Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Gene Name Tomm70
Plot displaying the genomic locations of a parental gene (in chr11) and its retrocopy(ies). Each line represents a retrocopy.
Specie Rattus norvegicus
Full Name translocase of outer mitochondrial membrane 70
Also known as TOM70|Tomm70a
Coordinate chr11:45477053-45511409
Strand -
Gene summary Involved in several processes, including negative regulation of cell growth involved in cardiac muscle cell development; protein targeting to mitochondrion; and response to thyroxine. Is integral component of mitochondrial outer membrane. Part of mitochondrial outer membrane translocase complex. Used to study congestive heart failure. Biomarker of hypothyroidism. Orthologous to human TOMM70 (translocase of outer mitochondrial membrane 70). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Tomm70

Retroname Coord Strand Genomic Region ENSG
Tomm70P1 chr6:52822273-52825022 - Intergenic
 N/A UCSC

Expression

Transcript Sequences

>NM_212519.2
CCTTTTCTGTCGTCCGCTCCTGCTGCTTAGCGTGCTCGCTCGCGCGTTGCTTTCCTCCACGCTCCCGGCTTCCTCTCCACGCTGCCCGGTGACCGTGGCGCCCGCGACCGGCGCGGCGGCGGCGGAGGACAGTCGTCATGGCCGCCTCTAAGCCCGTAGAGGCGGCGATGGCGGCGGCTGCTGCGCCCGCTTCTGGAAATGGAGTGGGCAGTAGCGGTGGGACTGCGGCCCCCGGCTCGGGCGCGGGGACCCTGCCGCGATGGCACGTGGCGCTGGCCATCGGGGCGCCCCTGTTGCTGGGTGCTGGGGCCATGTACCTGTGGAGCCGAAGACGGAGGCGCCGGGAAGCCGGAGGCCGGGGCGACGCCAGCGGCCTGAAGCGCAACAGCGAACGAAAGACCCCAGAGGGCAGGGCCAGTCCGGCCCTGGGCAGTGGCCCCGACGGTTCTGGTGACTCCCTGGAAATGAGCTCTCTGGATAGAGCCCAAGCAGCCAAAAATAAAGGCAACAAATATTTCAAAGCAGGAAAATATGAGCAAGCTATTCAGTGCTATACCGAGGCTATTAGTCTGTGCCCTACTGAGAAGAATGCAGACCTCTCTACATTTTATCAGAACAGAGCTGCTGCCTTTGAACAGTTGCAAAAATGGAAAGAAGTGGCCCAAGATTGTACAAAGGCCGTTGAACTTAATCCCAAATATGTGAAAGCTCTCTTTAGACGTGCAAAAGCCCATGAGAAGCTAGACAATAAGAAGGAGTGTTTAGAAGATGTCACTGCTGTGTGTATATTAGAAGGGTTTCAAAATGAGCAGAGCATGCTGTTAGCTGATAAAGTTCTTAAACTTCTCGGGAAAGAGAATGCCAAAGAAAAATATAAGAACCGGGAACCTCTGATGCCATCTCCACAGTTTATTAAATCTTACTTCAGTTCTTTCACGGATGACATAATTTCTCAGCCAATGCTTAAAGGAGAGAAGTCTGACGAAGATAAGGACAAGGAGGGAGAAGCGTTAGAAGTAAAAGAAAATTCTGGATATTTAAAAGCTAAACAATATATGGAAGAAGAAAACTATGACAAAATCATAAGTGAATGCTCAAAGGAAATAGATGCTCAAGGCAAATACATGGCAGAGGCATTACTACTACGAGCCACCTTCTACTTGCTTATTGGCAGTGCCAACGCGGCCAAGCCTGACTTAGATAAGGTCATCAGTTTGAAGGAAGCTAACGTGAAGCTTCGAGCAAATGCCCTTATCAAAAGAGGCACCATGTGCATGCAGCAGCAGCAGCCTATGCTGTCTACTCAGGACTTCAACATGGCTGCTGAGATTGACCCTATGAACTCGGATGTTTATCACCACCGAGGACAGCTGAAAATCCTGCTGGATCTAGTTGAAGAAGCAGTGGCAGATTTTGATGCATGTATCAGACTAAGACCGAAGTTTGCTTTGGCACAGGCTCAGAAGTGTTTTGCATTGTATCGGCAGGCATATACAGCAAACAATTCTTCGCAAGTCCAGGCAGCTATGAAAGGTTTTGAAGAAGTCATAAAGAAATTTCCAAGGTGTGCTGAAGGCTATGCACTTTATGCCCAGGCATTAACAGATCAACAACAATTTGGTAAAGCTGATGAAATGTATGATAAATGTATTGATTTGGAACCAGATAATGCTACAACTTATGTTCATAAAGGTTTACTTCAACTTCAGTGGAAGCAAGATTTGGATAAAGGTTTGGAGCTTATCAGCAAAGCTATTGAAATTGACAACAAATGTGACTTTGCGTATGAGACCATGGGGACTATTGAAGTGCAGAGAGGACACATGGAGGCCATTGACATGTTCAACGCTATCAACCTGGGCAAGTCGGAAATGATGGCTCATCTGTACTCACTTTGTGATGCTGCGCCCCGTGCCCAGACAGAAGTAGCAAAGAAATACGGATTACCACCGACATTATAAGCACCAGGGGAAACAGACTGGACTCTTTTAAAGAATGTTTTCCCCCTCTTCAACTGAATCCTGAAGACACTGTCATGAATTGTTGAATGGTGGAACTCAGTATTCCCTTTGTGATGTTGTCATTACATCTGTTTCATGTTTAGGTGTAGTGGGCGTGGCCTTCAAGGAAGTTTGCAGTCTTGCAGCTTTTATTCCCTGTGCAACAAAAGCTTAGAACCTGTTAAAGGGATATTAAAACAAAGTTGTAGAATACAAACAGTAATTGGCCATGCAAATAAAAACTTTGATTTGTTGA