C11orf52 Explained

C11orf52 is an uncharacterized protein that in homo sapiens is encoded by the C11orf52 gene.

Gene

Location

C11orf52 is located on chromosome 11 at 11q23.1, starting at 111908620 and ending at 112064278.[1] C11orf52 spans 155658 base pairs and is orientated on the positive strand. Gene C11orf52 has a molecular weight of 14kDa and is a protein coding gene of 7,995 bp containing four exons. The coding region is made up of 1,168 bp.[2]

Gene neighborhood

Genes HSPB2, CRYAB, OLAT, and PPIHP1 neighbor C11orf52 on chromosome 11.

Expression

C11orf52 is highly expressed in the thyroid, thalmus, pituitary, placenta, and prostate, kidney, heart, and skeletal muscles.[3] However, in estrogen receptor alpha-silenced MCF-7 breast cancer cells, it is expressed at an extremely low level compared to control tissues.[4]

Transcript

There is only one variant of C11orf52 RNA. The mRNA sequence is 1,140 base pairs long. There is an upstream stop codon located at nucleotides 65 – 67. The 23rd amino acid varies between threonine and arginine.

Protein

The 123 amino acid chain is a domain of unknown function.[5] It has a molecular weight of 13,9 kDal and a predicted Isoelectric Point of 9.74 C11orf52 is predicted to be targeted to the nucleus. There are no isoforms of the protein encoded by C11orf52.

Structure

The LYS19-22 region is an external domain of the protein structure.

Homology

Orthologs

There is only one member of the C11orf52 gene family and no splice isoforms can be found going back to Geospiza fortis - the most distantly related to Homo Sapiens C11orf52 sequence. Gene duplication first occurred approximately 324.5 million years ago in reptiles and birds. There are no paralogs for the C11orf52 gene.

SpeciesCommon NameAccession #Sequence LengthmRNA Identity %Sequence Similarity %
Homo sapiensHumanNP_542390.2123100100
Black-Capped Squirrel MonkeyXP_010332875.11268789
Equus caballusHorseXP_001916914.11248282
Oryctolagus cuniculusEuropean RabbitXP_002708495.11267583
Erinaceus europaeusEuropean HedgehogXP_007539796.11245969
Leptonychotes weddelliiWeddell SealXP_006733365.11304859
Pelodiscus sinensisChinese Softshell TurtleXP_006111270.11234459
Anolis carolinensisCarolina AnoleXP_008119278.11254257
Alligator mississippiensisAmerican AlligatorXP_006271409.11183954
Python bivittatusBurmese PythonXP_007422684.11603859
Haliaeetus albicillaWhite-Tailed EagleXP_009915555.11184660
Pseudopodoces humilisGround TitXP_005531117.11184658
Cariama cristataRed-legged Seriema XP_009702852.11184458
Apaloderma vittatumBar-tailed TrogonXP_009868605.11184459
Anas platyrhynchosMallardXP_005030930.11394358
Tinamus guttatusWhite-throated tinamouXP_010217725.11184257
Ficedula albicollisCollared FlycatcherXP_005058859.11223852
Geospiza fortisMedium Ground FinchXP_005427571.11173652

Clinical significance

Unusual DNA methylation in the C11orf52 gene in some children can be attributed to prenatal smoke exposure.[6]

C11orf52 may also play a role in lung cancer. C11orf52 is expressed in the lungs and has been associated with increased phosphorylation in cell lung cancer tumors. There is evidence that phosphorylation mechanisms exist which enhance proteins and pathways which should have inhibited phosphorylation in order to prevent extreme proliferation. C11orf52 is one gene where the phosphorylation is significantly different between the cancerous cells and normal tissue.[7]

Further reading

Notes and References

  1. Web site: NCBI. www.ncbi.nlm.nih.gov. 2015-05-08.
  2. Web site: Human hg19 chr11:111,789,601-111,797,595 UCSC Genome Browser v384.
  3. Web site: AceView: Gene:HSPB2andC11orf52, a comprehensive annotation of human, mouse and worm genes with mRNAs or ESTsAceView.
  4. Web site: NCBI. www.ncbi.nlm.nih.gov. 2015-05-08.
  5. Web site: NCBI. www.ncbi.nlm.nih.gov. 2015-05-08.
  6. Nielsen CH, Larsen A, Nielsen AL . DNA methylation alterations in response to prenatal exposure of maternal cigarette smoking: A persistent epigenetic impact on health from maternal lifestyle? . Archives of Toxicology . 90 . 2 . 231–45 . February 2016 . 25480659 . 10.1007/s00204-014-1426-0 . 15196038 .
  7. Wu CJ, Cai T, Rikova K, Merberg D, Kasif S, Steffen M . A predictive phosphorylation signature of lung cancer . PLOS ONE . 4 . 11 . e7994 . November 2009 . 19946374 . 2777383 . 10.1371/journal.pone.0007994 . 2009PLoSO...4.7994W . free .