| Gene Name | Tmf1 |
|
| Specie | Rattus norvegicus | |
| Full Name | TATA element modulatory factor 1 | |
| Also known as | - | |
| Coordinate | chr4:129521986-129546024 | |
| Strand | - | |
| Gene summary | Predicted to enable androgen receptor binding activity and nuclear receptor coactivator activity. Predicted to be involved in androgen receptor signaling pathway; positive regulation of transcription by RNA polymerase II; and regulation of proteasomal protein catabolic process. Predicted to act upstream of or within several processes, including Leydig cell differentiation; regulation of gene expression; and spermatid development. Predicted to be located in Golgi apparatus and endoplasmic reticulum. Orthologous to human TMF1 (TATA element modulatory factor 1). [provided by Alliance of Genome Resources, Apr 2022] |
| Retroname | Coord | Strand | Genomic Region | ENSG | |
|---|---|---|---|---|---|
| Tmf1P1 | chr3:118040234-118042458 | - |
Intergenic |
N/A | UCSC |
| Tmf1P2 | chr8:7922191-7923701 | - |
Intragenic |
N/A | UCSC |
| >NM_053671.2 |
| GCGGCCGCGGGAGGCGGTGGGCCGGGGCCACCGCTGAGGCCGCCGGTGCCGGCCGGACCCGGCGCTGAGGAGGGGCCATGAGCTGGTTCAATGCCTCGCAGTTGTCCAGCTTCGCCAAGCAGGCCCTGTCCCAGGCCCAGAAGTCCATCGACAGGGTCCTGGACATCCAGGAGGAAGAGCCGAGCGCCTGGGCCGAGGCCATCCCGTACGGTGAGCCAGGAATAAGTCCCTCTGTGAGTGGAGGATGGGATACTTCAACCTGGGGATTGAACTCAAGCTCTGAACCTCAGAGTTCACCAACAGCCTCTCAAGCAATTACAAAGCCAGTTCGGAGGACTGTAGTAGATGAATCTGAAAATTTCTTCAGTGCCTTTCTCTCTCCATCGGATGTGCAGACCATTCAGAAGAGTCCAGTGGTCTCAAAGCCTCCTGCTAAATCACAGCGACCAGAAGAAGAAGTGAAAAGCAGTTTACAAGAACCATCGTCTCCTGGCCAGTCCAGAACCTCTGAGACAGCGGAGTCTGAAGCGACAGACTCTGCCTGTGTTTCGGGAGAGACTCCAGCCGTGGGCACTCCCTCACCTGTCCCTGAAGGCAAGCGTGAAGAAACTGCTAGTGAAGAGTCTGAGGGGAAGGTGCCCACCGTGAGAGCGAAGGCGTCTGAAAGCGTAGTTAAGGTAAACACAGCAGAAGATGTATCTCCCACATCCACTCAGTCTCTTACGACCGAAACGAAGGATATGGCTTTGGAGCCTAAAGAACAAAAACACGAAGACAGACAAAGCAACACACCTTCTCCTCCTGTTAGCTCCTTCTCGTCAGGCACTTCCACCACCAGTGACATTGAAGTTTTAGATCATGAAAGTGTAATAAGTGAGAGCTCAGCTAGTTCAAGGCAAGAGACTTCAGATGCAAAGTCAAGTCTTCACCTCATGCAGACCTCATTTCAGCTTCTCTCTGCATCTGCTTGTCCTGAGTATGGCCGCTTAGATGACTTCCAAAAGCTCAGTGAGAGTTGCTGCTCTTCGGATGCTTTTGAGAGAATAGACTCGTTTAGCGTGCAGTCTCTGGATAGCCGGAGTGTGAGTGAAATCAACTCGGACGACGAACTGCCGGGTAGAGGCTATGCTTTAGTACCTATAGTCGTGAGTCCTTCAGCCCCGAAGACAAAAGTAGTAGAATCTACTGAGGAAAACGTTGAAGAAGAGGAAGGAAACGAGACATTAATTGCACCTTCTGAGGAAGCAGAATTAGAGGAAAGTGGCCGAAGTGCTACTCCAGTTAACTGTGACCAGCCAGATACATTGGCTTCTCCTACACCAGTAAATGTTGGGCCCTCTGCCTCTGGACCGGCCGCTGAGGATGGTGAAGCTGCTGAAAACCACCCAAAAGCACCACAGCTGGAGCAAGAAGATGTTGGCAAGACAGTTGAATTTCTGAATGAGAAGCTAGAAAAGAGGGAGACTCAATTATTGTCACTTAGTAAGGAAAAGGCACTTCTAGAGGAAGCTTATGATAACCTGAAGGATGAAATGTTCAGAGTAAAAGAAGAAAGTAGTAGCATTTCTTCCCTGAAAGATGAGTTTACCCAGAGGATCGCAGAAGCAGAAAGGAAAGCTCAACTCGCCTGCAAAGAGAGAGACACTGCGAAGAAGGAAATGAAAACCATGAAGGAAGAACTTGCCTCTAGATTAAATAGTAGTCAGACTGCAGACCTTCTGAAGGAAAAGGATGAACAGATTCAAGGCTTAATGGAAGAAGGAGAAAAACTTTCGAAGCAGCAGCTGCATAATTCCAACATGATTAAGAAATTAAGAGCTAAGGATAAAGACAATGAAAGTGTTATTGCAAAGCTGAAGAAAAAAGCTAAGGAGCTGGAAGAGGAGCTACAGCATTTAAGACAGGTCCTTGATGGCAAAGAAGAGGTTGAGAAACAACATAGAGAAAACATTAAAAAACTAAATTCTGTAGTAGAACGCCAGGAAAAAGATCTTGGCCGACTTCAGGTAGACATGAATGAACTTGAAGAAAAGAGCCGAAGTACTCAGGCTGCCCTAGACAGTGCCTACAGAGAACTTACTGATCTTCACAAAGCCAACGCTGCTAAGGACAGTGAGGTACAAGAAGCTGCTCTGAGGCGTGAGATGAAAGCTAAAGAAGAACTTTCTGGGGCACTGGAGAAGGCCCAGGAAGAAGCCCGTCAGCAGCAAGAGACTTTAGCACTTCAGGTTGGGGACCTTAGGCTAGCGCTGCAACGGGCAGAGCAAGCAGCTGCCAGGAAAGAGGATTACTTACGCCATGAGATCAGTGAACTTCAGCAGAGACTCCAAGAAGCAGAGAATCGAAACCAGGAGCTGAGTCAAAGTGTTTCATCAACAACAAGACCTTTGCTTCGACAGATAGAAAATTTACAAGCAACTCTAGGATCCCAGACATCGTCATGGGAGATGCTAGAGAAGAATCTTTCTGATCGGCTCGGTGAATCACAGACCTTGTTGGCTGCAGCAGTTGAAAGAGAACGTGCAGCTACGGAAGAACTCCTAGCCAACAAAATCCAGATGTCTTCAGTGGAGTCGCAGAATGCATTACTACGACAGGAAAACAGTAGACTGCAGGCCCAGCTAGAGTCAGAGAAAAATAAATTAAGAAAACTAGAGGATGAAAATAGCCGGTACCAGGTTGAATTAGAAAATCTAAAAGATGAATATGTAAGAACACTTGAAGAGGCAAGGAAAGAAAAGACACTTTTGAGCAGTCAGTTAGAAATGGAAAGAATGAAAGTTGAACAAGAAAGGAAGAAAACCATTTTCACTCAAGAAACACTAAAAGAAAAGGAGCACAAGCCGTTTTCCGTTTCTAGTACTCCCACCATGTCACGATCCAGTTCTCTAAGTGGAGTAGATATGGCAGGGCTGCAGACATCCTTCCTATCTCAGGATGAGTCTCACGACCATTCATTTGGGCCAATGTCTACGTCAGCCAGTGGAAGCAATCTTTATGAAGCTGTAAGGATGGGAGCCGGATCAAGCATTATCGAAAATCTTCAGTCTCAGCTAAAGCTGAGGGAAGGAGAAATTAGTCATTTACAGCTAGAAATTAGTAACCTAGAAAAAACTCGATCCATAATGTCCGAAGAGCTAGTTAAATTAACAAATCAGAATGATGAACTTGAGGAGAAAGTGAAAGAGATACCCAAGCTTCGAGTTCAGCTGCGAGATTTGGATCAAAGATACAACACTATTCTGCAGATGTATGGAGAAAAAGCAGAAGAAGCAGAGGAACTTCGCCTGGATCTTGAAGATGTAAAAAATATGTATAAAACTCAAATAGATGAACTTCTAAGACAAAGACTCAGCTAACTTGTGAAGTTTGTGTTCCATCACACTAATGTAAACACTTATATATAAATGCAGACGTACAATAAATTCTTCTACAGAATTAGAAA |