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TMEM63A

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Protein-coding gene in the species Homo sapiens
TMEM63A
Identifiers
AliasesTMEM63A, KIAA0792, transmembrane protein 63A, HLD19
External IDsMGI: 2384789; HomoloGene: 101673; GeneCards: TMEM63A; OMA:TMEM63A - orthologs
Gene location (Human)
Chromosome 1 (human)
Chr.Chromosome 1 (human)
Chromosome 1 (human)Genomic location for TMEM63AGenomic location for TMEM63A
Band1q42.12Start225,845,536 bp
End225,882,380 bp
Gene location (Mouse)
Chromosome 1 (mouse)
Chr.Chromosome 1 (mouse)
Chromosome 1 (mouse)Genomic location for TMEM63AGenomic location for TMEM63A
Band1|1 H4Start180,769,909 bp
End180,802,677 bp
RNA expression pattern
Bgee
HumanMouse (ortholog)
Top expressed in
  • C1 segment

  • right uterine tube

  • middle frontal gyrus

  • body of pancreas

  • minor salivary glands

  • corpus callosum

  • buccal mucosa cell

  • granulocyte

  • rectum

  • canal of the cervix
Top expressed in
  • ascending aorta

  • pyloric antrum

  • aortic valve

  • gastric mucosa

  • mucous cell of stomach

  • epithelium of stomach

  • lip

  • granulocyte

  • submandibular gland

  • lumbar subsegment of spinal cord
More reference expression data
BioGPS


More reference expression data
Gene ontology
Molecular function
Cellular component
Biological process
Sources:Amigo / QuickGO
Orthologs
SpeciesHumanMouse
Entrez

9725

208795

Ensembl

ENSG00000196187

ENSMUSG00000026519

UniProt

O94886

Q91YT8

RefSeq (mRNA)

NM_014698

NM_144794

RefSeq (protein)

NP_055513

NP_659043

Location (UCSC)Chr 1: 225.85 – 225.88 MbChr 1: 180.77 – 180.8 Mb
PubMed search
Wikidata
View/Edit HumanView/Edit Mouse

Transmembrane protein 63A is a protein that in humans is encoded by the TMEM63A gene. The mature human protein is approximately 92.1 kilodaltons (kDa), with a relatively high conservation of mass in orthologs. The protein contains eleven transmembrane domains and is inserted into the membrane of the lysosome. BioGPS analysis for TMEM63A in humans shows that the gene is ubiquitously expressed, with the highest levels of expression found in T-cells and dendritic cells.

Gene

Overview

TMEM63A is located on the negative DNA strand of chromosome 1 at location 1q42.12, spanning base pairs 226,033,237 to 226,070,069. Aliases include KIAA0489 and KIAA0792. The human gene product is a 4,469 base pair mRNA with 25 predicted exons. There are 9 predicted splice isoforms of the gene, three of which are protein coding. Promoter analysis was carried out using El Dorado through the Genomatix software page. The predicted promoter region spans 971 base pairs, from 226,070,920 to 226,069,950 on the negative strand of chromosome 1.

Gene neighborhood

TMEM63A is located adjacent to the EPHX1 gene on the positive sense strand of DNA on chromosome 1, as well as the LEFTY1 gene on the negative sense strand. Other genes in the same area on chromosome 1 include SRP9 and LEFTY3 on the positive strand, and MIR6741 and PYCR2 on the negative strand.

Expression

TMEM63 is ubiquitously expressed throughout the human body at varying levels, occurring with the highest relative prevalence in CD 8+ T cells and CD 4+ T cells. Moderate relative levels of expression are also observed throughout the brain, particularly in the occipital lobe, parietal lobe, and pancreas. Analysis of TMEM63A expression in the mouse using BioGPS revealed more variable expression patterns, with the highest expression being seen in the stomach and large intestine. Using the El Dorado program from Genomatix, transcription factor regulation was predicted, which found that ‘’TMEM63A’’ is highly regulated by E2F cell cycle regulators and EGR1, a factor believed to be a tumor suppressor gene with expression in the brain. The 3’ UTR is predicted to be bound by the regulatory element miR-9/9ab.

