| Gene Name | Hspa14 |
|
| Specie | Rattus norvegicus | |
| Full Name | heat shock protein family A (Hsp70) member 14 | |
| Also known as | - | |
| Coordinate | chr17:78735630-78756412 | |
| Strand | + | |
| Gene summary | Predicted to enable several functions, including ATP binding activity; ATP hydrolysis activity; and misfolded protein binding activity. Predicted to be involved in several processes, including cellular response to unfolded protein; chaperone cofactor-dependent protein refolding; and protein refolding. Predicted to be active in cytosol; nucleus; and plasma membrane. Predicted to colocalize with ribosome. Orthologous to human HSPA14 (heat shock protein family A (Hsp70) member 14). [provided by Alliance of Genome Resources, Apr 2022] |
| Retroname | Coord | Strand | Genomic Region | ENSG | |
|---|---|---|---|---|---|
| Hspa14P1 | chr9:9556861-9557616 | + |
Intragenic |
N/A | UCSC |
| >NM_001004257.1 |
| GTTCCAGGCCGGCTAGCTACGGCTGCTGAAGGGCCCGTCGTTGAGCTGCCTTGGTCACCGCCGCCTTATGGCGGCGATCGGCGTGCACCTGGGCTGCACATCAGCCTGTGTGGCTGTCTACAAGGATGGCCGGGCCGATGTGGTTGCAAATGATGCGGGGGACAGAGTCACGCCAGCCGTCGTTGCTTACTCGGAACGTGAACAGGTGGTTGGACTGGCGGCAAAACAAAGTAGGATAAGGAATATCTCAAGCACGGTAGTGAAAGTAAAACAGATCCTTGGCAGAAGCACTGCTGATCCACAGGCTCAGAAATATATCTCGGAAAGTAAATGCTTAGTCATTGAGAAAAATGGGAAGTTGCAGTATGAAATAGATACAGGAGAAGAAACAAAACTCGTTAGTCCAGAAGATGTTGCCAGACTGATATTCAGTAAAATGAAAGAAACAGCACATTCTGTCCTGGGCTCAGATGCAAACGATGTCGTTGTTACCGTCCCATTTGACTTCGGAGAAAAGCAGAAGTCTGCTCTGGGAGAGGCAGCTGGAGCCGCCGGGTTTAATGTGTTGCGACTAATACATGAGCCGTCTGCAGCTCTCCTGGCCTATGGAATTGGACAAGACTGCCCTACCGGGAAGAGCAATGTTTTGGTGTTTAAGCTGGGAGGAACATCCTTGTCGCTCAGTATCATGGAAGTGAACAGCGGGATGTATCGGGTTCTTTCCACAAACACCAGTGACAACATCGGGGGTGTGCATTTCACAGACAGCTTAGCTCAGTACCTGGCTTCGGAGTTCCAGAGGCTGTTCAAGCACGATGTGAGAGGAAGTGCCCGGGCCATGATGAAGCTGATGAACAGCGCTGAGGTGGCCAAGCACTCCCTGTCCACCCTGGGAAGTGCCAATTGCTTCGTGGACTCCTTGTATGAAGGTCAAGACTTCGACTGCAATGTGTCCAGAGCAAGATTTGAGCTTCTTTGTTCTCCGCTTTTTAACAAATGTATAGAAGCAGTCCGGGCGCTCCTACAGCAGAGTGGATTTACAGCAGATGACATTAACAAGGTTGTGCTGTGTGGTGGATCGTCAAGGATCCCAAGGCTGCAGCAGCTGATTAAAGATCTCTTCCCAGCTGGGGACCTTCTCAACTCCATCCCTCCAGATGAGGTCATCCCTATCGGTGCAGCCATCGAGGCCGGGATTCTTGTTGGGAAGGAGAGCACCTCAGGGGATGACTCTGTCCTGATCGAGTGTTCAGCCCGGGATATTTTAGTTAAGGGAGTCGATGAATCAGGTGCCAACAGATTCACAGTGCTGTTCCCCTCTGGGACTCCTCTGCCAGCGCGAAGACAGCACACGCTACAAGCCCCTGGCAGTATATCTTCTGTTTGCCTTGAACTCTATGAGTCTGAGGGCAAGAACTCTGTTAAAGAGGAGACCAAGTTTGCACAGGTTGTGCTCCAGGACTTAGATAAAAAAGAAAATGGATTACGTGATATATTAGCTGTCCTTACTATGAAAAGGGATGGATCTTTACAGGTGACGTGCACAGACCAAGAGACCGGGAAGTGTGAGGCCATCACTGTTGAAGTTGCATCCTAACTGTTCAGATAAACCAAGACGTTTTTTAGAACTGTAATATCAACATTATTTGGTTTTGTGTATAAGTGTTGTTTATAATAAAATGCTTTTTCAAAGAATGGTATAAGCTATGTTTCTATTAAAATACAATTCATTAGTAA |