| Retrocopy Name | ATP5F1AP10 |
|
| Species | Homo sapiens | |
| Coordinates (hg38) | chr9:66721434-66722864 UCSC | |
| Coordinates (T2T) | chr9:78490792-78492222 UCSC | |
| Coordinates (hg19) | chr9:41799116-41800545 UCSC | |
| Strand | + | |
| Parental Sequence | NM_001001935.3 | |
| Parental seq. overlap | 1326 bp | |
| Parental seq. overlap (%) | 22.7% | |
| Genomic Region |
Intergenic |
|
| Retrocopy Summary | ATP5F1AP10, located on chr9:66721434-66722864, is a retrocopy of the parental gene ATP5F1A. Retrocopies of protein-coding genes, also known as processed pseudogenes, are intriguing genomic elements with implications in genome evolution and diseases. While some retrocopies are non-functional, there are examples of retrocopies (retrogenes) acquiring regulatory roles or exhibiting neofunctionalization unrelated to their parental genes. |
| Gene Name | ATP5F1A |
| Full Name | ATP synthase F1 subunit alpha |
| Also known as | ATP5A|ATP5A1|ATP5AL2|ATPM|COXPD22|HEL-S-123m|MC5DN4|MOM2|OMR|ORM|hATP1 |
| Coordinate | chr18:46080248-46104227 |
| Strand | - |
| Gene summary | This gene encodes a subunit of mitochondrial ATP synthase. Mitochondrial ATP synthase catalyzes ATP synthesis, using an electrochemical gradient of protons across the inner membrane during oxidative phosphorylation. ATP synthase is composed of two linked multi-subunit complexes: the soluble catalytic core, F1, and the membrane-spanning component, Fo, comprising the proton channel. The catalytic portion of mitochondrial ATP synthase consists of 5 different subunits (alpha, beta, gamma, delta, and epsilon) assembled with a stoichiometry of 3 alpha, 3 beta, and a single representative of the other 3. The proton channel consists of three main subunits (a, b, c). This gene encodes the alpha subunit of the catalytic core. Alternatively spliced transcript variants encoding the different isoforms have been identified. Pseudogenes of this gene are located on chromosomes 9, 2, and 16. [provided by RefSeq, Mar 2012] |
| Species | Scientific Name | Retrocopy | |
 |
Bonobo | Pan paniscus | ATP5F1AP2 |
 |
Orangutan | Pongo abelii | ATP5F1AP2 |
 |
Green monkey | Chlorocebus sabaeus | ATP5A1P3 |
 |
Rhesus | Macaca mulatta | ATP5F1AP3 |
 |
Chimpanzee | Pan troglodytes | Without Homology |
 |
Gorilla | Gorilla gorilla | Without Homology |
 |
