RCPedia: Rtcs

Summary

Retrocopy Name	CSNK1A1L	Plot displaying the genomic locations of a retrocopy (in chr13) and its respective parental gene (in chr5). Each line represents a retrocopy.
Species	Homo sapiens
Coordinates (hg38)	chr13:37103269-37105282 UCSC
Coordinates (T2T)	chr13:36322451-36324464 UCSC
Coordinates (hg19)	chr13:37677406-37679419 UCSC
Strand	-
Parental Sequence	NM_001892.6
Parental seq. overlap	1814 bp
Parental seq. overlap (%)	33.8%
Genomic Region	Intergenic
Retrocopy Summary	CSNK1A1L, located on chr13:37103269-37105282, is a retrocopy of the parental gene CSNK1A1. 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	CSNK1A1
Full Name	casein kinase 1 alpha 1
Also known as	CK1\|CK1a\|CKIa\|HEL-S-77p\|HLCDGP1\|PRO2975
Coordinate	chr5:149492982-149551439
Strand	-
Gene summary	Enables protein serine/threonine kinase activity. Involved in several processes, including negative regulation of canonical Wnt signaling pathway; peptidyl-serine phosphorylation; and positive regulation of proteasomal ubiquitin-dependent protein catabolic process. Located in centrosome; cytosol; and nuclear speck. Part of beta-catenin destruction complex. Colocalizes with keratin filament and mRNA cleavage and polyadenylation specificity factor complex. Biomarker of Alzheimer's disease and inclusion body myositis. [provided by Alliance of Genome Resources, Apr 2022]

Homology

Species	Scientific Name	Retrocopy
Chimpanzee	Pan troglodytes	CSNK1A1P4
Bonobo	Pan paniscus	CSNK1A1P4
Gorilla	Gorilla gorilla	CSNK1A1P4
Orangutan	Pongo abelii	CSNK1A1P3
Gibbon	Nomascus leucogenys	CSNK1A1P3
Green monkey	Chlorocebus sabaeus	CSNK1A1P2
Crab-eating macaque	Macaca fascicularis	CSNK1A1P5
Rhesus	Macaca mulatta	CSNK1A1P5
Baboon	Papio anubis	CSNK1A1P5
Golden snub-nosed monkey	Rhinopithecus roxellana	CSNK1A1P5
Marmoset	Callithrix jacchus	CSNK1A1P1
Mouse lemur	Microcebus murinus	CSNK1A1P3
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)

Massive Mining of Publicly Available RNA-seq Data from Human and Mouse - (ARCHS4)

Related Sequence

>CSNK1A1L
