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Poly(A)-specific ribonuclease

March 20, 2024

"PARN" redirects here. For the surname, see Pärn.

Poly(A)-specific ribonuclease (PARN), also known as polyadenylate-specific ribonuclease or deadenylating nuclease (DAN), is an enzyme that in humans is encoded by the PARN gene.[5][6]

PARN
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
AliasesPARN, DAN, DKCB6, PFBMFT4, Poly(A)-specific ribonuclease
External IDsOMIM: 604212 MGI: 1921358 HomoloGene: 31098 GeneCards: PARN
Orthologs
SpeciesHumanMouse
Entrez

5073

74108

Ensembl

ENSG00000140694
ENSG00000274829

ENSMUSG00000022685

UniProt

O95453

Q8VDG3

RefSeq (mRNA)

NM_001134477
NM_001242992
NM_002582

NM_028761
NM_001358452
NM_001358453

RefSeq (protein)

NP_001127949
NP_001229921
NP_002573

NP_083037
NP_001345381
NP_001345382

Location (UCSC)Chr 16: 14.44 – 14.63 MbChr 16: 13.36 – 13.49 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Function edit

Exonucleolytic degradation of the poly(A) tail is often the first step in the decay of eukaryotic mRNAs. The amino acid sequence of poly(A)-specific ribonuclease shows homology to the RNase D family of 3'-exonucleases. The protein appears to be localized in both the nucleus and the cytoplasm. It is not stably associated with polysomes or ribosomal subunits.[6] Hereditary mutations in PARN lead to the bone marrow failure disease dyskeratosis congenita which is caused by defective telomerase RNA processing and degradation in patients.[7][8][9][10][11][12][13]

References edit

  1. ^ a b c ENSG00000274829 GRCh38: Ensembl release 89: ENSG00000140694, ENSG00000274829 - Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000022685 - Ensembl, 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. ^ Buiting K, Körner C, Ulrich B, Wahle E, Horsthemke B (May 2000). "The human gene for the poly(A)-specific ribonuclease (PARN) maps to 16p13 and has a truncated copy in the Prader-Willi/Angelman region on 15q11→q13". Cytogenetics and Cell Genetics. 87 (1–2): 125–31. doi:10.1159/000015378. PMID 10640832. S2CID 28498478.
  6. ^ a b "Entrez Gene: PARN poly(A)-specific ribonuclease (deadenylation nuclease)".
  7. ^ Tummala H, Walne A, Collopy L, Cardoso S, de la Fuente J, Lawson S, Powell J, Cooper N, Foster A, Mohammed S, Plagnol V, Vulliamy T, Dokal I (May 2015). "Poly(A)-specific ribonuclease deficiency impacts telomere biology and causes dyskeratosis congenita". The Journal of Clinical Investigation. 125 (5): 2151–60. doi:10.1172/JCI78963. PMC 4463202. PMID 25893599.
  8. ^ Dhanraj S, Gunja SM, Deveau AP, Nissbeck M, Boonyawat B, Coombs AJ, Renieri A, Mucciolo M, Marozza A, Buoni S, Turner L, Li H, Jarrar A, Sabanayagam M, Kirby M, Shago M, Pinto D, Berman JN, Scherer SW, Virtanen A, Dror Y (November 2015). "Bone marrow failure and developmental delay caused by mutations in poly(A)-specific ribonuclease (PARN)". Journal of Medical Genetics. 52 (11): 738–48. doi:10.1136/jmedgenet-2015-103292. PMID 26342108. S2CID 19822046.
  9. ^ Stuart BD, Choi J, Zaidi S, Xing C, Holohan B, Chen R, Choi M, Dharwadkar P, Torres F, Girod CE, Weissler J, Fitzgerald J, Kershaw C, Klesney-Tait J, Mageto Y, Shay JW, Ji W, Bilguvar K, Mane S, Lifton RP, Garcia CK (May 2015). "Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening". Nature Genetics. 47 (5): 512–7. doi:10.1038/ng.3278. PMC 4414891. PMID 25848748.
  10. ^ Shukla S, Schmidt JC, Goldfarb KC, Cech TR, Parker R (April 2016). "Inhibition of telomerase RNA decay rescues telomerase deficiency caused by dyskerin or PARN defects". Nature Structural & Molecular Biology. 23 (4): 286–92. doi:10.1038/nsmb.3184. PMC 4830462. PMID 26950371.
  11. ^ Tseng CK, Wang HF, Burns AM, Schroeder MR, Gaspari M, Baumann P (December 2015). "Human Telomerase RNA Processing and Quality Control". Cell Reports. 13 (10): 2232–43. doi:10.1016/j.celrep.2015.10.075. PMID 26628367.
  12. ^ Nguyen D, Grenier St-Sauveur V, Bergeron D, Dupuis-Sandoval F, Scott MS, Bachand F (December 2015). "A Polyadenylation-Dependent 3' End Maturation Pathway Is Required for the Synthesis of the Human Telomerase RNA". Cell Reports. 13 (10): 2244–57. doi:10.1016/j.celrep.2015.11.003. PMID 26628368.
  13. ^ Moon DH, Segal M, Boyraz B, Guinan E, Hofmann I, Cahan P, Tai AK, Agarwal S (December 2015). "Poly(A)-specific ribonuclease (PARN) mediates 3'-end maturation of the telomerase RNA component". Nature Genetics. 47 (12): 1482–8. doi:10.1038/ng.3423. PMC 4791094. PMID 26482878.