Protein

Properties and characteristics

The mature form of the human TMEM63A protein has 807 amino acid residues with an isoelectric point of 6.925. This is fairly conserved across orthologs. A BLAST alignment revealed that the protein contains three domains: RSN1_TM and two domains of unknown function (DUF4463 and DUF221). RSN1_TM is predicted to be involved in Golgi vesicle transport and exocytosis. DUF4463 is cytosolic and distantly homologous to RNA-binding proteins. This domain can be used to determine the orientation of the protein in the membrane, with the N-terminus of the protein being within the lysosome and the C-terminus located in the cytosol.

Post-translational modification has been determined both experimentally and using bioinformatic analysis. There are two likely sites of glycosylation on the protein: N38 and N450. These were predicted using the NetNGlyc program from ExPASy and the TMEM63A amino acid sequence, as well as the inferred orientation of the protein in the membrane. There are three likely sites of phosphorylation on the protein: S85, S98, and S735, which were predicted using the NetPhos program.

The protein has three isoforms. The mature protein is designated isoform CRA. The other two isoforms are X1 and X2, which are 630 amino acid residues and 468 amino acid residues long, respectively. Isoform X1 is missing the N-terminus of the mature protein, while isoform 2 is missing the C-terminus.

Interactions

Using text-based information, TMEM63A is thought to potentially interact with six other proteins: EEF1D, FAM163B, CPNE9, TMEM90A, STAC2, HEATR3, and WDR67.

Function

The function of TMEM63A is not known, although one study found it was in a region likely regulated by mir-200a, linked to epithelial homeostasis. Another found it to be in a quantitative trait locus linked to haloperidol-induced catalepsy.

Evolutionary history

Paralogs

TMEM63A has two paralogs: TMEM63B, which is located at 6p21.1, and TMEM63C, which is located at C14orf171. Alignment between them shows that TMEM63C is more closely related to TMEM63B than TMEM63A. A BLAST alignment showed homology of TMEM63A and TMEM63B to proteins as distantly related as plants, while TMEM63C was homologous only as distantly as in drosophila. This indicates that TMEM63C likely diverged from the two early in invertebrates.

Ortholog space

TMEM63A has a large ortholog space, with homologs present in organisms as distantly related as plants.

Genus and species Common name Class Accession Percent identity
Otolemur garnettii Bush baby Mammalia XP_003791028.1 91%
Vicugna pacos Alpaca Mammalia XP_006198896.1 92%
Mus musculus Mouse Mammalia NP_659043.1 90%
Trichechus manatus latirostris West Indian manatee Mammalia XP_004375949.1 89%
Canis lupus familiaris Dog Mammalia NP_001274088.1 89%
Myotis davidii Mouse-eared bat Mammalia XP_006761379.1 80%
Pelodiscus sinensis Chinese softshell turtle Sauropsida XP_006118107.1 71%
Alligator sinensis Chinese alligator Reptilia XP_006016630.1 70%
Ficedula albicollis Collared flycatcher Aves XP_005043078.1 69%
Gallus gallus Red junglefowl Aves XP_419384.3 68%
Xenopus tropicalis Western clawed frog Amphibia NP_001072343.1 65%
Ictalurus punctatus Channel catfish Actinopterygii AHH42519.1 54%
Culex quinquefasciatus Southern house mosquito Insecta XP_001861445.1 34%
Clonorchis sinensis Chinese liver fluke Trematoda GAA53916.1 23%
Oryza sativa Asian rice Liliopsida NP_001065504.1 20%