CCCAGCCTCCATCTTTGCCTCTCAGGATGACAAACAACAGCGGCTCCAAAGCCGAACTCGTTGTGGGAGGGAAATACAAACTGGTGCGGAAGATCGGGTCTGGCTCCTTTGGAGACGTTTATCTGGGCATCACCACCACCAACGGCGAGGACGTAGCAGTGAAGCTGGAATCTCAGAAGGTCAAGCACCCCCAGTTGCTGTATGAGAGCAAACTCTACACGATTCTTCAAGGTGGGGTTGGCATCCCCCACATGCACTGGTATGGTCAGGAAAAAGACAACAATGTGCTAGTCATGGACCTTCTGGGACCCAGCCTCGAAGACCTCTTTAATTTCTGTTCAAGAAGGTTCACCATGAAAACTGTACTTATGTTAGCCGACCAGATGATCAGCAGAATTGAATACGTGCATACAAAGAATTTTCTACACCGAGACATTAAACCAGATAACTTCCTGATGGGTACTGGGCGTCACTGTAATAAGTTGTTCCTTATTGATTTTGGTTTGGCCAAAAAGTACAGAGACAACAGGACCAGGCAACACATACCGTACAGAGAAGATAAACACCTCATTGGCACTGTCCGATATGCCAGCATCAATGCACATCTTGGTATTGAGCAGAGCCGCCGAGATGACATGGAATCCTTAGGCTACGTTTTCATGTATTTTAATAGAACCAGCCTGCCGTGGCAAGGACTAAGGGCTATGACAAAAAAACAAAAATATGAAAAGATTAGTGAGAAGAAGATGTCCACCCCTGTTGAAGTTTTATGTAAGGGGTTTCCTGCAGAATTCGCCATGTACTTGAACTACTGTCGTGGGCTGCGCTTTGAGGAAGTCCCAGATTACATGTATCTGAGGCAGCTATTCCGCATTCTTTTCAGGACCCTGAACCACCAATATGACTACACATTTGATTGGACGATGTTAAAGCAGAAAGCAGCACAGCAGGCAGCCTCTTCCAGTGGGCAGGGTCAGCAGGCCCAAACCCAGACAGGCAAGCAAACTGAAAAAAACAAGAATAATGTGAAAGATAACTAAGCGTGAATGAGGAACAGAAGAAGCAGAGCAGATGATTCGAGCAGCATTTGTTTCTCCCCACATCTAGAAATTGTAGTTCATATGTACACCAGCTAGTGGCTGTGAACAACCATTTAGTTGGTGTAAAAAACTTTATTTCAATATAAACTGACTCTGGGGAGCGTTGGTGATGCTGTATCCCAAAGTGTAGCCTCTGTAATTGTGAATATTAACTGAGGTAGTGAAACGTGGTGTCTGGTTTTCTATTGCATTTATTCAAGTAGAAAAGTTAACTAAATGGTTGACACACACGAATTGGTGGAGACATTGTCCATATGCCAATTTTTTGTTAAAACCTTTTATTTTGAACTAGACTGCTTTGAGATATCATTTCAGAAGGACAGTATTCAGCCACAGCTGCAAAGGTTGTAAATGCTTATGATTGAGCATTTTTAGGGTTTCTCCATCCCTGGGGTTTGCAAATTGTTCACATAAAGAGCATTCTTAAAATGGTTGGCTTCTTGTCTGTAAGCCAGCTGATCTAGTAGTAACCAAAAATTCCAGTTTTGAGAATAGGAAAGATTCCGCCTGCTTACCTGTGAAGACATAAGAAAATCTTAGTAACTACCAGATTATCTTTAGAATTCCACATTAACTATATCATGTTCTCGGTATTTTAAAAACAACAACAACCATATTTGTCACAGAAATTTAGTTAACATCTTACAACTGAACATGTATGTACATGGCTTAGATAAATGTAATCACCGTAAACACCCATATGATCTGGGATTTTGTTCATATTTTGAAATGGGAGCTTTTATGTTTTACAAGTTCACTAAAATCTGAAAACTGTTTCTATAAGGAAATAATACTTTTTTAAACAACAACCAAAAAATGCCTTGCTGATTCACTAGGAAATAAAAATCTCCCCAATTTTTTGATAGTCAACTTCGAGCCATTTGTTACATGATATTCCCTTGCAAGTAAATTTT

>NM_001892.6
CCCAGAGTGCTCTGCGCCGTGAAGAAGCGGCTCCCGGGGACTGGGGGCATTTTGTGTTGGCTGGAGCTGGAGTAACAAGATGGCGTCGTCCGCGGAGTGACAGGGGTCCCTCTGGGCCGGAGCCGGCGGCAGTGGTGGCAGCGGTATCGCCGCCCTAGCTCACCGCGCCCCTTTTCCAGCCCGCGACGTCGCCGCGCAAGCGAGGCAGCGGCGGCCGCCGAGAAACAAGTGGCCCAGCCTGGTAACCGCCGAGAAGCCCTTCACAAACTGCGGCCTGGCAAAAAGAAACCTGACTGAGCGGCGGTGATCAGGTTCCCCTCTGCTGATTCTGGGCCCCGAACCCCGGTAAAGGCCTCCGTGTTCCGTTTCCTGCCGCCCTCCTCCGTAGCCTTGCCTAGTGTAGGAGCCCCGAGGCCTCCGTCCTCTTCCCAGAGGTGTCGGGGCTTGGCCCCAGCCTCCATCTTCGTCTCTCAGGATGGCGAGTAGCAGCGGCTCCAAGGCTGAATTCATTGTCGGAGGGAAATATAAACTGGTACGGAAGATCGGGTCTGGCTCCTTCGGGGACATCTATTTGGCGATCAACATCACCAACGGCGAGGAAGTGGCAGTGAAGCTAGAATCTCAGAAGGCCAGGCATCCCCAGTTGCTGTACGAGAGCAAGCTCTATAAGATTCTTCAAGGTGGGGTTGGCATCCCCCACATACGGTGGTATGGTCAGGAAAAAGACTACAATGTACTAGTCATGGATCTTCTGGGACCTAGCCTCGAAGACCTCTTCAATTTCTGTTCAAGAAGGTTCACAATGAAAACTGTACTTATGTTAGCTGACCAGATGATCAGTAGAATTGAATATGTGCATACAAAGAATTTTATACACAGAGACATTAAACCAGATAACTTCCTAATGGGTATTGGGCGTCACTGTAATAAGTTATTCCTTATTGATTTTGGTTTGGCCAAAAAGTACAGAGACAACAGGACAAGGCAACACATACCATACAGAGAAGATAAAAACCTCACTGGCACTGCCCGATATGCTAGCATCAATGCACATCTTGGTATTGAGCAGAGTCGCCGAGATGACATGGAATCATTAGGATATGTTTTGATGTATTTTAATAGAACCAGCCTGCCATGGCAAGGGCTAAAGGCTGCAACAAAGAAACAAAAATATGAAAAGATTAGTGAAAAGAAGATGTCCACGCCTGTTGAAGTTTTATGTAAGGGGTTTCCTGCAGAATTTGCGATGTACTTAAACTATTGTCGTGGGCTACGCTTTGAGGAAGCCCCAGATTACATGTATCTGAGGCAGCTATTCCGCATTCTTTTCAGGACCCTGAACCATCAATATGACTACACATTTGATTGGACAATGTTAAAGCAGAAAGCAGCACAGCAGGCAGCCTCTTCCAGTGGGCAGGGTCAGCAGGCCCAAACCCCCACAGGCAAGCAAACTGACAAAACCAAGAGTAACATGAAAGGTTTCTAAGCATGAATTGAGGAACAGAAGAAGCAGAGCAGATGATCGGAGCAGCATTTGTTTCTCCCCAAATCTAGAAATTTTAGTTCATATGTACACTAGCCAGTGGTTGTGGACAACCATTTACTTGGTGTAAAGAACTTAATTTCAGTATAAACTGACTCTGGGCAGCATTGGTGATGCTGTATCCTGAGTTGTAGCCTCTGTAATTGTGAATATTAACTGAGATAGTGAAACATGGTGTCCGGTTTTCTATTGCATTTTTTCAAGTGGAAAAGTTAACTAAATGGTTGACACACAAAAATTGGTGGAGAAATTGTGCATATGCCAATTTTTTGTTAAAACCTTTTGTTTTGAACTATACTGCTTTGAGATCTCATTTCAGAAGAACGGCATGAACAGTCTTCAGCCACAGTTGTGATGGTTGTTAAATGCTCACAATTGTGCATTCTTAGGGTTTTTCCATCCCTGGGGTTTGCAAGTTGTTCACTTAAAACATTCTTAAAATGGTTGGCTTCTTGTCTGCAAGCCAGCTGATATGGTAGCAACCAAAGATTCCAGTGTTTGAGCATATGAAAGACTCTGCCTGCTTAATTGTGCTAGAAATAACAGCATCTAAAGTGAAGACTTAAGAAAAACTTAGTGACTACTAGATTATCCTTAGGACTCTGCATTAACTCTATAATGTTCTTGGTATTAAAAAAAAAGCATATTTGTCACAGAAATTTAGTTAACATCTTACAACTGAACATGTATGTATGTTGCTTAGATAAATGTAATCACTGTAAACATCTATATGATCTGGGATTTTGTTTTTATTTTGAAATGGGAGCTTTTTTGTTTACAAGTTCATTAAAAACTAAAAACTGTTTCTGTAAGGAAATGAGATTTTTTTTAAACAACAAAAAATGCCTTGCTGACTCACTATTAAATAAAAATCTCCCCAATTTTTTGATAGACTACTTCAAGCCATTTGTTACATGGTATTCCTTTGCAAGTCAATTTAGGTTTCGTGTTATAACTTTTCCTCTTTTTTTAAGAAAAATGAAAAAAGTAATTCTTTTGTCTGAAGGGGAAAGGCAttctttcatttttttctttttttttttttttttttATGACTTGCAGGCACAATATCTAGTACTGCAACTGCCAGAACTTGGTATTGTAGCTGCTGCCCGCTGACTAGCAGCTGGACTGATTTTGAATAAAAATGAAAGCATTAAAGGGTTTCCCTACAAAACATTTTTCTTTAAAATACTTTTGAAATGGCTATAAGCAGTTGACTTTCACCCTTGGAGAGCATCACACTGTGTGAGGTTCAGTGATTGTTGACCCTCCCCAGCCCCTCCTGCTTCTTTAAGTTATCTGTGTGCGTGCGCTTCCTCTCAATCTTCTTTGCACGCTCATTTCTTTTTCTCTGACCCATGAGAAAGGAAAACTTACTGATGATAATTTTTAAATAGTGTAATTTATTCATTTATAGCATGTCAGGATAAATTAAAAGAACATTTGTCTGGAAATGCTGCCGGGAGCCTATTGTGTAAATGTAGGTATTTTGTAAAATAACCTTGAAATTGTAAATTGACACGTGTTTGGTCAGATTGTGTCAAGTTTAAtttgttttgttttcttttttcttttttttatttGAAAACTACTTTAGCAATAATTAATTCCATGATTATCACATTCTGCCATTAAGGGATATTAGTACCGTAATACTGAAGAAATTTTATTAAGTCTGAACTTCTGGGGTAGGCAGCTTCTTTGTTTCTTTTCTATCCACCCTTGTCGGTTGAGGTATTTGTTTCTTGACTAATAAACCCTTTGATACTTTTAGCCAGAAATCAGTCTCATAAAGCTATTTTTGAGTATAGTTTGTGTAAAATAAAAATGTTTAGCTTTGGTAATAACTTCCAAGCTGAACTCCCTCTAGCAAGATATTTTTCAGTGCTTTTATTTACTATGCACTTAGACTATGCACTTTTTCTGAAATATTTTTGTAACACTTTTTTGTATTTTTGCCATTTGAAAAGGTTGTGGTGTAGTTGGTCTGTAATTAAGTTGCAGATTTAAAACTGCTGTTAGCTTTGTAAATCAAAATATAGGTGTTTTTTGTCCTGGTATATCGTCATTCCATCTGCAGCTGGAGCTGGAATCCCATTGATCTTCTAGCTACCATTCATTTTCTTCACTGTTCACAAAAGAAGAGTGTGAAATTCAGTGAATGCTGTTACTAATCCTGTTACGAGATGAATCTCATTTCACCAAAATTAAATTATGTTTTTCCGCTAAAATGATGATACAAGTTGAAGACACATCACTCTGAAATTGGAAGACCTCACCACTTAAGGCTCCACAGTGGCTTACTCAGCTGAACTCTAGGTTACTACTCTTTACTTTGTTCACCCATTGGGGGGTGCAGTTTTTTTAAAATGTTGGGAGATGGCCATTCTAACTACTGTTGAATGTCTCTGTTTTGGGAAGGTATAACAAGAAATAAAAAAGAATATATATGAAGGGAGAGACTGGTTATCTCCTCCCATATGGTTGTGCTTATCCTCTTATGGCTTACAAATGAATATTTGGAGGTTTGCTTTCACAATGATTTCCCATCAACAAATATTTTTAGTAGGATTTTTCCTGTTTCTGTTAGTCCTTGCAGTACTCATAAATGTTTTAAGCTGAGCATACTGTAATAGTCATAAGTTTAATTTCATTATAATAAAAATAATCAAACAAAAGGACTTTAGAACCCAAGACAATGAGCTAGTTTTCCCTAAAGTTTGCTGAACTATTAAGGAATATGTTCTTATAGCTTTTGACTAGAATGAGTCATGGGAATTCTAAGAAGGGATGGCCTAGACATTTTTAGCTCAGTTAAATTCAGCATTTAATGCAGGTGAGTTCCTGGGTCGTTTTCCAACTAGTCTGGAACAGTCTGGTTCTGACTCAAACTGGTATAAAGCATTATTTTAGGTTTTCTCTTTGCCAGTTTTTAAGCAGTTATAACCATGTAAATCAAGATGTGAGGACATCTATATGAAGTATAGTAAAGAAGTGGTGTCAGCAGATCAATATGTGTGTCCTGGGTGTGCTGCTCTCTTAAGTGAGACTTTGTGAGACTATACTTTAAATGCATTATTACCATTGCTTACATTTTGGGGGATTTTCTTCCTCCTCAAAACTTCCATTTCTATTGTAATATTCTTAATGACAATCTTTTTTTTTTTTTAGCAGTGTATGTTTGAAACAGCCAAAGATGGCGATGAACCAAGTGTAAATTGATCTAAGCAGCCCATGCAGTTTGTGTTGAATCAACAAACAGTGTATTGTTGAAGTGAAATTATTTTCTGAAATGACTTGTTAGACCAGTTTTGAGGACATACTCAAAAGTAGAGTAATAATGGCTCctgggatggagaaatatgagatgaacctggaacattctattatggtgccacaaaggaaatctaaaaaaaaaaaaaaaaaaaaaagtggttggctaggagcagtggcacacgcctgtgattccagcactttgggaggccgaagtgggcaggagttcaagaccagcctggccaacatagtgaaaccctgtctctactaaaaatacaaaaattagccgggtgtggtggcgggcgcctgtaatcccagcttttcaagaggctgaggcagaagaatcgcttgaacccgggagatggaggttgcagtgagctgagatcgtgccactgcactccagcctgggcgttgcagtgagactccgtctcaacaacaacaaaaaggtggatacatgtcaaaagggcacaggagccacttgaaggattatacttgctaaatctgtgtcaattatcaaaataaactggtagcaacgtta

>NM_001892.6 

CCCAGAGTGCTCTGCGCCGTGAAGAAGCGGCTCCCGGGGACTGGGGGCATTTTGTGTTGGCTGGAGCTGGAGTAACAAGATGGCGTCGTCCGCGGAGTGACAGGGGTCCCTCTGGGCCGGAGCCGGCGGCAGTGGTGGCAGCGGTATCGCCGCCCTAGCTCACCGCGCCCCTTTTCCAGCCCGCGACGTCGCCGCGCAAGCGAGGCAGCGGCGGCCGCCGAGAAACAAGTGGCCCAGCCTGGTAACCGCCGAGAAGCCCTTCACAAACTGCGGCCTGGCAAAAAGAAACCTGACTGAGCGGCGGTGATCAGGTTCCCCTCTGCTGATTCTGGGCCCCGAACCCCGGTAAAGGCCTCCGTGTTCCGTTTCCTGCCGCCCTCCTCCGTAGCCTTGCCTAGTGTAGGAGCCCCGAGGCCTCCGTCCTCTTCCCAGAGGTGTCGGGGCTTGGCCCCAGCCTCCATCTTCGTCTCTCAGGATGGCGAGTAGCAGCGGCTCCAAGGCTGAATTCATTGTCGGAGGGAAATATAAACTGGTACGGAAGATCGGGTCTGGCTCCTTCGGGGACATCTATTTGGCGATCAACATCACCAACGGCGAGGAAGTGGCAGTGAAGCTAGAATCTCAGAAGGCCAGGCATCCCCAGTTGCTGTACGAGAGCAAGCTCTATAAGATTCTTCAAGGTGGGGTTGGCATCCCCCACATACGGTGGTATGGTCAGGAAAAAGACTACAATGTACTAGTCATGGATCTTCTGGGACCTAGCCTCGAAGACCTCTTCAATTTCTGTTCAAGAAGGTTCACAATGAAAACTGTACTTATGTTAGCTGACCAGATGATCAGTAGAATTGAATATGTGCATACAAAGAATTTTATACACAGAGACATTAAACCAGATAACTTCCTAATGGGTATTGGGCGTCACTGTAATAAGTTATTCCTTATTGATTTTGGTTTGGCCAAAAAGTACAGAGACAACAGGACAAGGCAACACATACCATACAGAGAAGATAAAAACCTCACTGGCACTGCCCGATATGCTAGCATCAATGCACATCTTGGTATTGAGCAGAGTCGCCGAGATGACATGGAATCATTAGGATATGTTTTGATGTATTTTAATAGAACCAGCCTGCCATGGCAAGGGCTAAAGGCTGCAACAAAGAAACAAAAATATGAAAAGATTAGTGAAAAGAAGATGTCCACGCCTGTTGAAGTTTTATGTAAGGGGTTTCCTGCAGAATTTGCGATGTACTTAAACTATTGTCGTGGGCTACGCTTTGAGGAAGCCCCAGATTACATGTATCTGAGGCAGCTATTCCGCATTCTTTTCAGGACCCTGAACCATCAATATGACTACACATTTGATTGGACAATGTTAAAGCAGAAAGCAGCACAGCAGGCAGCCTCTTCCAGTGGGCAGGGTCAGCAGGCCCAAACCCCCACAGGCAAGCAAACTGACAAAACCAAGAGTAACATGAAAGGTTTCTAAGCATGAATTGAGGAACAGAAGAAGCAGAGCAGATGATCGGAGCAGCATTTGTTTCTCCCCAAATCTAGAAATTTTAGTTCATATGTACACTAGCCAGTGGTTGTGGACAACCATTTACTTGGTGTAAAGAACTTAATTTCAGTATAAACTGACTCTGGGCAGCATTGGTGATGCTGTATCCTGAGTTGTAGCCTCTGTAATTGTGAATATTAACTGAGATAGTGAAACATGGTGTCCGGTTTTCTATTGCATTTTTTCAAGTGGAAAAGTTAACTAAATGGTTGACACACAAAAATTGGTGGAGAAATTGTGCATATGCCAATTTTTTGTTAAAACCTTTTGTTTTGAACTATACTGCTTTGAGATCTCATTTCAGAAGAACGGCATGAACAGTCTTCAGCCACAGTTGTGATGGTTGTTAAATGCTCACAATTGTGCATTCTTAGGGTTTTTCCATCCCTGGGGTTTGCAAGTTGTTCACTTAAAACATTCTTAAAATGGTTGGCTTCTTGTCTGCAAGCCAGCTGATATGGTAGCAACCAAAGATTCCAGTGTTTGAGCATATGAAAGACTCTGCCTGCTTAATTGTGCTAGAAATAACAGCATCTAAAGTGAAGACTTAAGAAAAACTTAGTGACTACTAGATTATCCTTAGGACTCTGCATTAACTCTATAATGTTCTTGGTATTAAAAAAAAAGCATATTTGTCACAGAAATTTAGTTAACATCTTACAACTGAACATGTATGTATGTTGCTTAGATAAATGTAATCACTGTAAACATCTATATGATCTGGGATTTTGTTTTTATTTTGAAATGGGAGCTTTTTTGTTTACAAGTTCATTAAAAACTAAAAACTGTTTCTGTAAGGAAATGAGATTTTTTTTAAACAACAAAAAATGCCTTGCTGACTCACTATTAAATAAAAATCTCCCCAATTTTTTGATAGACTACTTCAAGCCATTTGTTACATGGTATTCCTTTGCAAGTCAATTTAGGTTTCGTGTTATAACTTTTCCTCTTTTTTTAAGAAAAATGAAAAAAGTAATTCTTTTGTCTGAAGGGGAAAGGCAttctttcatttttttctttttttttttttttttttATGACTTGCAGGCACAATATCTAGTACTGCAACTGCCAGAACTTGGTATTGTAGCTGCTGCCCGCTGACTAGCAGCTGGACTGATTTTGAATAAAAATGAAAGCATTAAAGGGTTTCCCTACAAAACATTTTTCTTTAAAATACTTTTGAAATGGCTATAAGCAGTTGACTTTCACCCTTGGAGAGCATCACACTGTGTGAGGTTCAGTGATTGTTGACCCTCCCCAGCCCCTCCTGCTTCTTTAAGTTATCTGTGTGCGTGCGCTTCCTCTCAATCTTCTTTGCACGCTCATTTCTTTTTCTCTGACCCATGAGAAAGGAAAACTTACTGATGATAATTTTTAAATAGTGTAATTTATTCATTTATAGCATGTCAGGATAAATTAAAAGAACATTTGTCTGGAAATGCTGCCGGGAGCCTATTGTGTAAATGTAGGTATTTTGTAAAATAACCTTGAAATTGTAAATTGACACGTGTTTGGTCAGATTGTGTCAAGTTTAAtttgttttgttttcttttttcttttttttatttGAAAACTACTTTAGCAATAATTAATTCCATGATTATCACATTCTGCCATTAAGGGATATTAGTACCGTAATACTGAAGAAATTTTATTAAGTCTGAACTTCTGGGGTAGGCAGCTTCTTTGTTTCTTTTCTATCCACCCTTGTCGGTTGAGGTATTTGTTTCTTGACTAATAAACCCTTTGATACTTTTAGCCAGAAATCAGTCTCATAAAGCTATTTTTGAGTATAGTTTGTGTAAAATAAAAATGTTTAGCTTTGGTAATAACTTCCAAGCTGAACTCCCTCTAGCAAGATATTTTTCAGTGCTTTTATTTACTATGCACTTAGACTATGCACTTTTTCTGAAATATTTTTGTAACACTTTTTTGTATTTTTGCCATTTGAAAAGGTTGTGGTGTAGTTGGTCTGTAATTAAGTTGCAGATTTAAAACTGCTGTTAGCTTTGTAAATCAAAATATAGGTGTTTTTTGTCCTGGTATATCGTCATTCCATCTGCAGCTGGAGCTGGAATCCCATTGATCTTCTAGCTACCATTCATTTTCTTCACTGTTCACAAAAGAAGAGTGTGAAATTCAGTGAATGCTGTTACTAATCCTGTTACGAGATGAATCTCATTTCACCAAAATTAAATTATGTTTTTCCGCTAAAATGATGATACAAGTTGAAGACACATCACTCTGAAATTGGAAGACCTCACCACTTAAGGCTCCACAGTGGCTTACTCAGCTGAACTCTAGGTTACTACTCTTTACTTTGTTCACCCATTGGGGGGTGCAGTTTTTTTAAAATGTTGGGAGATGGCCATTCTAACTACTGTTGAATGTCTCTGTTTTGGGAAGGTATAACAAGAAATAAAAAAGAATATATATGAAGGGAGAGACTGGTTATCTCCTCCCATATGGTTGTGCTTATCCTCTTATGGCTTACAAATGAATATTTGGAGGTTTGCTTTCACAATGATTTCCCATCAACAAATATTTTTAGTAGGATTTTTCCTGTTTCTGTTAGTCCTTGCAGTACTCATAAATGTTTTAAGCTGAGCATACTGTAATAGTCATAAGTTTAATTTCATTATAATAAAAATAATCAAACAAAAGGACTTTAGAACCCAAGACAATGAGCTAGTTTTCCCTAAAGTTTGCTGAACTATTAAGGAATATGTTCTTATAGCTTTTGACTAGAATGAGTCATGGGAATTCTAAGAAGGGATGGCCTAGACATTTTTAGCTCAGTTAAATTCAGCATTTAATGCAGGTGAGTTCCTGGGTCGTTTTCCAACTAGTCTGGAACAGTCTGGTTCTGACTCAAACTGGTATAAAGCATTATTTTAGGTTTTCTCTTTGCCAGTTTTTAAGCAGTTATAACCATGTAAATCAAGATGTGAGGACATCTATATGAAGTATAGTAAAGAAGTGGTGTCAGCAGATCAATATGTGTGTCCTGGGTGTGCTGCTCTCTTAAGTGAGACTTTGTGAGACTATACTTTAAATGCATTATTACCATTGCTTACATTTTGGGGGATTTTCTTCCTCCTCAAAACTTCCATTTCTATTGTAATATTCTTAATGACAATCTTTTTTTTTTTTTAGCAGTGTATGTTTGAAACAGCCAAAGATGGCGATGAACCAAGTGTAAATTGATCTAAGCAGCCCATGCAGTTTGTGTTGAATCAACAAACAGTGTATTGTTGAAGTGAAATTATTTTCTGAAATGACTTGTTAGACCAGTTTTGAGGACATACTCAAAAGTAGAGTAATAATGGCTCctgggatggagaaatatgagatgaacctggaacattctattatggtgccacaaaggaaatctaaaaaaaaaaaaaaaaaaaaaagtggttggctaggagcagtggcacacgcctgtgattccagcactttgggaggccgaagtgggcaggagttcaagaccagcctggccaacatagtgaaaccctgtctctactaaaaatacaaaaattagccgggtgtggtggcgggcgcctgtaatcccagcttttcaagaggctgaggcagaagaatcgcttgaacccgggagatggaggttgcagtgagctgagatcgtgccactgcactccagcctgggcgttgcagtgagactccgtctcaacaacaacaaaaaggtggatacatgtcaaaagggcacaggagccacttgaaggattatacttgctaaatctgtgtcaattatcaaaataaactggtagcaacgtta

Publications

PMID - Link	Title
37257767	Casein kinase 1 controls the shuttling of epidermal growth factor receptor and estrogen receptor in endometrial carcinoma induced by breast cancer hormonal therapy: Relevance of GPER1/Src.
36736316	Multiplexed kinase interactome profiling quantifies cellular network activity and plasticity.
36215168	TRIM67 drives tumorigenesis in oligodendrogliomas through Rho GTPase-dependent membrane blebbing.
35563538	Cullin 3 Exon 9 Deletion in Familial Hyperkalemic Hypertension Impairs Cullin3-Ring-E3 Ligase (CRL3) Dynamic Regulation and Cycling.
35271311	OpenCell: Endogenous tagging for the cartography of human cellular organization.
33961781	Dual proteome-scale networks reveal cell-specific remodeling of the human interactome.
31980649	Extensive rewiring of the EGFR network in colorectal cancer cells expressing transforming levels of KRAS(G13D).
31586073	The midbody interactome reveals unexpected roles for PP1 phosphatases in cytokinesis.
