Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Retrocopy Name ACTG1P29
Plot displaying the genomic locations of a retrocopy (in chr5) and its respective parental gene (in chr17). Each line represents a retrocopy.
Species Homo sapiens
Coordinates (hg38) chr5:61831228-61833025  UCSC
Coordinates (T2T) chr5:62650434-62652231  UCSC
Coordinates (hg19) chr5:61127055-61128852  UCSC
Strand -
Parental Sequence NM_001614.5
Parental seq. overlap 1497 bp
Parental seq. overlap (%) 77%
Genomic Region Intergenic
Retrocopy Summary ACTG1P29, located on chr5:61831228-61833025, is a retrocopy of the parental gene ACTG1. 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.

Parental Gene

Gene Name ACTG1
Full Name actin gamma 1
Also known as ACT|ACTG|DFNA20|DFNA26|HEL-176
Coordinate chr17:81509971-81512799
Strand -
Gene summary Actins are highly conserved proteins that are involved in various types of cell motility and in maintenance of the cytoskeleton. Three main groups of actin isoforms have been identified in vertebrate animals: alpha, beta, and gamma. The alpha actins are found in muscle tissues and are a major constituent of the contractile apparatus. The beta and gamma actins co-exist in most cell types as components of the cytoskeleton and as mediators of internal cell motility. Actin gamma 1, encoded by this gene, is a cytoplasmic actin found in all cell types. Mutations in this gene are associated with DFNA20/26, a subtype of autosomal dominant non-syndromic sensorineural progressive hearing loss and also with Baraitser-Winter syndrome. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Jul 2017]

Homology

Species Scientific Name Retrocopy
Bonobo Pan paniscus ACTG1P20
Gorilla Gorilla gorilla ACTG1P15
Orangutan Pongo abelii ACTG1P11
Gibbon Nomascus leucogenys ACTG1P14
Green monkey Chlorocebus sabaeus ACTG1P6
Crab-eating macaque Macaca fascicularis ACTG1P13
Rhesus Macaca mulatta ACTG1P13
Baboon Papio anubis ACTG1P10
Golden snub-nosed monkey Rhinopithecus roxellana ACTBP5
Marmoset Callithrix jacchus ACTBP8
Chimpanzee Pan troglodytes 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