References

  1. ^ GRCh38: Ensembl release 89: ENSG00000196187Ensembl, May 2017
  2. ^ GRCm38: Ensembl release 89: ENSMUSG00000026519Ensembl, May 2017
  3. "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. Nagase T, Ishikawa K, Suyama M, Kikuno R, Miyajima N, Tanaka A, Kotani H, Nomura N, Ohara O (Apr 1999). "Prediction of the coding sequences of unidentified human genes. XI. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro". DNA Res. 5 (5): 277–86. doi:10.1093/dnares/5.5.277. PMID 9872452.
  6. Seki N, Ohira M, Nagase T, Ishikawa K, Miyajima N, Nakajima D, Nomura N, Ohara O (Feb 1998). "Characterization of cDNA clones in size-fractionated cDNA libraries from human brain". DNA Res. 4 (5): 345–9. doi:10.1093/dnares/4.5.345. PMID 9455484.
  7. ^ "Entrez Gene: TMEM63A transmembrane protein 63A".
  8. ^ "TMEM63A Analysis". Biology Workbench. San Diego Supercomputing Center- University of California San Diego. Retrieved 8 May 2014.
  9. Schroder BA, Wrocklage C, Hasilik A, Saftig P (19 October 2010). "The Proteome of Lysosomes". Proteomics. 10 (22): 4053–4076. doi:10.1002/pmic.201000196. PMID 20957757. S2CID 25869334.
  10. Schroder BA, Wrocklage C, Pan C, Jager R, Kosters B, Schafer H, Elsasser HP, Mann M, Hasilik A (28 August 2007). "Integral and Associated Lysosomal Membrane Proteins". Traffic. 8 (12): 1676–1686. doi:10.1111/j.1600-0854.2007.00643.x. PMID 17897319.
  11. ^ "BioGPS: TMEM63A". Retrieved 12 May 2014.
  12. "Ensembl: TMEM63A". Retrieved 8 May 2014.
  13. ^ "El Dorado". Genomatix. Retrieved 17 April 2014.
  14. ^ "GDS596/214833_at/TMEM63A". NCBI.
  15. "TargetScanHuman 6.2". Whitehead Institute for Biomedical Research. Retrieved 23 April 2014.
  16. ^ Marchler-Bauer A, et al. (2011). "CDD: A Conserved Domain Database for the functional annotation of proteins". Nucleic Acids Res. 39 (D): 225–229. doi:10.1093/nar/gkq1189. PMC 3013737. PMID 21109532.
  17. "O94886 (TM63A_HUMAN)". UniProtKB. Retrieved 5 May 2014.
  18. Gupta R, Jung E, Brunak S (2004). "Prediction of N-glycosylation sites in human proteins". {{cite journal}}: Cite journal requires |journal= (help)
  19. Blorn N, Gammeltoft S, Brunak S (1999). "Sequence- and structure-based prediction of eukaryotic protein phosphorylation sites". Journal of Molecular Biology. 294 (5): 1351–1362. doi:10.1006/jmbi.1999.3310. PMID 10600390.
  20. "GeneCards". Weizmann Institute of Science. Retrieved 16 May 2014.
  21. "String Database". Retrieved 16 May 2014.
  22. Bonnet E, Tatari M, Joshi A, et al. (2010). "Module network inference from a cancer gene expression data set identifies microRNA regulated modules". PLOS ONE. 5 (4): e10162. Bibcode:2010PLoSO...510162B. doi:10.1371/journal.pone.0010162. PMC 2854686. PMID 20418949.
  23. Hofstetter JR, Hitzemann RJ, Belknap JK, Walter NA, McWeeney SK, Mayeda AR (2008). "Characterization of the quantitative trait locus for haloperidol-induced catalepsy on distal mouse chromosome 1". Genes, Brain and Behavior. 7 (2): 214–223. doi:10.1111/j.1601-183x.2007.00340.x. PMID 17696997.
  24. Altschul SF, Gish W, Miller W, Myers EW, Lipman DJ (October 1990). "Basic local alignment search tool". J. Mol. Biol. 215 (3): 403–10. doi:10.1016/S0022-2836(05)80360-2. PMID 2231712. S2CID 14441902.

Further reading

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