAACTGTGGAGCACCTGGCGATTAAGTGTCACTGGACAGAGAGGGCAGCGGTGATTGGGGATGTGATCCGAGTGTACAGTGGTCACCAAGGGCGTACAATCATCTTCTGCGAAACCAAGAAGGATGCACAGGAGCTGTCGCAGAACACGTGCATAAAGCAGGATGCCCAGTCCTTACATGGCGACATTCCACAGAAGCAAAGGGAAATCACCCTGAAAGGTTTCCGAAATGGCAATTTTGGAGTTTTGGTGGCAACCAATGTTGCTGCCCGTGGGTTAGACATCCCTGAGGTTGACCTGGTTGTTCAGAGCTGTCCACCAAAGGATGTGGAGTCTTACATTCATCGTTCGGGGCGGACAGGCAGAGCTGGAAGAACAGGGGTTTGCATCTGCTTTTATCAGCACAAAGAAGAGTACCAGTTAGCACAAGTGGAACAGAAAGCGGGAATTAAATTTAAACGGATAGGTGTTCCTTCTGCAACAGAAATAATAAAAGCCTCCAGCAAAGACGCAATCAGGCTCTTGGATTCTGTGCCTCCCACTGCTATTGGCCATTTCAAGCAGTCGGCTGAGAAGCTGATCGAGGAGAAGGGAGCTGTAGAGGCCCTGGCCGCAGCTCTGGCCCACATCTCGGGGGCCACATCGGTGGACCAGCGCTCCCTAATCAACTCACAAGCGGGCTTTGTGACCATGATCCTGCGGTGTTCTGTTGAGATGCCCAACATTAGTTATGCCTGGAAAGAACTTAAGGAGCAGCTGGGTGAGAGCATCGATGCCAAAGTGAAGGGGATGGTCTTCCTCAAAGGAAAACTGGGAGTTTGTTTTGATGTCCGCACTGAAGCAGTCACAGAAATAAAGGAGAAGTGGCACGATTCGAGACGCTGGCAGCTCACTGTGGCCACCGAGCAGCCGGAGCTGGAAGGACCCCCAGAAGGATACCGAGGCGGCAGGGGCCAGCGGGATGGCAGCCGTGGCTCTTTCAGAGGACAGCGGGGTGGAAGCAGGAACTTCCGGGGACAGGGACAGCGAGGAGGAAGTAGAAACTTCAGAGGACAGCGACCAGGAGGTGGCAACAAAAGTAACAGGTCCCCAAACAAAGGCCAGAAGCGGAGTTTTAGTAAAGCATTTGGTCAGTGAGTAGAGGCCAGAGGAACTTGTTCCCACCCCACTGTGGACCTCAGAGCCCGTCCTGCTGTCAAAGCCCCCAGTGCTTCCTTTTTGATCAATTCTCAGCCCATTTCTTGCAGAGACAGGCTTCTGAGCTGTCCAACTACCCATCCTAAACTCTGCATTTGGGGAAGGGATGGGAATGCATTGCTTCATTTTTCAACATACTTCCTAGATTTACAAAGTAAAACCAGCCTCCGATCTGCCTATCTCTGTGTTCTGTGTGTGCGCACTGGGGCCTAAGCTCAGACCCTCGCACATGCCCTCCCTACAACTGTTTCTCTGGTCCCCTGTACATGTTTCCTACTCATCCTACAAACAAAGTTTCCCAGGGGTGCCTCAGTCTCTGGGGGACCGTGCGAGCCAGGGTGGATAATTTTTGCATTCCTTGGCCTCTTGTTCCCCTCACAAACAGTTGCTGTGTTTATGTCTGGCAAGGTTTGACCTGAGCAGTGCTTCGCAGAAGCCATCTCAGACTTAGCTGATAGAACAGTTTGTAGCCGCTCTAGAGCGCAGGCAGCATGGGTTCACTCTGTGGTGTCCTCACTACTGTTTCTTACTGGGTGACTTGTGTTCCCGTGAGTTCTCCAGACAGTGTATATTGGAGTACATTTTCATAGGAGCCATGTCTAAAGTTCAGGCCCAGTGTGTAGACTTTTTCTTAGTTAATGAGACTGGATAAATGGCGTGTAATTGCTTCTACCCCACGTTTGGAAGATTGATTTACCAAGGAGTCATACAGGGAGGGTGGGGCTCAGTTGGTGTTGCTGAGGAAGGCTTCAAAAAAGCCACAAAGATGTCTTTCATCTTGACAAGTAAAGAGGTGGAAAAGCATGCTTTGAGTGGCGAGCACTTCCTGAGGTGGGGCTCCCGAAGGGACAGCACCTACTAGTGTGAGATCTTTTAAAGGGCACAGTGAGACTAGTTTGATCTATTGTAAGATCTGTTCCTGACGAGCTGCTTCTCTGGCTCAGAGAATCCGGCTGTGACAAGCTATGTCATTTTAAGTTGTTGCTTTGAGGGAACGGAAGCGTGGCCCCTGCCTACTGCTCAGTGTTCTTCATCTGGGAAACTCCCACCTAGCACAGAAGCTGGAGTGGTGGGGTCCTCTAGCCCTACTAGAGTCTGTACAGGAGTCCTAGAATAGACCTGGAAGGAAAGTCAGAACCACATGCTCTGGTTTTTGTTTTATAAACTCAGTTGTTTGGGTCAGCTAAGACCTTCATTTTAGTTAGTACAGTCCTTACCTCCCAGCCTTACCAGAACAGCATCAAAGGGCTCTGATACCCAATCAGCTGCTGTCACTGAAGCAGTGCCCTTTTTTCTATTTAAGTTCAGTTTCCCCCTTGAACTCTGACCAGATGGCTCATCCTCTCTGCCAGGGATTCTTTGGGGTTTTTTTCTTTGTTGACGACTCTCTGGCTTGTAATAAATATGGGCATGATTTAATGAAACATTTCACTATTGGGTAAGAATTCGCCATTTCAAGATGGTAGAAGGACATGCTGGCTCTACTTCCAAGAGGACAGCCTAAAACTAAAACCTTTTGAATTTTGAATTAATGGGTTACCCTATAGAAAAAATGATCTGCGGAAAACCAAACAGTGAAGGGAAAGAAGGAAAGAATTTCAATTGACACAATTTAAATAAAATATGGCTTTTCAAATAAAGGAAGAGAAGTTTCTTTTGGGTCACACAATCTAAACAATATTTATGTATAATTCAGCTCTTATTTGGCTTAAATGGGCTTAGTGGGAAATGTTATCATTTTTACTATTTTCTACAGAGAAAATATTTTCCAGTTTATCAAGTAACTCTGGACTTTGGAATTACCTGTTTTTATGTTCCAGCTGTCTATATAGTTGTTTCTCTGAAATTGTACATAAAATGTTTTTACATTAAAATGAATTACTGTATAAAGTACTGCATTATGCCATAATAAAGATACTAATGCTTTA