Imagem 1

Example: RPL12P6, GAPDH, ENSG00000237984

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Summary

Retrocopy Name AK4P1
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Plot displaying the genomic locations of a retrocopy (in chr17) and its respective parental gene (in chr1). Each line represents a retrocopy.
Species Homo sapiens
Coordinates (hg38) chr17:31345315-31348726  UCSC
Coordinates (T2T) chr17:32290687-32294094  UCSC
Coordinates (hg19) chr17:29672333-29675744  UCSC
Strand +
Parental Sequence NM_013410.4
Parental seq. overlap 3314 bp
Parental seq. overlap (%) 48.4%
Genomic Region Intragenic (NF1)
Retrocopy Summary AK4P1, located on chr17:31345315-31348726, is a retrocopy of the parental gene AK4. 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 AK4
Full Name adenylate kinase 4
Also known as AK 4|AK3|AK3L1|AK3L2
Coordinate chr1:65147342-65232145
Strand +
Gene summary This gene encodes a member of the adenylate kinase family of enzymes. The encoded protein is localized to the mitochondrial matrix. Adenylate kinases regulate the adenine and guanine nucleotide compositions within a cell by catalyzing the reversible transfer of phosphate group among these nucleotides. Five isozymes of adenylate kinase have been identified in vertebrates. Expression of these isozymes is tissue-specific and developmentally regulated. A pseudogene for this gene has been located on chromosome 17. Three transcript variants encoding the same protein have been identified for this gene. Sequence alignment suggests that the gene defined by NM_013410, NM_203464, and NM_001005353 is located on chromosome 1. [provided by RefSeq, Jul 2008]

Homology

Species Scientific Name Retrocopy
Chimpanzee Pan troglodytes Without Homology
Bonobo Pan paniscus Without Homology
Gorilla Gorilla gorilla Without Homology
Orangutan Pongo abelii Without Homology
Gibbon Nomascus leucogenys Without Homology
Green monkey Chlorocebus sabaeus Without Homology
Crab-eating macaque Macaca fascicularis Without Homology
Rhesus Macaca mulatta 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

Expression

The Genotype-Tissue Expression project - (GTEx)

Adipose SubcutaneousMuscle SkeletalArtery TibialArtery CoronaryHeart Atrial AppendageAdipose VisceralUterusVaginaBreast Mammary TissueSkin Not Sun ExposedMinor Salivary GlandBrain CortexAdrenal GlandThyroidLungSpleenPancreasEsophagus MuscularisEsophagus MucosaEsophagus Gastroesophageal JunctionStomachColon SigmoidSmall Intestine Terminal IleumColon TransverseProstateTestisNerve TibialSkin Sun ExposedHeart Left VentricleBrain CerebellumWhole BloodArtery AortaPituitaryBrain Frontal CortexBrain CaudateBrain Nucleus AccumbensBrain PutamenBrain HypothalamusBrain Spinal CordBrain HippocampusBrain Anterior Cingulate CortexOvaryBrain Cerebellar HemisphereLiverBrain Substantia NigraKidney CortexBrain AmygdalaCervix EctocervixFallopian TubeCervix EndocervixBladderKidney Medulla00.51
log10(TPM+1)