Further reading edit

  • Körner CG, Wahle E (April 1997). "Poly(A) tail shortening by a mammalian poly(A)-specific 3'-exoribonuclease". The Journal of Biological Chemistry. 272 (16): 10448–56. doi:10.1074/jbc.272.16.10448. PMID 9099687.
  • Körner CG, Wormington M, Muckenthaler M, Schneider S, Dehlin E, Wahle E (September 1998). "The deadenylating nuclease (DAN) is involved in poly(A) tail removal during the meiotic maturation of Xenopus oocytes". The EMBO Journal. 17 (18): 5427–37. doi:10.1093/emboj/17.18.5427. PMC 1170868. PMID 9736620.
  • Dehlin E, Wormington M, Körner CG, Wahle E (March 2000). "Cap-dependent deadenylation of mRNA". The EMBO Journal. 19 (5): 1079–86. doi:10.1093/emboj/19.5.1079. PMC 305646. PMID 10698948.
  • Martinez J, Ren YG, Thuresson AC, Hellman U, Astrom J, Virtanen A (August 2000). "A 54-kDa fragment of the Poly(A)-specific ribonuclease is an oligomeric, processive, and cap-interacting Poly(A)-specific 3' exonuclease". The Journal of Biological Chemistry. 275 (31): 24222–30. doi:10.1074/jbc.M001705200. PMID 10801819.
  • Gao M, Fritz DT, Ford LP, Wilusz J (March 2000). "Interaction between a poly(A)-specific ribonuclease and the 5' cap influences mRNA deadenylation rates in vitro". Molecular Cell. 5 (3): 479–88. doi:10.1016/S1097-2765(00)80442-6. PMC 2811581. PMID 10882133.
  • Gao M, Wilusz CJ, Peltz SW, Wilusz J (March 2001). "A novel mRNA-decapping activity in HeLa cytoplasmic extracts is regulated by AU-rich elements". The EMBO Journal. 20 (5): 1134–43. doi:10.1093/emboj/20.5.1134. PMC 145468. PMID 11230136.
  • Martînez J, Ren YG, Nilsson P, Ehrenberg M, Virtanen A (July 2001). "The mRNA cap structure stimulates rate of poly(A) removal and amplifies processivity of degradation". The Journal of Biological Chemistry. 276 (30): 27923–9. doi:10.1074/jbc.M102270200. PMID 11359775.
  • Copeland PR, Wormington M (June 2001). "The mechanism and regulation of deadenylation: identification and characterization of Xenopus PARN". RNA. 7 (6): 875–86. doi:10.1017/S1355838201010020. PMC 1370141. PMID 11424938.
  • Chen CY, Gherzi R, Ong SE, Chan EL, Raijmakers R, Pruijn GJ, Stoecklin G, Moroni C, Mann M, Karin M (November 2001). "AU binding proteins recruit the exosome to degrade ARE-containing mRNAs". Cell. 107 (4): 451–64. doi:10.1016/S0092-8674(01)00578-5. PMID 11719186. S2CID 14817671.
  • Ren YG, Martínez J, Virtanen A (February 2002). "Identification of the active site of poly(A)-specific ribonuclease by site-directed mutagenesis and Fe(2+)-mediated cleavage". The Journal of Biological Chemistry. 277 (8): 5982–7. doi:10.1074/jbc.M111515200. PMID 11742007.
  • Andersen JS, Lyon CE, Fox AH, Leung AK, Lam YW, Steen H, Mann M, Lamond AI (January 2002). "Directed proteomic analysis of the human nucleolus". Current Biology. 12 (1): 1–11. doi:10.1016/S0960-9822(01)00650-9. PMID 11790298. S2CID 14132033.
  • Scherl A, Couté Y, Déon C, Callé A, Kindbeiter K, Sanchez JC, Greco A, Hochstrasser D, Diaz JJ (November 2002). "Functional proteomic analysis of human nucleolus". Molecular Biology of the Cell. 13 (11): 4100–9. doi:10.1091/mbc.E02-05-0271. PMC 133617. PMID 12429849.
  • Lai WS, Kennington EA, Blackshear PJ (June 2003). "Tristetraprolin and its family members can promote the cell-free deadenylation of AU-rich element-containing mRNAs by poly(A) ribonuclease". Molecular and Cellular Biology. 23 (11): 3798–812. doi:10.1128/MCB.23.11.3798-3812.2003. PMC 155217. PMID 12748283.
  • Lejeune F, Li X, Maquat LE (September 2003). "Nonsense-mediated mRNA decay in mammalian cells involves decapping, deadenylating, and exonucleolytic activities". Molecular Cell. 12 (3): 675–87. doi:10.1016/S1097-2765(03)00349-6. PMID 14527413.
  • Gherzi R, Lee KY, Briata P, Wegmüller D, Moroni C, Karin M, Chen CY (June 2004). "A KH domain RNA binding protein, KSRP, promotes ARE-directed mRNA turnover by recruiting the degradation machinery". Molecular Cell. 14 (5): 571–83. doi:10.1016/j.molcel.2004.05.002. PMID 15175153.
  • Lehner B, Sanderson CM (July 2004). "A protein interaction framework for human mRNA degradation". Genome Research. 14 (7): 1315–23. doi:10.1101/gr.2122004. PMC 442147. PMID 15231747.
  • Ren YG, Kirsebom LA, Virtanen A (November 2004). "Coordination of divalent metal ions in the active site of poly(A)-specific ribonuclease". The Journal of Biological Chemistry. 279 (47): 48702–6. doi:10.1074/jbc.M403858200. PMID 15358788.


