| Retrocopy Name | MRPS25P1 |
|
| Species | Homo sapiens | |
| Coordinates (hg38) | chr4:80321532-80322267 UCSC | |
| Coordinates (T2T) | chr4:83651916-83652651 UCSC | |
| Coordinates (hg19) | chr4:81242686-81243421 UCSC | |
| Strand | + | |
| Parental Sequence | NM_022497.5 | |
| Parental seq. overlap | 611 bp | |
| Parental seq. overlap (%) | 13.3% | |
| Genomic Region |
Intragenic (CFAP299) |
|
| Retrocopy Summary | MRPS25P1, located on chr4:80321532-80322267, is a retrocopy of the parental gene MRPS25. 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 | MRPS25 |
| Full Name | mitochondrial ribosomal protein S25 |
| Also known as | COXPD50|MRP-S25|RPMS25 |
| Coordinate | chr3:15048512-15065315 |
| Strand | - |
| Gene summary | Mammalian mitochondrial ribosomal proteins are encoded by nuclear genes and help in protein synthesis within the mitochondrion. Mitochondrial ribosomes (mitoribosomes) consist of a small 28S subunit and a large 39S subunit. They have an estimated 75% protein to rRNA composition compared to prokaryotic ribosomes, where this ratio is reversed. Another difference between mammalian mitoribosomes and prokaryotic ribosomes is that the latter contain a 5S rRNA. Among different species, the proteins comprising the mitoribosome differ greatly in sequence, and sometimes in biochemical properties, which prevents easy recognition by sequence homology. This gene encodes a 28S subunit protein. A pseudogene corresponding to this gene is found on chromosome 4. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Feb 2016] |
| Species | Scientific Name | Retrocopy | |
 |
Chimpanzee | Pan troglodytes | MRPS25P1 |
 |
Bonobo | Pan paniscus | MRPS25P1 |
 |
Gorilla | Gorilla gorilla | MRPS25P1 |
 |
Orangutan | Pongo abelii | MRPS25P1 |
 |
Green monkey | Chlorocebus sabaeus | MRPS25P1 |
 |
Crab-eating macaque | Macaca fascicularis | MRPS25P1 |
 |
Rhesus | Macaca mulatta | MRPS25P1 |
 |
Baboon | Papio anubis | MRPS25P1 |
 |
Golden snub-nosed monkey | Rhinopithecus roxellana | MRPS25P1 |
 |
Marmoset | Callithrix jacchus | MRPS25P1 |
 |
Gibbon | Nomascus leucogenys | 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 |
| >MRPS25P1 |
