| Gene Name | Ccdc47 |
|
| Specie | Rattus norvegicus | |
| Full Name | coiled-coil domain containing 47 | |
| Also known as | RGD1308813 | |
| Coordinate | chr10:94388425-94406949 | |
| Strand | - | |
| Gene summary | Predicted to enable calcium ion binding activity; protein folding chaperone; and ribosome binding activity. Predicted to be involved in ERAD pathway; endoplasmic reticulum calcium ion homeostasis; and protein insertion into ER membrane. Predicted to act upstream of or within several processes, including ER overload response; calcium ion homeostasis; and ubiquitin-dependent ERAD pathway. Predicted to be located in rough endoplasmic reticulum. Predicted to be integral component of endoplasmic reticulum membrane. Predicted to be active in endoplasmic reticulum. Orthologous to human CCDC47 (coiled-coil domain containing 47). [provided by Alliance of Genome Resources, Apr 2022] |
| Retroname | Coord | Strand | Genomic Region | ENSG | |
|---|---|---|---|---|---|
| Ccdc47P1 | chr5:96079889-96081511 | - |
Intergenic |
N/A | UCSC |
| >NM_001013974.1 |
| TGAAGAGTAGGGTACCGTGACTGAGCTACCTGCTCTGGGCTGTTCAGTGACCTCGCGGCCCGCAGATAAATCTTTGCGACCTGAAGGCAGAAACCAGACAAAGGCAGGCCGGGTGGAGGTGGTGGCCTCAGGAGCCCCGGGTCCGGTGGTAGCCTCGGGTGCAGCTTATTTTTAAGGTGCAATGAAAGCCTTCTGTGCTTTCTGTGTTGTTCTCTTGGTGTTTGGGAGTGTCTCTGAAGCCAAGTTTGATGATTTCGAGGATGAGGAAGACATAGTAGAGTATGATGATAATGATTTTGCTGAGTTTGAGGACGTCGTGGAAGATTCTGTTACGGAATCTCCTCAGCGAGTGATCAACACTGAAGATGACGAGGATGAGGCCACCGTGGAATTGGAAGGGCAGGATGAAGGCCAAGAAGGCGATTTCGAAGATGCAGATACCCAGGAGGGAGATACAGAAAGTGAGCCATATGATGACGAAGAATTTGAGGGTTATGAAGACAAACCTGATACCTCTTCTAACAAAAATAAAGATCCAATAACAATTGTTGATGTTCCTGCACACCTCCAGAACAGTTGGGAGAGTTATTACCTAGAAATTTTGATGGTGACCGGTCTGCTTGCCTATATCATGAACTATATCATCGGGAAGAATAAAAACAGCCGACTTGCTCAGGCCTGGTTTAACTCTCATAGAGAGCTTTTGGAGAGCAATTTTACCTTAGTGGGGGATGATGGGACTAACAAAGAAGCCACAAGCACAGGGAAGTTGAACCAGGAGAATGAGCACATCTATAACCTGTGGTGTTCTGGCCGAGTGTGCTGTGAAGGCATGCTCATCCAGCTGAGGTTCCTGAAGAGACAAGACTTACTTAACGTCCTGGCCCGGATGATGAGGCCAGTGAGTGATCAGGTGCAAATAAAAGTCACAATGAACGACGAGGACATGGATACATACGTGTTCGCTGTCGGCACTCGCAAAGCTTTGCTGCGACTGCAGAAAGAGATGCAGGATCTGAGTGAGTTTTGTAGTGATAAACCTAAGTCTGGAGCGAAGTATGGACTGCCAGACTCTTTGGCCATTCTGTCAGAGATGGGAGAAGTCACAGAGGGGATGATGGATACAAAGATGGTTCACTTTCTTACACACTATGCTGATAAGATTGAATCTGTTCATTTTTCAGACCAGTTCTCTGGTCCAAAGATTATGCAAGAGGAAGGGCAGCCTTTAAAGCTGCCTGACACCAAGAGGACACTACTGTTTACATTTAATGTGCCTGGCTCAGGTAACACGTACCCAAAGGATATGGAGGCTTTGCTACCCCTGATGAACATGGTGATTTATTCTATCGATAAAGCCAAAAAGTTCCGCCTCAACAGAGAAGGCAAACAAAAAGCAGATAAGAACCGGGCACGCGTGGAAGAGAACTTTCTGAAGCTGACACATGTACAGAGACAGGAGGCTGCACAGTCTCGGCGTGAGGAGAAGAAAAGAGCTGAGAAGGAGCGGATCATGAATGAGGAGGACCCTGAAAAGCAGCGCAGGCTGGAGGAAGCGGCTTTGAGGAGAGAACAAAAGAAGTTGGAGAAGAAGCAAATGAAAATGAAACAAATCAAAGTGAAAGCCATGTAAAGTGGTCCTACGGGCCTGTCCTCGATGCCGATGCCGGAAGCTGGAAGCGCTGTGTCTGCCGAGTCCTCACCTAACAGTCACGTGTTTCTGGTGACTCAGAGATCTTTATTTCACCCTCTCCTTTTGGTTTGGAGTTCTACAGAGGTTAGAGATACATTGAAAGGGCTTTTTCAGCTATCTCCTTCCAGATAATCAAATTATTTTGGTTATTCTCTAAAAGGAATGGTATATAAGTATGTGTAGTTTTACAATGTTTAAATTATAATGTGAATCATTAGTGCTTTACTTTGGTGTTTGAAGAACGATCATGAAATTTCTAGGTAGGTTGTTGCTTTTTGTTTAAACTGAGAGTTGAAATTTCTATGGAGACTGACTCTAACCCAACACCCTAAGAATATCTATTGGAATTGCACAATAGCCATTGCTTGTTTTTCTGTGTCCACATTAAACTTGTGAAAAAAGTGGAATCTAGAACACTGTATGTGATGACAAGGTCAGAGACTTAGAACGTAGTACAGCATATGTTTTGTGTGGGGGTGGTGCTGATGGCAGTATGATAGGAAGAGATCCATAGGTGTTAGGATACTGTAAGTCCATGGAGGACTCTCGAGGTAGGTAGTACAGGAGTGGTTTCTCATTGCCTGATACTATGAGCTAATGACACTGAGTGCTGGATTTGAAGTAGTTATGTGCTTATTTTTTCTGAGCAAGAAATGCATGAATAAATGGACTGCGTCAGCTAGCCGGATCAGCAGTCAGATGGCTGGTCTCTGTGAGGTCATAATGGGTTTCTTGCTTGCTGCAGCCTGTGAGGTTTTCATGGAGGAGCTGATCTGTCTTATGAGTGCGCTTGTTCTCTGCCTGCTTTTATATTGTCCACAAGGCCGGTATGTACTGTCTTGAAACACATAACCATTGATATGCACAAATATGCTTTTAAAAAGTGAGCTTTTTTAAGTGATTCAGAATTTTGTCTGACTCGTGGGGCAGGAGCGATGGTGGAGAGAGGCCCCTCTCTGTGCATAAGCATTGGCTTGTCGAGAGCTCTGCATTTTATAAATGCTTCCTACCGAGAAAGCATTTCTTAAGTCTCTGCTTGTACCAGGTAGTTCTTGCTGGGGTGGGAAAGGGTTGTTTTGTGTTGGGAGTGGGTAGTGGGGTTTGGTTGACAATTTCTGTGTTCTGATGCCGCAGTAACAGTGAGGTGTGGTGAAAGCTGTGTGCTGTTGCCTTGGGGATTACATGGGGTTTTTCATGTGGCTTTGTCTAGGTTAATAGAAATTATGCACTGGGATATACAGGTGTAGTTAAGTTATTAAAAATAACACAAGATTGAATCACTTTAAGGCCATATAATTTTAGACTTAACATTGTTTTACAAATCTTAAAGTACATTTAGAGTCAAATTTTATGTGCTTAGTTATTGTTTAAGTAATATAAGCTTTCTGAAAGTCCCATATATTGGACCGTGGCAGCTAATTTTGTAACTTAAGCATTCATATGACTACCTATGACATATTAAACTGATTGACAAAAATCTGAGACTGCGGCTTTGACTTTTTATAGTTGTCCTACAAGAATATGTATACTGTTCTCTTATTAAAAACATTAAAAGGTTTTCCTTCAAAAA |