 

This article on a gene on human chromosome 16 is a stub. You can help Wikipedia by expanding it.

March 20, 2024
poly, specific, ribonuclease, parn, redirects, here, surname, pärn, parn, also, known, polyadenylate, specific, ribonuclease, deadenylating, nuclease, enzyme, that, humans, encoded, parn, gene, parnavailable, structurespdbortholog, search, pdbe, rcsblist, code. PARN redirects here For the surname see Parn Poly A specific ribonuclease PARN also known as polyadenylate specific ribonuclease or deadenylating nuclease DAN is an enzyme that in humans is encoded by the PARN gene 5 6 PARNAvailable structuresPDBOrtholog search PDBe RCSBList of PDB id codes2A1R 2A1S 3CTRIdentifiersAliasesPARN DAN DKCB6 PFBMFT4 Poly A specific ribonucleaseExternal IDsOMIM 604212 MGI 1921358 HomoloGene 31098 GeneCards PARNGene location Human Chr Chromosome 16 human 1 Band16p13 12Start14 435 700 bp 1 End14 632 728 bp 1 Gene location Mouse Chr Chromosome 16 mouse 2 Band16 16 A1Start13 355 824 bp 2 End13 486 034 bp 2 RNA expression patternBgeeHumanMouse ortholog Top expressed inAchilles tendoncorpus callosumthymusbone marrow cellssmooth muscle tissueislet of Langerhansurinary bladderrectumpopliteal arteryplacentaTop expressed inaortic valveascending aortarenal corpusclemedullary collecting ductPaneth cellsacculeectodermotic placodeprimitive streakcondyleMore reference expression dataBioGPSMore reference expression dataGene ontologyMolecular functionmetal ion binding mRNA 3 UTR binding protein binding nucleic acid binding nuclease activity exonuclease activity hydrolase activity protein kinase binding cation binding RNA binding poly A specific ribonuclease activity telomerase RNA binding 3 5 exoribonuclease activityCellular componentcytoplasm cytosol nucleolus nucleusBiological processmRNA catabolic process female gamete generation regulation of mRNA stability RNA modification nuclear transcribed mRNA catabolic process nonsense mediated decay nuclear transcribed mRNA poly A tail shortening RNA phosphodiester bond hydrolysis exonucleolytic telomerase RNA stabilization positive regulation of telomere maintenance via telomerase positive regulation of telomerase activity regulation of telomerase RNA localization to Cajal body ncRNA deadenylation box H ACA RNA 3 end processing miRNA catabolic process polyadenylation dependent snoRNA 3 end processingSources Amigo QuickGOOrthologsSpeciesHumanMouseEntrez507374108EnsemblENSG00000140694ENSG00000274829ENSMUSG00000022685UniProtO95453Q8VDG3RefSeq mRNA NM 001134477NM 001242992NM 002582NM 028761NM 001358452NM 001358453RefSeq protein NP 001127949NP 001229921NP 002573NP 083037NP 001345381NP 001345382Location UCSC Chr 16 14 44 14 63 MbChr 16 13 36 13 49 MbPubMed search 3 4 WikidataView Edit HumanView Edit MouseFunction editExonucleolytic degradation of the poly A tail is often the first step in the decay of eukaryotic mRNAs The amino acid sequence of poly A specific ribonuclease shows homology to the RNase D family of 3 exonucleases The protein appears to be localized in both the nucleus and the cytoplasm It is not stably associated with polysomes or ribosomal subunits 6 Hereditary mutations in PARN lead to the bone marrow failure disease dyskeratosis congenita which is caused by defective telomerase RNA