| CTGCCCCCATGCCCATGAAGGGCCGCTCCCCCATCGCCACACCCTGCAGTACCTGAGCCAGGGGGAGGTGGTGTTCAAAGACTTGGCGAAGGTCATGACAGTGAATTACAAAACACATGGGGAGCTGGGTGAGGGCACCAGGAAATTTGCGTTTTCAACATATCTTAGATCCAATACAAAATCCCATGAGTGCAGATCATGATGTTTAAGGACAGGATGCCATCATCCTTCCTGTCTCCACACCCACCAATACTTAGATTCTGGGAAGCAAGTCCCGTTGGATGTGGAGACCAAGAATAATAAGGAGGTCATTGAGTCCATCGAAAAATGTTGGGGAAGAATGAGGAAACCCCCAAGAAAGAGGAGAAGGAGAAAAAGCAGCTGTCTCACCCAGCCCCCTTTGGCCGTGGAAAGTACTGCCTGAAGGATTGTACCTGCAAAGTGGAAGGACAGGTGCCCTGCCTGGGCCTGATACCCAAGGAGATGGGGAAGTGCAGAGCCACTGTGAAAGTCAGTACCCAGGACTAGCACCCAGGGTCATTGTGGGCTGGGGCAATTGTGACTGACCAATAGGGAGACTGGTATGGGGTTACCCTGGCCCCAGTAAGCCCTCGGTTCTGTCCTTGAAAACTCTGGAAATCCTTTTGCAATAAAAGGTTCCCATTTATACACCTGTGTAAAAGGGCTTGGGGAGAGGAACATCTGCAGCCGAGCTGCTAAATGCATATCCTTGCTC |
| >NM_022497.5 |
| GCGGGAAGTGGAACCTGGCTCTGGGGAGAAGCCGCGTGAGATCCGCGCGGGTGCTAGCTAGTCCTTTCTCGTCGCTGCTCGGCTCGCGGCCCGTGGGGTCGGCCCCGCCACCGTTGCCGCCATGCCCATGAAGGGCCGCTTCCCCATCCGCCGCACCCTGCAATATCTGAGCCAGGGGAACGTGGTGTTCAAGGACTCCGTGAAGGTCATGACAGTGAATTACAACACGCATGGGGAGCTGGGCGAGGGCGCCAGGAAGTTTGTGTTTTTCAACATACCTCAGATTCAATACAAAAACCCTTGGGTGCAGATCATGATGTTTAAGAACATGACGCCGTCACCCTTCCTGCGATTCTACTTAGATTCTGGGGAGCAGGTCCTGGTGGATGTGGAGACCAAGAGCAATAAGGAGATCATGGAGCACATCAGAAAAATCTTGGGGAAGAATGAGGAAACCCTCAGGGAAGAGGAGGAGGAGAAAAAGCAGCTTTCTCACCCAGCCAACTTCGGCCCTCGAAAGTACTGCCTGCGGGAGTGCATCTGTGAAGTGGAAGGGCAGGTGCCCTGCCCCAGCCTGGTGCCATTACCCAAGGAGATGAGGGGGAAGTACAAAGCCGCTCTGAAAGCCGATGCCCAGGACTAAGGCCCACGGTCACTGTGGGCTGGGGTGATGGTGTCTGACCAGTGGGGAGATTGGAATGGGATTACTTTGGCCCAGGGAAGCCCCTGGTTCTGTCCCTGGAGACTCTGGAAATCCTTTTGCATTAAAAGGACTTTACACACCTGTGTAAAAGGATGTGGGAGAGGAGGGTCTGAAGCTGAGCTGCTAAATGAATATCCCTGCTCTGCTGGTCAATAAAACGCTTCCTAATAGCAGCTTGGCGTGTATCTGGTCCTAGTGAAGAGGAAGGCCTGTGTAGCAGAAAGGCTTTGGGCCTGAGAGGTTAAGGCCACAGCCTGTTGACACCTGTTTTGGTCCTGCGACCCTTTACTGGTCTCCGCTGGCTTTGAATCTTCCTCTGGGCTCTACTCTGGAGAACATAAGGGCTGCTGTGGTTGAGTCTGGCTAGCACTGTCTGTGGTTGGCAGTGTGTACACCCCTCCGTTCAGTTCCTTGGGGGTATTTTTCAGAAATCCAAAGGCAACCCTTCGTGCAGTGCTCACTTTTTTAAGTACAGTTGATTACCCTTGCCTGCTGGGGGGCCTAGCCATGGGCCAGAGATGGAGGAGCCCCAGTGGCTGACAGGCCAGCCTCACTCAGGCACGTACCTGCTGACCAGTCAGCCACTGCCAACCCATGGCCCAGCCACTGTGTGCATTAGCAGGGAGGTTTGTAGGCCATGGAGGAAATGAGGAGACACCACCTAGTGGAGACATTGGGGCCCTGCTGGGGGGATGGTGTCTATAGCTGGCTCTGCTGGCTCCCTCAGGCCCTGCTTACCAAGCTCTGGAGGAGGGAGTGCTGCATTACTGAGCACCTTCCTTGTTCTTTCCTCATAGGACACTGATGTTACTGTCACTTTAGTTATGCTAAAGTGGAGGTTTCAGCCTCCAGAAGACAGCAGAGCCTTCTAGGGTCACCTTAAGAATAGGTTTAGCTAggctgggtgtggtggctcatgcctgtaatcccagcactttgggaggctgatgtgggcggatagttgagcccaggagttcgagaccagcctgggcaacatggcaagaccttgtctctacaaaaagtacaaaaattagatgggtgtggtgtttcgcgtctgtagtcccagctatttgggaagctgaggtgggaggatctcgagcctgcgagatcaaggctgcagtgaatcatgatcgtgcgctactgcactccagcctgggccacagagcaagactgtctcaagaaaaaaaaTTTTTTAAATAAGTTTAATTATAAAGTGAAGGACCAGTTGGACCACGGACCCCTAGAAACTCAGCCAAGGAGACCTGACTTTATCTGAGACAGGAAGGCAGTGGTTAAAAGAATTAAAAAAGGACAGTGGTGCTTGACAGAGCAGGACTGAAGTTTTCATTCCTctacctgctggggccttggtcaagtcctaaaagctttccaggtctgtaactggttttgtctgtaaaatggggaaaaggttaccttttctgccACATGAAGTAGCTGGCTGGTGAAATGATGTCATACTACGATGTGTTTCATTAACTGTTGGAGATTATCACATTAAATTGAGCAGATTTGGATCTTTTACATTTGATGCTCAAGTTTGATTCTGTACCAGATCTGGGTTTGGGGTGATGGCTTGTCGGGGGTGGGAGGGGAAGGTGGGCAGAGACTGATGTATAATGGACAGGTGTTCCTTGAGTGACAGACTTACAAAGGGAGTGTTTAATTGAAATCTAGCATCTTGTCTCTCTGCTATCAGCATTTTGGCTGGGTGGAAAAAGCTCTCCTCCACAGAGAGCCCTCCCATGTCTGCTGGTTTCAGTTCCCCACCCAACTGACTGAAGTCTTGACCTTGATACCACCTGCCTGGGCGTTCTACTTGGCTGCAAGGGCTCTTCAGAAAGCACCTAGTTCCTTTTGGCTTTCATCTGCAGTGTAGGTCTCCATAGCTAGTGACACACAAAGCCTTATGAGAGTATTCCTTCCCTCTAGGGCCCAAAGAGGCTGCTAACCAGCAGGAATGTCCTGAACCAAAAGGAGTGGTGACCATTCTCTAGACAGAATAAATGTCTGGTCCCTAATGGGACAGATAACTAGGGTTTGAGTTCAGGCTTGACACAGGAGCAATGGGCAGTGAGGTGGACAGCCCAGACCCTGAAAGGACGTGTGGAGACAGCAGCAGTCCTGTGGTGCAGTTACTGCCTGTGTGGCCAGCTTCACAGGCAGCAGATAATTTGTGGAAATAAACATTATTTTCTTTTTTTGTTCCCTGTAGGCTACTTGATCCTGGATAGTTTCTCTTTAAACCTTTGTCTTTCCCTATTTTGTTTAGTAGTGATGAAAGATGGGTTTAAAATATACAGAAATGGGAGAAAATTAATTAGAGAAAATGTGAGGATTTTATAATTGATAACATGTTCTTAATTTTACTTGCACAAGCAGTGTTCACAGCCTTATTCTGAAGTGACCACTTTTCTTCTCTTTGAGGCACTACCTGGCAGCACCATCTAAACCTGTATCATCTGctgtggtcccagttactcaggaggctgaggcaggaggatcacttgagcccaggaggttgaggctggagtgagccatgactgtaccactgcattccagcctgggtgacggagtgaggccctatctGCCTGCCAGTGAGTTCTGTCATGCATCAGACTTTGGACCTCAGAATTTTCACCTGGAACATGAGAGGTCAGATGACATAATGAATATGTTCTAACTTCTGAAACTTTTGGAGCTTGTTTTTGCCCTTGATAGCACGTATCCTTAGAGAATAAGCTTGCCAATTTAAGGCCTGTCTGTAATGGCATCTGAATGTTCCAGCAGCCTAACTGTGCTCTGCTCCAGAAACATGTGTGTGGCTTCCCTACCTCCACACCAAGGAGCTGCCTTGCTGGGTGGATGTAAAGACTGTCCTGCCAGGGTTTCCCACTAAAGGTATTAATAAGTCCAGTGGACCACAGAGGGCCCAATCCCTCTTGGCCGCTAAGGCTAAGGTAGGAGCCAGAGAGCTGTAGAGACAGGACCACCAGGATGCTTCATGTCCATAACACAAGAGAGCGCTGCATTGTTTGGGGGCCAGGCATTACTACTATCATGAAGAAAAATGAAGAGCAGGATGCATGTTAGTCTTTAATTCACTTTTAATAGTATAAACCTCATTTAGGTAGTAGTATTAAGCCACAACAATAATGCCACATTGAAACAGCATTTAATAAAATGCATAAAGCTAATTCATGCACTGCAATACTCTATATACAAACACAACAATGCAAATTCTTCTTCAAGACTGAAGACATTGATTAGATATAAAATTCAGTTTAAAAAGAACATGCTATTTTTTAAATGCCATCACATAAACAAAGTGATTTCACAGGGAGAAGAAAGCTGTATAAAGCTGCAGCTTTCAACAGGTTTTAAACCTGGCATTAAAATGTAATGGCAAAACCAATATTTTCTATATTGTGAAGGGCAAAGGTTACAGAAACGGTCCCAAGAAAATCTAACACCCAAATTTTCCTTTGATAGATAGATGCCTTTAAAAGGGCTGGTAATGCAGTTACATTCTAACAGAGAAGTCCAAACTACAGGTAAAAACTACGGCTTGTACTGTGAAAAATGTGCAGCTTTTCAGTTATAAAACTAGTTGAACACTGGTTTACAAGATAATCCGTAGAACAGAGAGACTGTAGAAAAATATTCCAGCACTTGAGTTGTGTGTGGCAGCAGCATTTGAGTCCATGAATGCTATGGTCATTAAAATAATTGATTATACTTTCCTAAAGAAAAGCCATTTTTTAATGCAAAGTCTACTACTTCCAAATGTTATTCCAAACATTAAATTTTAACAGTCTATCAATCAATAAATGTTGAACATTTTTTTTCTA |
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