Related Sequence

>AK4P1
TTCCGCCTGCGACTCGGTCCCGGCGCTGGGCTGAGGGGAGGGGTTGTCTTAAAAGTCTCTCCTTCCCCCTGTAGGGGCGGCCGGCGAGTCCCAGTGAGAGCGGAGGGTGCCAGAGGTAGGGGGCCGAGAAACAAAGTTCCCGGGGCTCCCTCCGGGGCCGCGGTCGGGGCTGCGCGTTTGACCGCCCCCCTCCTCGCGAAGGCAATGGCTTCCAAACTCCTGCGCGCGGTCATCCTCGGGCCGCCCGGCTCGGGCAAGGGCACCGTGTGCCAGAGGATCGCCCAGAACTTTGGTCTCCAGCATCTCTCCAGCGGCCACTTCTTGCGGGAGAACATCAAGGCCAGCACCGAAGTTGGTGAGATGGCAAAGCAGTATATAGAGAAAAGTCTTTTGGTTCCAGACCATGTGATCACACGCCTAATGATGTCCGAGTTGGAGAATAGGCGTGGCCAGCACTGGCTCCTTGATGGTTTTCCTAGGACATTAGGACAAGCCGAAGCCCTGGACAAAATCTGTGAAGTGGATCTAGTGATCAGTTTGAATATTCCATTTGAAACACTTAAAGATCGTCTCAGCCGCCGTTGGATTCACCCTCCTAGCGGAAGGGTATATAACCTGGACTTCAATCCACCTCATGTACATGGTATTGATGACGTCACTGGTGAACCATTAGTCCAGCAGGAGGATGATAAACCCGAAGCAGTTGCTGCCAGGCTAAGACAGTACAAAGACGTGGCAAAGCCAGTCATTGAATTATACAAGAGCCGAGGAGTGCTCCACCAATTTTCCGGAACGGAGACGAACAAAATCTGGCCCTACGTTTACACACTTTTCTCAAACAAGATCACACCTATTCAGTCCAAAGAAGCATATTGACCCTGCCCAATGGAAGAACCAGGAAGATGTGGTCATTCATTCAGTAGTGTGTGTAGTATTGGTGCTGTGTCCAAATTAGAAGCTAGCTGAGGTAGCTTGCAGCATCTTTTCTAGTTGAAATGGTGAACTGATAGGAAAACAAATGAGTAGAAAGAGTTCATGAAGAGGCCCTCCTCTGCCTTTCAAAAGGGTGGTCACCTACACATGTTTAAGGTGTCTCTGCACATGTCTCAAGCCCATCACAAGAAAGCAAGTACAGTGTGGATTTCAAATGGTGTGTAACTTCAGCTCCAGCTGGTTTTTGACAGCTGTTGCTGTGGTAATATTTTTTACATGTGATGGTGATAGTCTCTGGTTCTCCCCATCCCCACAAAGGCTGTTGAACCACAGCACCAGGAAGCCTGAGAATGAATCCTGAGGGCTCTAGCCCAGGCTTTGTCCCAGGCTTTCTGGTGTGTGCCCTCCTGGTAACAGTGAAATTGAAGCTACTTACTCATAGTGGTTGTTTCTCTAGTCTTGAGTGACTGTGTCCACAGTTCATTTTTTTCCGGTAGGAATAACTCCTTTTCTACATCCACACTCCATAGAGTCTCTCCTTTTCAGACATCCTGGGATGAAAGAATTTGGCACATCTGTTTTCACTCTTAGGCTTTTAAACAATAGTTATTGCTCTTATCCCTCTCAGATTCTAATAACTGAGAGCGATGGGGCTATATTGAATCTCTGTATGCACTGATAACTGAGCTATGAAGAGGATCTTATTAAACTGCTGGTCTGACTCTATGGATTGACACTGTTCCTTTCTTTTATTGTGAAAAAAAAAACCCCTGAAAGTCTTGGGAACCCCCTAAAGTCTTTTGGGAATCCTCAAAAAGCATGGGAAGTTAAGTATTTAGCTACATAAATGTTGTAAGATCATATCTTATGTATAGAAGTAATAAGACCATTTGGAATTACTGGACTAATTGAATAGTTAAGGTTTCTATTCGGGACAATAAAATGTATTTTGAAAGTGCTGCTAACTATTGATGCTGACAGTGTTTCACTCCTATGAGTGACCCAAACATATTATAAATATGTGGTAAAGGGAATGGAGCCTGTGGGGTTGAGCAGAATGTTGTACTAGCTGTGCCTGGACTGAGTATAACAGCTTTATGATTATGAGAAAACAAATTCTTTATTTTTTTTTCTGTTCCAAAGATTCATCCTATGGGGTGGCCATAAAGTCTAGAATTAGATACTAATATTTTGTCATTCATTATAACATATCGATAAACCATTTGTTAAAAGATTTGCCTGGTTTCCAGACTTGGTGGCCACCTTGAATAATTCTTGCTGTCTTCTGGGAAGGATGATGAAATTTATTCCTGCTGCCTTAAAAATATGTATCCCTTCTTCACCCATCATGACTGTCCCCAGTGAGTGTCCTTTACTATTCTTGGGAGTGACTCCTGTCTAACTTTTCATACTGGCGAGAAGAAAAGAAGCCTATTTTAACACTTTAGTGGTGTTGAAACACATTACTTACTTTCTGAAGATGTCCCAGTGAATCCTCTGTCAATTCACTGCCATATGTAATCTATATGATAAGGAATGCATCTTCCTTCTAAGTACTGCCCAAACTCTTGCCAGCTCCTCTCCCATTGTCCCTTCATGTGAATATTTCTTGGCTACCTTAGTGGAAATATAGATCAGTCTTCTCCCCATCCATCCTCTCAAACATAATGAGATTGTTTACTTTTTAGATTTATGCAGTGAAAATGCCCAGTCAGGTCTGAATCGTCAGTGCATTATATTGACTCTGAGCACTTTAGAATTTAGAGTTGCAATTGAATGCCAGCTGTGGAGATGGGGTGCATATCAGATATATAAATAAAGCTCAGGTTTGCTAGGGAACCAGGTATAGAGAAAAATAAGTCTGATATGAGGAAGGAAAATTGCACAATTTAGAGTAGTTATGCCATAGAGAAAATTTCCACAAACTAGGAAATGTAGAGAGTTATTCTATAGAATACTCAAAAGAGGAAAGTATGTGATTTTTGGAAACAGGAAAATCTTCAAACTTCTTTCTTCACTTCCCTTTGTGTTTAGCTGACCCTCCAATGTGATCATTGCCTTTGGAGTTTGGGAGAGGTACGGGAAGTGGCCTGAcAGCTAAATGGACAATTCTAGCCAACATTGAGTCACTCAATAAGTCTCAACAGTGGGTGTGTTTGCTGAGATTGTCCAGCAGTTGAGCAGTTTGGTCTCACCTCCCTCGCTAGTTGAGACCAAAAAGAGACAAATAACTTTTTCATGGTCTTTGAAACATAATGCTTATTTCGTGGTCAATGGCTTTAAAAAAATCTGTTTCTTGTTTTCTTCAACAAACTCACTAGTTTTCCCTTAACTGATATTGTAAAAATTAAAGTAATCTTGAAAATGTTTTGACAAAAGTAAAATTAAAGGGACATCTTTTCTT
>NM_013410.4
AGTCCGCCTGCTACTCGGTCCCGGCGCTGGGCTGAGGGGAGGGGTTGTCTTAAAAGTCTCTCCTTCCCCCTGTAGGGGCGGCCGGCGAGTCCCAGTGAGAGCGGAGGGTGCCAGAGGTAGGGGGCCGAGAAACAAAGTTCCCGGGGCTTCCTCCGGGGCCGCGGTCGGGGCTGCGCGTTTGACCGCCCCCCTCCTCGCGAAGGCAATGGCTTCCAAACTCCTGCGCGCGGTCATCCTCGGGCCGCCCGGCTCGGGCAAGGGCACCGTGTGCCAGAGGATCGCCCAGAACTTTGGTCTCCAGCATCTCTCCAGCGGCCACTTCTTGCGGGAGAACATCAAGGCCAGCACCGAAGTTGGTGAGATGGCAAAGCAGTATATAGAGAAAAGTCTTTTGGTTCCAGACCATGTGATCACACGCCTAATGATGTCCGAGTTGGAGAACAGGCGTGGCCAGCACTGGCTCCTTGATGGTTTTCCTAGGACATTAGGACAAGCCGAAGCCCTGGACAAAATCTGTGAAGTGGATCTAGTGATCAGTTTGAATATTCCATTTGAAACACTTAAAGATCGTCTCAGCCGCCGTTGGATTCACCCTCCTAGCGGAAGGGTATATAACCTGGACTTCAATCCACCTCATGTACATGGTATTGATGACGTCACTGGTGAACCGTTAGTCCAGCAGGAGGATGATAAACCCGAAGCAGTTGCTGCCAGGCTAAGACAGTACAAAGACGTGGCAAAGCCAGTCATTGAATTATACAAGAGCCGAGGAGTGCTCCACCAATTTTCCGGAACGGAGACGAACAAAATCTGGCCCTACGTTTACACACTTTTCTCAAACAAGATCACACCTATTCAGTCCAAAGAAGCATATTGACCCTGCCCAATGGAAGAACCAGGAAGATGTGGTCATTCATTCAATAGTGTGTGTAGTATTGGTGCTGTGTCCAAATTAGAAGCTAGCTGAGGTAGCTTGCAGCATCTTTTCTAGTTGAAATGGTGAACTGATAGGAAAACAAATGAGTAGAAAGAGTTCATGAAGAGGCCCTCCTCTGCCTTTCAAAAGGCTGGTCACCTACACATGTTTAAGGTGTCTCTGCACATGTCTCAAGCCCATCACAAGAAAGCAAGTACAGTGTGGATTTCAAATGGTGTGTAACTTCAGCTCCAGCTGGTTTTTGACAGCTGTTGCTGTGGTAATATTTTTGACATGTGATGGTGATAGTCTCTGGTTCTCCCCATCCCCACAAAGGCTGTTGAACCACAGCACCAGGAAGCCTGAGAATGAATCCTGAGGGCTCTAGCCCAGGCTTTGTCCCAGGCTTTCTGGTGTGTGCCCTCCTGGTAACAGTGAAATTGAAGCTACTTACTCATAGTGGTTGTTTCTCTGGTCTTGAGTGACTGTGTCCACAGTTCATTTTTTTCCGGTAGGAATAACTCCTTTTCTACATCCACGCTCCATAGAGTCTCTCCTTTTCAGACATCCTGGGATGAAAGAATTTGGCttttttttttctttttttttttGGACATCTGTTTTCACTCTTAGGCTTTTAAACAATAGTTATTGCTTTTATCCCTCTCAGATTCTAATAACTGAGAGCGATGGGGCTATATTGAATCTCTGTATGCACTGAGAACTGAGCTATGAAGAGGATCTTATTAAACTGCTGGTCTGACTTTATGGATTGACACTGTTCCTTTCTTTTATTGTGAAAAAAAAAAAAAACCCTGAAAGTCTTGGGAACCCCCTAAAGTCTTTTGGGAATCCTCAAAAAGCATGGGAAGTTAAGTATTTAGCTACATAAATGTTGTAAGATCATATCTTATGTATAGAAGTAATAAGACCATTTGGAATTACTGGACTAATTGAATAGTTAAGGTTTCTATTCGGGACAATAAAATGTATTTTGAAAGTGCTGCTAACTATTGATGCTGACAGTGTTTCACTCCTATGAGTGACCCAAACATATTATAAATATGTGGTAAAGGGAATGGAGCCTGTGGGGTTGAGCAGAATGTTGTACTAGCTGTGCCTGGACTGAGTATAACAGCTTTATGATTATGAGAAAACAAATTCTTTATTTTTTTTTTCTGTTCCAAAGATTCATCCTATGGGGTGGCCATAAAGTCTAGAATTAGATACTAATATTTTGTCATTCATTATAACATATCAATAAACCATTTGTTAAAAGATTTGCCTGGTTTCCAGACTTGGTGGCCACCTTGAATAATTCTTGCTGTCTTCTGGGAAGGATGATGAAATTTATTCCTGCTGCCTTAAAAATATGTATCCCTTCTTCACCCATCATGACTGTCCCCAGTGAGTGTCCTTTACTATTCTTGGGAGTGACTCCTGTCTAACTTTTCATACTGGCGAGAAGAAAAGAAGCCTATTTTAACACTTTAGTGGTGTTGAAACACATTACTTACTTTCTGAAGATGTCCCAGTGAATCCTCTGTCAATTCACTGCCATATGTAATCTATATGATAAGGAATGCATCTTCCTTCTAAGTACTGCCCAAACTCTTGCCAGCTCCTCTCCCATTGTCCCTTCATGTGAATATTTCTTGGCTACCTTAGTGGAAATATAGATCAGTTTTCTCCCCATCCATCCTCTCAAACATAATGAGATTGTTTACTTTTTAGATTTATGCAGTGAAAATGCCCAGTCAGGTCTGAATCGTCAGTGCATTATATTGACTCTGAGCACTTTAGAATTTAGAGTTGCAATTGAATGCCAGCTGTGGAGATGGGGTGCATATCAGATATATAAATAAAGCTCAGGTTTGCTAGGGAACCAGGTATAGAGAAAAATAAGTCTGATATGAGGAAAATTGCACAATTTAGAGTAGTTATGCCGTAGAGAAAATTTCCACAAACTAGGAAATGTAGAGAGTTATTCTATAGAATACTCAAAAGAGGAAAGTATGTGATTTTTGGAAACAGGAAAATCTTCAAACTTCTTTCTTCACTTCCCTTTGTGTTTAGCTGACCCTCCAATGTGATCATTGCCTTTGGAGTTTGGGAGAGGTACGGGAAGTGGCCTGAtccctgcttccatacttcactcctccatccatccttccctccctcttcccctccAGCTAAATGGACAATTCTAGCCAACATTGAGTCACTCAATAAGTCTCAACAGTGGGTGTGTTTGCTGAGATTGTCCAGCGGTTGAGCAGTTTGGTCTCACCTCCCTCGCTAGTTGAGACCAAAAAGAGACAAATAACTTTTTCATGGTCTTTGAAACATAATGCTTATTTCGTGGTCAATGGCTTTAAAAAAATCTGTTTCTTGTTTTCTTCAACAAACTCACTAGTTTTCCCTTAAATGATATTGTAAAAATTAAAGTAATCTTGAAAATGTTTTGACAAAAGTAAAATTAAAGGGACATCttttcttgttttgttttttttttttCTATTGCCACACATGACCgttccttcacctttaagcaaagagagtggttcagatggtttctaagatgccaacctgacctcgcattctgtcattctaCCCAGCTCTTAATTCAATTTGCTTCCATTATCCTAACAGGCTTCTTTCTTACTTAGAACTTGGAAAGGCTGCTGTATTTAATACCCTCCAACACTAACGCAGACTtaagataggtactgtttattgaaaacctactgagtgaaatgtgcggttttaggaccttcataaacatctcatttaatctttctagcatcctgtgaaacagccatgatttcacgttgataaacaaagaagacaggggtcccagggatgtgaagcatcttgcccaggcttctgctgctggtgaccagtgtagccaggactccagcccaggttttcctgactcagaagactgagctttttccTGGATGTTATTAATAGCTAATTGTGTCCAAGCAACCAAGGGCCTTGAGTCTGCTTGGTTCTGCTTATGGCCTCACATCAAGAAATGGAGCTAGTCcatgtctgtagtcccaatgctttgggaagccatgatgggaaggttgtcggaggccaaaagttcaagaccaggctgggcaatatcacaagactccatctctacggaaaagtaaaaaattagccagtcatggtggtgtacacttatggtcctagttactcaggagacttaggcaggaggattgcttgatcctaggaattcgaggctgcagtgagctatgattgcacctctgcacccaagcctgggcgacacagcgagaccctctctcttaaaaaaaaaaaaTAGCAGAGCTCACCAAAGTGATGTTCACCTTTTTATGACATTCCTTTTTCTTAGCTTAAGAAAAGAAAGCTGCTAGATGAGAGTCTTAGTTTTCCTGCATAAGACCTCCTTTATGAATAGAATAAAAGACTGTCAAAGTAGGCTGGGCTTGGGCCCAGGCTAATCTATGAAGGAAGCAAGCTCGTGTTCCTTACCTATCCTTTTGGTGTCCATTGGATTGTGCCCCGAAGTGGCCTTTACCCTTGAGCCGTCCCCAGCCATGGTGCTCACACATAGGCTTTTGAGCTCCTTGGAGCTATCCAGATCCTGCTCACTTTTCCTTCCTGAGATCAGAACAAATCACCCCCTTACTCCCACTCCAAACAAGGCCTTGATGATAAACTAATCCTTCCTAAAATGCTGGTAGGTAAACAAGCAATGATGAAGCATTGAACACAGGTTAACTCCTGACTTTTGTACCATTGTCTATTCCATTACACATTAACATGACTCTGAATGCCAGATCCAAACCTTTGCCCACCATCTGCTTGTCGTGCAACAGTTGAGGCAGTAACCAGGGGAGATTCACTTCCTGTCTTGTCCTTCCCCAGGGATCACCCCCCTGCTGCCCTCTAGCAGCCAAACTCAGATGAGTTCCATTGTTACCCTAGGTGTGCCCATCTCTTTGGTAGGGAAGGAGAAAGGTAAGAATAGCCATCAGTGAGGAAGGATTCTTGGAGCGAGGAGCCACTGTGGTTTTTCCTGCTATTTAAGATGTTGAGACCGGATAACTTTAGAAAGATACCTGCACAAACCCATAAATAGTGCTTTTATAAAGTTTAGTTCACCGGAACCTGAGTTCAGTATTTGACATTAGCTTTTTGTCCAAAGAGTTGAAGCCTGCTGGAGGTCTTTGCTCAAATAATAAATACCACATATTTCCAAGTGTGTTCAGGTATAGGCACTAGGtactgtctgtttacttcatgttaggcacattacatgcattggctaatcaaatcctcaTCAATTACATATGTAATAATCTAAACTTGCCTCCTTGTATTATAAATGGAAATAATCCTGTTTATTTAAACGGGTTTTCATGTACCTGTAGGGATTAGGAAACTCAAATGGCCTTTTTAATACCTTTCCCTAGTTTGAGCTCCCTGTTCTCTTTAACAGATAAAACAACATATTTGCTTCAGCCTGGAATCTGTTTTTGGTGCTTTGGTGCAGAGACAGGAAATGGGCACTCAGAGTCACACTGGTAGTTGCACACTGTATCTACAGAGGGCGTGTCTCATCTGTACTCTGCTGGGTTACAGGATTTCAGTAGGTATTTGTGTCCACCTGAGAATTCTGTTTATTACCTTTCATTTGACAGTGTCTTTCCTTTCTGCAGTTGATTTTGCTAGAGAGGCAATTCATAAGGTGAGGTCCTGTTCATAGTATGACTTGCTTTCTCAATATCTCCTTCAATTTTTAGTAACTCTTGGTCTATTTGGTGTCTTTAAAAAAAATAACCTAGTAATAAAGACTTCTTTTAATGTGGAAATGTGGTCTGGTAGTAAGTTATTTCTTTCCACATGTAACTGACCCAATCTGGTTTCCAAATGAGAAGTGTGCAGGCCCCAGAGGTTGAGAAGCCATATTTCAACTGTGAAAAAAATCTGCTTCCTGCATCTGTTGAAATATAGTTGTTCATACTTGCCATCCCTTATCTTTCTTGTAACAATTTGCACAGTTCTTGCCAGAATAAATGCCATTATCTGTATGTTTCAGGGAGTTCCCCAATTTGATCATTTTtgtgtgtgtgtggtgtgtgtgtgAGAGAGAGAGATACTGCAGTAAAACATTTCTAAAGGATGAAAGCTCTTGTATGGCATAGATATGAATTCCTTCCTCTGGTAATAATTAGGTTATTCCCAGAAGCACAGTGTCATTCTTTAAATAAAAGCTTTCCTGTTTAAAGCTTTTCAAAGGAGCAGACCACCTTGAAGATTCCCCCTAGGGTTGATATGTGTCTAATTCATTTTATAAAAATTATTCTTGTCTTCATTTTAAAGCTTTGGCTATATAGTCAGAAATGTCCTAAATAACAAACTATTTTGTATTTAATTTAGGGAAGACTAAAGGGAAGAAAAATGAAAACTCAGTCTTTATGTAAGCTCCAAGGATATTAGGGCTTAAAGGGCTTTTCTAGTTTTATGAGAATTTGTACTACTGATTTTTATATATTCCTGTTTTTGAGATGAACAGATCTCTGGGGAAATTGTTGAGTTACAATGGCATTTCACTGTGATCCCTCTCAAGCTCAGATCAGTTCTATAACCCAATGACAACCTGTCTCTTTGGTTTACTGTCCTGTGAAATGTCAGCTCAAGTTTCCCAGAAGTCGTGTGTTTATGATGAGTCAGAGTGCTTTTCCTCGGTGGGACAGTTGCTGGCCCTCTTAATTTTGGTGTATGTGCTTCCAAGTATCTAAACCTCCAGTCTGATCTGTATATGCTATCCTAACTGTTAATTGTATTATTGATTATGTTGATTATCTTGCTTGAAGGTTCATACTTTTCAATTTGATAGAAATAAAGTTTTTTTCTGCTTATAGCTAGCGAA

Publications

PMID - Link Title
No publications available for this retrocopy