Gibbon | Nomascus leucogenys | Without Homology |
 |
Crab-eating macaque | Macaca fascicularis | Without Homology |
 |
Baboon | Papio anubis | Without Homology |
 |
Golden snub-nosed monkey | Rhinopithecus roxellana | Without Homology |
 |
Marmoset | Callithrix jacchus | Without Homology |
 |
Mouse lemur | Microcebus murinus | Without Homology |
 |
Mouse | Mus musculus | Without Homology |
 |
Rat | Rattus norvegicus | Without Homology |
 |
Chinese hamster | Cricetulus griseus | Without Homology |
 |
Rabbit | Oryctolagus cuniculus | Without Homology |
 |
Pig | Sus scrofa | Without Homology |
 |
Cow | Bos taurus | Without Homology |
 |
Sheep | Ovis aries | Without Homology |
 |
Dolphin | Tursiops truncatus | Without Homology |
 |
Horse | Equus caballus | Without Homology |
 |
Dog | Canis familiaris | Without Homology |
 |
Panda | Ailuropoda melanoleuca | Without Homology |
 |
Cat | Felis catus | Without Homology |
 |
Pale spear-nosed bat | Phyllostomus discolor | Without Homology |
 |
Velvety free-tailed bat | Molossus molossus | Without Homology |
 |
Greater mouse-eared bat | Myotis myotis | Without Homology |
 |
Kuhl's pipistrelle | Pipistrellus kuhlii | Without Homology |
 |
Greater horseshoe bat | Rhinolophus ferrumequinum | Without Homology |
 |
Egyptian rousette | Rousettus aegyptiacus | Without Homology |
 |
Sloth | Choloepus didactylus | Without Homology |
 |
Tasmanian Devil | Sarcophilus harrisii | Without Homology |
 |
Opossum | Monodelphis domestica | Without Homology |
 |
Platypus | Ornithorhynchus anatinus | Without Homology |
 |
Chicken | Gallus gallus | Without Homology |
 |
Turkey | Meleagris gallopavo | Without Homology |
 |
Zebra Finch | Taeniopygia guttata | Without Homology |
 |
Budgerigar | Melopsittacus undulatus | Without Homology |
 |
Painted Turtle | Chrysemys picta | Without Homology |
 |
Lizard | Anolis Carolinensis | Without Homology |
 |
Frog | Xenopus tropicalis | Without Homology |
 |
Zebrafish | Danio rerio | Without Homology |
 |
Drosophila | Drosophila melanogaster | Without Homology |
| >ATP5F1AP10 |
