| Gene Name | G6pd |
|
| Specie | Rattus norvegicus | |
| Full Name | glucose-6-phosphate dehydrogenase | |
| Also known as | G6pdx | |
| Coordinate | chrX:156274800-156293935 | |
| Strand | + | |
| Gene summary | Enables NADP binding activity; glucose binding activity; and glucose-6-phosphate dehydrogenase activity. Involved in several processes, including negative regulation of cell growth involved in cardiac muscle cell development; pentose-phosphate shunt, oxidative branch; and positive regulation of calcium ion transmembrane transport via high voltage-gated calcium channel. Located in cytosol and nucleus. Used to study cataract and transient cerebral ischemia. Biomarker of several diseases, including artery disease (multiple); hepatic encephalopathy; hyperhomocysteinemia; obesity; and phenylketonuria. Human ortholog(s) of this gene implicated in several diseases, including anemia (multiple); cerebrovascular disease; favism; malaria (multiple); and neonatal jaundice. Orthologous to human G6PD (glucose-6-phosphate dehydrogenase). [provided by Alliance of Genome Resources, Apr 2022] |
| Retroname | Coord | Strand | Genomic Region | ENSG | |
|---|---|---|---|---|---|
| G6pdP1 | chr6:125210731-125212977 | + |
Intragenic |
N/A | UCSC |
| >NM_017006.2 |
| AAAGCACACGCCCTCTTGCGTTAAATGGGCCAACGAAGCTTAGCCCCCGGAAACGGGCTGTGCACTCCAGATCTGTGAACGTGTTTGGCAGCGGCAACTAAATTCAGAAAACATCATGGCAGAGCAGGTGGCTTTGAGCCGGACCCAGGTGTGTGGGATCCTGAGGGAAGAGTTGTACCAGGGTGATGCCTTCCACCAAGCTGATACACACATATTTATCATCATGGGTGCATCGGGTGACCTGGCCAAGAAGAAGATTTATCCTACCATCTGGTGGCTGTTCCGGGATGGCCTTCTACCCGAAGACACCTTCATTGTAGGCTATGCCCGCTCACGACTCACAGTGGATGACATCCGCAAACAGAGTGAGCCCTTCTTTAAAGTCACTCCAGAAGAAAGACCCAAGCTAGAGGAGTTCTTTGCCCGTAACTCCTATGTAGCTGGCCAGTATGATGATCCAGCCTCCTACAAGCACCTCAACAGCCACATGAATGCCCTGCACCAGGGAATGCAGGCCAACCGTCTGTTCTACCTGGCCTTGCCCCCCACTGTCTATGAAGCAGTCACCAAGAACATTCAAGAGATCTGCATGAGTCAGACAGGCTGGAACCGCATCATAGTGGAGAAGCCCTTCGGGAGAGACCTGCAGAGCTCCAATCAACTGTCGAACCACATCTCCTCTCTGTTTCGTGAGGACCAGATCTACCGCATTGACCACTACCTGGGCAAAGAGATGGTCCAGAACCTCATGGTGCTGAGATTTGCCAACAGGATCTTTGGACCCATCTGGAATCGAGACAACATTGCTTGTGTGATCCTTACATTTAAAGAGCCCTTTGGTACTGAGGGTCGTGGGGGCTATTTTGATGAATTTGGGATCATCAGGGATGTCATGCAGAACCACCTCCTGCAGATGTTGTGTCTAGTGGCCATGGAAAAGCCTGCCTCTACAGATTCAGATGATGTCCGTGATGAGAAGGTCAAAGTGTTAAAATGTATCTCAGAGGTGGAAACTGACAACGTGGTCCTTGGCCAGTATGTGGGGAACCCCAGTGGAGAAGGAGAAGCTACCAATGGGTACTTAGATGACCCCACAGTACCCCATGGGTCTACCACTGCTACCTTTGCAGCAGCTGTCCTCTATGTGGAGAATGAACGGTGGGATGGAGTACCCTTCATCCTGCGCTGTGGCAAAGCTCTGAATGAGCGCAAAGCTGAAGTGAGACTTCAGTTCCGCGATGTGGCAGGTGACATCTTCCACCAGCAGTGCAAGCGTAACGAGCTGGTCATCCGTGTGCAGCCCAATGAGGCGGTATACACCAAGATGATGACCAAGAAGCCTGGCATGTTCTTCAACCCTGAGGAGTCTGAGCTGGACCTAACCTATGGCAACAGATACAAGAATGTGAAGCTCCCTGATGCCTATGAACGCCTCATCCTGGATGTCTTCTGTGGGAGCCAAATGCACTTTGTCCGTAGTGATGAACTCAGGGAAGCCTGGCGTATCTTCACACCATTGCTGCACAAGATTGATCGAGAGAAGCCCCAGCCCATCCCGTATGTCTATGGCAGCCGAGGTCCCACAGAGGCAGATGAGCTGATGAAGAGAGTGGGCTTCCAGTATGAGGGTACCTACAAGTGGGTGAACCCTCACAAGCTCTGAGCCCTGGAAACTTACACCATCTGCACTCTGCCTCTTCTGGCCACCCTTTCTGCATCTGCCCTTCTCACCATCTAACCCTCTATTAGGACTATTGACCTCATATTGGAAAGACTTTGGGACCATAGGCCTTAGCTACACATTCTAGTCCCTGGGCTTAGGCCACCATTCTGTCCTATGCTGCTGCCACTGCCACTACCACTAAGCCCAGCTACATTCCTCAGATACCAGGCATTCAAAACGCATTGCAATGCTTTCAGGACCACCACTGTCCCTATCTGAGCCACCCATCTTTCCACAAGACCTGAATCACCTCCTCCCCTCAATCCCCTGCAGAAAGAACGCCTATCAGTCTGTCCCTGGACTCCTTAAGATAGGAGTTAGGAACAATTGGGAGGAGCCTTGGGCCTTGGAGGGACAATGACCAAACCACACTTCCCTGAGACTGTGGGCAAGCTCCTCAAAACTTAAAGTGATCAAGGACACCCATCTGAGAGGACCTGCCCATAGCCACACTAGCCTTAGTGCTACTTGACATTCCTCCTCACCAGCTGGAAGAACTCTCATGCTGCCTAGCAATATTTTGGGGGCCATAGATATCTCCTAAACAATTCCATAGTCCATAGTCAACCTCATCCAACCCATGGGCAGCCTCCTTACCAAAGGAAGGTAAGAGCAGCAGCTAGAATTTTCCTACCCCAACCCTGCCATTAAATCCTCAAAAAAGTT |