31152661	The RNF20/40 complex regulates p53-dependent gene transcription and mRNA splicing.
29523541	Peli1 Modulates the Subcellular Localization and Activity of Mdmx.
29229926	Cell cycle-dependent phosphorylation regulates RECQL4 pathway choice and ubiquitination in DNA double-strand break repair.
28675297	A Human Tyrosine Phosphatase Interactome Mapped by Proteomic Profiling.
28514442	Architecture of the human interactome defines protein communities and disease networks.
28380382	A Single Adaptable Cochaperone-Scaffold Complex Delivers Nascent Iron-Sulfur Clusters to Mammalian Respiratory Chain Complexes I-III.
27637333	Identification of Novel Nuclear Factor of Activated T Cell (NFAT)-associated Proteins in T Cells.
26885983	The C-terminal cytoplasmic tail of hedgehog receptor Patched1 is a platform for E3 ubiquitin ligase complexes.
26186194	The BioPlex Network: A Systematic Exploration of the Human Interactome.
25720964	FBXW7 modulates cellular stress response and metastatic potential through HSF1 post-translational modification.
24332808	PRP19 transforms into a sensor of RPA-ssDNA after DNA damage and drives ATR activation via a ubiquitin-mediated circuitry.
23362303	Genome-wide association study identifies novel loci associated with concentrations of four plasma phospholipid fatty acids in the de novo lipogenesis pathway: results from the Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE) consortium.
21988832	Toward an understanding of the protein interaction network of the human liver.
21873635	Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium.
20360068	Systematic analysis of human protein complexes identifies chromosome segregation proteins.
17620599	Functional specialization of beta-arrestin interactions revealed by proteomic analysis.
15489334	The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).
12477932	Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
11708798	The microbial receptor CEACAM3 is linked to the calprotectin complex in granulocytes.
8051045	Physical and functional association of a serine-threonine protein kinase to the cytoplasmic domain of the p80 form of the human tumor necrosis factor receptor in human histiocytic lymphoma U-937 cells.