Expression

Related Sequence

>ACTG1P29
GCTGGTCATTGACAATGGCTCCAGCATGTGCAAAGCTGGCTTTGCTGGACACAACGTCCCCCAACCCATGTTCCCCCTCCATCGTTGGGCACCCCTGACACCAGGGCATGATGATGGGCATGGGCCAGGACTCCTACATTGGTGACTAGGCCCAGAGCAAGCATGAAAGCCTGACCCTGAAGCACCACATTGAGCATGACATCATCACCAAATACAATGAAATGGAGAAGATCTAGTTCCACATCTTCTACAACAAGCTGCGCATCACCTCTGGGGAGCTCCTGGTTCTGCTGACCAAGGCCTCCCTGAACCACTAGGCCACTCGTGAAAAGATGACCCAGATCATGTTGGAGACTTTCAACATCCCAGCCATGCAGGTGGCTATCCAGGTTGTGCTTATTGCACGCCTCTGGCAGCACCACTGGCACCATGATGAACTCTGGTGATGGGGTCACCAACATGGTGCCCCTCTACCAGGGCTGTGCCCTCTTGCATGCCACCCTGCATCTGACCTGGCTAGCTGGGACCTGACTACCCTACAAATACCCTCACAGAGCAAGGCTACAGCTTCACCTCCATAGCCGAACAAGAAATCATGCACAACATCAAGGAGAAGCTGTGCTATCTCTCCCTGGACTTCCAGAGAAGATGGCCACCACAGCCTCCAGCTCCTCCCTGGAGAAGAACTAGGGGCTTCCACACAGCAGGTAATCACCACTGGCAATGAACAGTTCCAGTGTCTAGCCCTCCTTCCTGGGCGTGGAATCTTGTAGCATCCATGAGACCACATTCAACTACATCATGAAGTATAATGTGAACATCTGCAAGGACCTGTTTGCCAACACAGTGCTGTCTGGTGACACTATCATATACCTGGGCATCACTCACAGGATGCAGAAGGAGGTCACTGCCCTGGCGCCCAGCACCATGAGGATCAGGATCACCACTCCCCTTGAGGGCAAGTACTCGGAATGGATTGGTGGCTTTATCCTGGCCTCGCTGTCCTCCCTCCAGCTGACGCAGATCAGCAAGCAGTAGTGTGATGAGCTGGCCCCTCCATCATCCACTGCAAATGCTTCTAAATGGACTGTGAGCAGATGCATAGCATTTGCTGCATGAGTTAATTCAGAAGTATAAATTTGCCCCAGGCAAATGTATACACCACATGCTAACCTCACAAAATTGGAATAAGCTTTTGAAAAGAAATTGGTCCTTGAAGCTTGTATCTAATATTGGCACTGGATTATAGAATTTGTTGCTGATTTTGACCTTGTATTCAAGTTAATTGTTCCCTTGGTATTTGTTTAACACCCTGTACATATCTTTGATGTAAACCCTTAGTACATGTGGCTCAGTCACTTCATGGCTGAGGTGAAAACATGCTTTTGAAGGAGAAGTCTGTGGCTTGGTGAGTCCGCGTGACCAGCAGTCTCTCAATCTGTGCAGGTATTAATGTGTCAGAATGGAGTGCTTCAGGATTTCTCTAGAGGCTGACAAAACTTCTGAACCAGTTGTCCTTTCTGTCTTTCCGATCTATGAGGGTTGGAGAAATCCAAGCCTTAGGACCCAGTTTCCTTTCTTACCTGATGTTTTCCTGCCAGAACACGGTGGCTTGCCTTGAGTTAGAAGTGGTTTGCATTCGCCCCTGTAAGTGTATTCATCCTTTTAATTTATGAAAGTTTTTGTACACAATTCTGGATTCTTTAAGAAATGAAAACAAATTTTTGTTTTCTACTGTTATGTGAGGACATTAGGCCCCAGCAACATGTCATTGTGTAAGGAAAAATAAAGTGCTGCA
>NM_001614.5
CTCAGTCGCCGCTGCCAGCTCTCGCACTCTGTTCTTCCGCCGCTCCGCCGTCGCGTTTCTCTGCCGGTCGCAATGGAAGAAGAGATCGCCGCGCTGGTCATTGACAATGGCTCCGGCATGTGCAAAGCTGGTTTTGCTGGGGACGACGCTCCCCGAGCCGTGTTTCCTTCCATCGTCGGGCGCCCCAGACACCAGGGCGTCATGGTGGGCATGGGCCAGAAGGACTCCTACGTGGGCGACGAGGCCCAGAGCAAGCGTGGCATCCTGACCCTGAAGTACCCCATTGAGCATGGCATCGTCACCAACTGGGACGACATGGAGAAGATCTGGCACCACACCTTCTACAACGAGCTGCGCGTGGCCCCGGAGGAGCACCCAGTGCTGCTGACCGAGGCCCCCCTGAACCCCAAGGCCAACAGAGAGAAGATGACTCAGATTATGTTTGAGACCTTCAACACCCCGGCCATGTACGTGGCCATCCAGGCCGTGCTGTCCCTCTACGCCTCTGGGCGCACCACTGGCATTGTCATGGACTCTGGAGACGGGGTCACCCACACGGTGCCCATCTACGAGGGCTACGCCCTCCCCCACGCCATCCTGCGTCTGGACCTGGCTGGCCGGGACCTGACCGACTACCTCATGAAGATCCTCACTGAGCGAGGCTACAGCTTCACCACCACGGCCGAGCGGGAAATCGTGCGCGACATCAAGGAGAAGCTGTGCTACGTCGCCCTGGACTTCGAGCAGGAGATGGCCACCGCCGCATCCTCCTCTTCTCTGGAGAAGAGCTACGAGCTGCCCGATGGCCAGGTCATCACCATTGGCAATGAGCGGTTCCGGTGTCCGGAGGCGCTGTTCCAGCCTTCCTTCCTGGGTATGGAATCTTGCGGCATCCACGAGACCACCTTCAACTCCATCATGAAGTGTGACGTGGACATCCGCAAAGACCTGTACGCCAACACGGTGCTGTCGGGCGGCACCACCATGTACCCGGGCATTGCCGACAGGATGCAGAAGGAGATCACCGCCCTGGCGCCCAGCACCATGAAGATCAAGATCATCGCACCCCCAGAGCGCAAGTACTCGGTGTGGATCGGTGGCTCCATCCTGGCCTCACTGTCCACCTTCCAGCAGATGTGGATTAGCAAGCAGGAGTACGACGAGTCGGGCCCCTCCATCGTCCACCGCAAATGCTTCTAAACGGACTCAGCAGATGCGTAGCATTTGCTGCATGGGTTAATTGAGAATAGAAATTTGCCCCTGGCAAATGCACACACCTCATGCTAGCCTCACGAAACTGGAATAAGCCTTCGAAAAGAAATTGTCCTTGAAGCTTGTATCTGATATCAGCACTGGATTGTAGAACTTGTTGCTGATTTTGACCTTGTATTGAAGTTAACTGTTCCCCTTGGTATTTGTTTAATACCCTGTACATATCTTTGAGTTCAACCTTTAGTACGTGTGGCTTGGTCACTTCGTGGCTAAGGTAAGAACGTGCTTGTGGAAGACAAGTCTGTGGCTTGGTGAGTCTGTGTGGCCAGCAGCCTCTGATCTGTGCAGGGTATTAACGTGTCAGGGCTGAGTGTTCTGGGATTTCTCTAGAGGCTGGCAAGAACCAGTTGTTTTGTCTTGCGGGTCTGTCAGGGTTGGAAAGTCCAAGCCGTAGGACCCAGTTTCCTTTCTTAGCTGATGTCTTTGGCCAGAACACCGTGGGCTGTTACTTGCTTTGAGTTGGAAGCGGTTTGCATTTACGCCTGTAAATGTATTCATTCTTAATTTATGTAAGGTTTTTTTTGTACGCAATTCTCGATTCTTTGAAGAGATGACAACAAATTTTGGTTTTCTACTGTTATGTGAGAACATTAGGCCCCAGCAACACGTCATTGTGTAAGGAAAAATAAAAGTGCTGCCGTAACCAA

Publications

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