| aAACCTGACAATGTTGGTGTTGTCGTGTTTGGAAATGTTTAACTAATTAAGGAAGGAGCTAGAATGAAGAGGACAAGAGCCATTGTGGACATTCCAGTTGGTGAGGAGCTGTTGGGTCATGTGGTTGATGCCCTTCGTAATGCCATTGATGGAAAGGGTCCATTTGGTTCCAAGAACCATAGGTGAGTTGGTCTGAAAGCCCCTGGAATCATTCCTCAAATTTCAGTGCAGGAACCAATGCAGACTGGCATTAAGGCTGTAAATAGCTTGGTGCCAATTGGCCATGGTCAGTGTGAGCTGATTATTGGTAATGGACAGACTGGAAAAATCTCAATTGCTATTGACACAATCATTAACCAGAAATGTTTCAATGATGGATCTGATGAAAAGAAGAAGCTGTACTGTGTCTATGTTGTTATTGGTCAAAAGAGATCCACTGTTGCCCAGTTGGTGAAGAGACTTACGATGCAGATGCCATGAATTACACCATCGTGGTGTCAGCTACGGCCTCAGATGCTGCCCCACTTCAGTAACTGGCTCCTTACACTGGCTGTTCCATGGGAGAGTATTTTAGAGACAATGGCAAACATGCTTTGACCATCTATGACAACTTATCCAAACAGGCTGTTGCTTACCATCAGATGTTTCTGTTGCTCTGCCAACCCCCTGGTTGTGAGGCCTATCCTGGTGTTGTGTTCTACCTATGCTCCCAGTTGCTGGAGAGAGCAGCCCAGATGAACAATGCTTTTGGTGGTGGCTCCTTGACTGCTTTGCCAGTCATAGAAACAGACTGGTGATGTGTCTGCTTACATTCCAATGAATGTCATTTCTATCACGAACGGACAGATCTTCTTGGAAACAGAATTGTTCTACAAAGGTATCCACCCTGCCATTAATGTCGGTCTGTCTGTGTCTCGTGTCAGATCTGCTGCCCAAACCAGGGCTATGAAGCAGGTGGCAGGTACCATGAAGCTGGAAGTGGCTCAGTATCATGAGGTCACCACTTTTGCCCAGTTCAGTTCTGACCTCGATGCTGCCACTCAACAACTTTTGAGTTGTGGTGTGTGTCTAACTGAGTTGCTGAAGCAAAGACAGTATACTCCCATGGCTATTGAAGAACAAGTGGCTGTTATCCATGTGGGTATTAGGGGCTATCTTGATAAACGGGAGCCCAGCAAGATTACAAAGTTTGAGAATGCTTTCTTGTCTCATGTCAGCTGACACCAAGCCCTGTTGGGCACTACCAGGGCTGATGGAAAGATCTCAGAAGAATCAGATGCTGAATTTGAAGCTTAAACGCCTGTGGATTTACATCAAATACCAGTTCAGTTTTGTCATTGTTTATTCTAGTAGATTAGTTTCATTTGTGAAAGGGTTACTCTCATACTCCTTATGTACAGAAATCACATGAAAAGTAAAGGTTCCATAATG |
| >NM_001001935.3 |
| CATTTTGTCCCAGTCAGTCCGGAGGCTGCGGCTGCAGAAGTACCGCCTGCGGAGTAACTGCAAAGATGCTGTCCGTGCGCGTTGCTGCGGCCGTGGTCCGCGCCCTTCCTCGGCGGGCCGGACTGGTCTCCAGAAATGCTTTGGGTTCATCTTTCATTGCTGCAAGGAACTTCCATGCCTCTAACACTCATCTTCAAAAGACTGGTAAGTTATTATTTCTCAGTCTACGCCGCACTTACTAGATGAAGATATAAATTACATACATCGTATAACTGTGGGACTGCTGAGATGTCCTCTATTCTTGAAGAGCGTATTCTTGGAGCTGATACCTCTGTTGATCTTGAAGAAACTGGGCGTGTCTTAAGTATTGGTGATGGTATTGCCCGCGTACATGGGCTGAGGAATGTTCAAGCAGAAGAAATGGTAGAGTTTTCTTCAGGCTTAAAGGGTATGTCCTTGAACTTGGAACCTGACAATGTTGGTGTTGTCGTGTTTGGAAATGATAAACTAATTAAGGAAGGAGATATAGTGAAGAGGACAGGAGCCATTGTGGACGTTCCAGTTGGTGAGGAGCTGTTGGGTCGTGTAGTTGATGCCCTTGGTAATGCTATTGATGGAAAGGGTCCAATTGGTTCCAAGACGCGTAGGCGAGTTGGTCTGAAAGCCCCCGGTATCATTCCTCGAATTTCAGTGCGGGAACCAATGCAGACTGGCATTAAGGCTGTGGATAGCTTGGTGCCAATTGGTCGTGGTCAGCGTGAACTGATTATTGGTGACCGACAGACTGGGAAAACCTCAATTGCTATTGACACAATCATTAACCAGAAACGTTTCAATGATGGATCTGATGAAAAGAAGAAGCTGTACTGTATTTATGTTGCTATTGGTCAAAAGAGATCCACTGTTGCCCAGTTGGTGAAGAGACTTACAGATGCAGATGCCATGAAGTACACCATTGTGGTGTCGGCTACGGCCTCGGATGCTGCCCCACTTCAGTACCTGGCTCCTTACTCTGGCTGTTCCATGGGAGAGTATTTTAGAGACAATGGCAAACATGCTTTGATCATCTATGACGACTTATCCAAACAGGCTGTTGCTTACCGTCAGATGTCTCTGTTGCTCCGCCGACCCCCTGGTCGTGAGGCCTATCCTGGTGATGTGTTCTACCTACACTCCCGGTTGCTGGAGAGAGCAGCCAAAATGAACGATGCTTTTGGTGGTGGCTCCTTGACTGCTTTGCCAgtcatagaaacacaggctggtgatgtgtctgcttacattccaacaaatgtcatttccatcactgacggacagATCTTCTTGGAAACAGAATTGTTCTACAAAGGTATCCGCCCTGCAATTAACGTTGGTCTGTCTGTATCTCGTGTCGGATCCGCTGCCCAAACCAGGGCTATGAAGCAGGTAGCAGGTACCATGAAGCTGGAATTGGCTCAGTATCGTGAGGTTGCTGCTTTTGCCCAGTTCGGTTCTGACCTCGATGCTGCCACTCAACAACTTTTGAGTCGTGGCGTGCGTCTAACTGAGTTGCTGAAGCAAGGACAGTATTCTCCCATGGCTATTGAAGAACAAGTGGCTGTTATCTATGCGGGTGTAAGGGGATATCTTGATAAACTGGAGCCCAGCAAGATTACAAAGTTTGAGAATGCTTTCTTGTCTCATGTCGTCAGCCAGCACCAAGCCTTGTTGGGCACTATCAGGGCTGATGGAAAGATCTCAGAACAATCAGATGCAAAGCTGAAAGAGATTGTAACAAATTTCTTGGCTGGATTTGAAGCTTAAACTCCTGTGGATTCACATCAAATACCAGTTCAGTTTTGTCATTGTTCTAGTAAATTAGTTCCATTTGTAAAAGGGTTACTCTCATACTCCTTATGTACAGAAATCACATGAAAAATAAAGGTTCCATAATGCATAGTTGTTTTCTGTCATTTGTGTTATTCTTTAAAACCAAGATCAAATTGAGAAATTGGTAAGCAAATGCTTCTTGATCTATTTTACTTGAATATTGGTACAGTCAACTGGGCTAGATAATTCAAGGCTGAGCTCTTTGTAAGttttttttttgtttttttttttgagactgattctcactctgtcactgaggctggagtgcagtggcaccctgtcggcccactgcaacctccgtctccgggttcaagcaattctcttgcctcagcctcccacgtagctgggattacaggtgcccaccaccacgcctggctagttttttagtatttttagtagagacggggtttcaccatgttggccaggccggtcacgaactcctgacctcaggtgatccacctgccttggcctacctaccacagtgctgggattacaggtgtgagccaccgcacccggcTGCTCTTTGTAAGTTTCTAGAGTACTTTGTGTTTAAGAGAAATTCCTAAACTGGATATATGTGGCAGGCTGACAATACTGAAGAGCATAGCTGGCTTCTCTGCCCAGAGGATGTACCTGCATAAAGAGGTACTGTAGGCAGGAAAATAATAGGACAGTTAAAATTCTCAGGGAAATGAAAAAATTGCTGGAACAAAAGCTGAGAAGATAGAATGCATAGGATTATGAAAACTTGTCAATATCTCttttgtttgttttgtgacagggtctccatctctctcacccaggctggagtacagtggtgtgatctcagctcactgcagcttctgccacctgggttcaattgattcttccacctcagcctcctgagtagctggggttacaggcacataccaccacgcccagccaatttttctactttttgtagagggagggtcttgccatgttgtccaggctgatgatgaactccttggctcaagtgatcctcctgccttggtctcccaaagtgctgggattacaggtgtgaactaccatgcccggccATCTTTTAATATTTTCACAGCTACTTTATTTCCTCTGTTACTAGCTTTTCATAGCCTTTGCTCATTCTTACTGCATTAAAttttttttactgatttatttatttttttgagacagagtcttgctctgtcacctaggctggagagcagtggcgtaatctcagctcactgcacctttcacctcctgggttcaagcgattctcctgccttagcctcccaattagctgggaccacaggcccatgccaccacacccggctaacattttgtatttttagtagagacaaggtttcaccatgttggccatgctgctcttgagctcctgacctcgtggtctgcccgcctcagcttcccaaagtgctgggattacaggtgtgagccaccacgcccagccTACTGATTTATTTATTTACTTTTAATTTTTCATAGCCTTTGCTCATTCTTAATGTGTTACCtttttttttacttagttatttatttatttgagatggagtctccgtcgtccaggctggagtgcagtgacctgatcttggctcactgcaacctctgcctccaggttcaagcaattctcctgcctcagcctcccgagaagctggaactacaggcacccaccaccatgccctgctaatttttgtatttttagtagaggcggggtttcaccatattggccaggctggtctcgaactcctgaccttgtgatctgcctgccttggcctcccacagtgctgggattacaggtgtgagccaccacacctggccttttttttttttttttgagacggagtctcactgtctcccaggctggagtgcagtggtgcgatgtcggctcactgcaagctctgccccctgggtttgcgccgttctcctgcctcagcctcccgattagctggtactacaggcgcctgccatcacgcccagctaatttttttttttttgtatttttagtagagacggggtttcaccatgttcgccaggatggtctcgatctcctgacctcatgatccacttacctcggcctcccaaagtgctgggattacaggcttgagccaccgcgcccggccTCttttttttttttttttttttACTGATATATAAAGGCTTTTGTCTGTAAGGGTCATACATGGTCATGTTCTAAAATATTTTTCCTAGGGTTCCCCCTTCCTTGCCATTTTATTTTGTTGATGGGGATTTGCTGTACCGAAACTTCATTCTTATCCATCTCTCTGTCTCCAGTAAGTCAAAATATATTTACATATGTGGGCTCCAATATCTTTGGTAGGAAAAGGAGAGTTCTTAAAGTACTCATAAGTCCTTTTCAGTACTTAGAGGAACACTAAACTTGATAGCAGTTGGTCATTTCTGATCAACTCTTGCTTTCTAGCTACTTGAGAAATAACTTCTAGATCTGATTTTCCTTTTCTGAAATAAGGAAGTTACTTTTAGTTAGAAGGTTCTGCACATTTCGttttttttttttttttttttttttgttttttttttttgagagttttgctcttgttgcccaggctggagtgcaatggcacgatctcggctcaccacaaccaccgcctcctggggtcaagcaattctcctgcctcaggctcctgagtagctgggattacaggcatgcaccaccacgcctggctaattttgtatttttagtagagatggggtttctccatgttggtcaggctggtctcaaactcctgaccttaggtggtccaccggcctcccaaagtactgggattacaggggtgagccactgcgcccggcTTGTTGGAGCATTTTatacctagtgtcagtggtgattactactttggagaaaaataCTTTGGCTAATGGATTGGAATTAATTTATTACTGGGAGTATGTATTGTTTGTTTGTTGACTGGATCTCGTAGCCCACTCCTGGCACGTAAATGCTCAATAAACTTCTCAAATGAAGACAACCATGTTTGTCCATTATAAATCAAATTCCAAATGTTAACTACTGGTCTGGTCTGATGAGAtttttttttttttttttttttttgagacggagttttgtttttgttgcccaggctggagtgcaatggcgcgatctcggctcactgcaacctccacctcctgggttcaagtgattctcctacctcagcctcctgagtagctgtgattataggtgtgcaccaccatgcctggctaatttttgtatttttagtagagacggggtttcaccatgttggccaggctggtttcgaactcctgaccttagatgatccacgtgcctcgacctcctaaagtgctgggattacaggcgtgagccactgtgcctggccCACGCCAGGCACAGTGATATTTAAAAATGTGATTTTTAAATATCACATTTAAAAATATGTGATATTTTTAAAGAATATGATAGCccaggcgcagtggcttacgcctgtaatctcagcactttgggacgatcacttgagcccaggagtttgaaacaggctgcagtcagctatgatcacgccactgcactccagcctaggtgacagagaccctgactcttaaaaaaaGTTGTGCTAGAAGACTTCAAGATCTCCCCTAAAACTGTATAGTCCTTTCCCTGGTGTTTTTGCTGAGCTATAGAGTCCAGCCCTTTCTGTTACAGCAATGAACCATGAGATTCAAATACTGCTTTTTACTAAGTACTTACAGACTAATGACATAGGAGACCTCATAGGCACCTGGCTGTTTTTAACCAGGCAGGCCTAAATACACTGCCCAAGTGGCCCTTCTGTGTGGCAACAAAATGGCTGTCATAAAATTGTGTCTGTGTGCATTTATCTTATCACTGGGGGTGGTGAACATTTGAGAAGGCACTTGACCTTTGAAATGTGAAGTTTTATGGATTTCAGACTTGTATTTTAAAAACTATTTGTTAACTGTAA 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