processing and degradation in patients 7 8 9 10 11 12 13 References edit a b c ENSG00000274829 GRCh38 Ensembl release 89 ENSG00000140694 ENSG00000274829 Ensembl May 2017 a b c GRCm38 Ensembl release 89 ENSMUSG00000022685 Ensembl May 2017 Human PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Mouse PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Buiting K Korner C Ulrich B Wahle E Horsthemke B May 2000 The human gene for the poly A specific ribonuclease PARN maps to 16p13 and has a truncated copy in the Prader Willi Angelman region on 15q11 q13 Cytogenetics and Cell Genetics 87 1 2 125 31 doi 10 1159 000015378 PMID 10640832 S2CID 28498478 a b Entrez Gene PARN poly A specific ribonuclease deadenylation nuclease Tummala H Walne A Collopy L Cardoso S de la Fuente J Lawson S Powell J Cooper N Foster A Mohammed S Plagnol V Vulliamy T Dokal I May 2015 Poly A specific ribonuclease deficiency impacts telomere biology and causes dyskeratosis congenita The Journal of Clinical Investigation 125 5 2151 60 doi 10 1172 JCI78963 PMC 4463202 PMID 25893599 Dhanraj S Gunja SM Deveau AP Nissbeck M Boonyawat B Coombs AJ Renieri A Mucciolo M Marozza A Buoni S Turner L Li H Jarrar A Sabanayagam M Kirby M Shago M Pinto D Berman JN Scherer SW Virtanen A Dror Y November 2015 Bone marrow failure and developmental delay caused by mutations in poly A specific ribonuclease PARN Journal of Medical Genetics 52 11 738 48 doi 10 1136 jmedgenet 2015 103292 PMID 26342108 S2CID 19822046 Stuart BD Choi J Zaidi S Xing C Holohan B Chen R Choi M Dharwadkar P Torres F Girod CE Weissler J Fitzgerald J Kershaw C Klesney Tait J Mageto Y Shay JW Ji W Bilguvar K Mane S Lifton RP Garcia CK May 2015 Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening Nature Genetics 47 5 512 7 doi 10 1038 ng 3278 PMC 4414891 PMID 25848748 Shukla S Schmidt JC Goldfarb KC Cech TR Parker R April 2016 Inhibition of telomerase RNA decay rescues telomerase deficiency caused by dyskerin or PARN defects Nature Structural amp Molecular Biology 23 4 286 92 doi 10 1038 nsmb 3184 PMC 4830462 PMID 26950371 Tseng CK Wang HF Burns AM Schroeder MR Gaspari M Baumann P December 2015 Human Telomerase RNA Processing and Quality Control Cell Reports 13 10 2232 43 doi 10 1016 j celrep 2015 10 075 PMID 26628367 Nguyen D Grenier St Sauveur V Bergeron D Dupuis Sandoval F Scott MS Bachand F December 2015 A Polyadenylation Dependent 3 End Maturation Pathway Is Required for the Synthesis of the Human Telomerase RNA Cell Reports 13 10 2244 57 doi 10 1016 j celrep 2015 11 003 PMID 26628368 Moon DH Segal M Boyraz B Guinan E Hofmann I Cahan P Tai AK Agarwal S December 2015 Poly A specific ribonuclease PARN mediates 3 end maturation of the telomerase RNA component Nature Genetics 47 12 1482 8 doi 10 1038 ng 3423 PMC 4791094 PMID 26482878 Further reading editKorner CG Wahle E April 1997 Poly A tail shortening by a mammalian poly A specific 3 exoribonuclease The Journal of Biological Chemistry 272 16 10448 56 doi 10 1074 jbc 272 16 10448 PMID 9099687 Korner CG Wormington M Muckenthaler M Schneider S Dehlin E Wahle E September 1998 The deadenylating nuclease DAN is involved in poly A tail removal during the meiotic maturation of Xenopus oocytes The EMBO Journal 17 18 5427 37 doi 10 1093 emboj 17 18 5427 PMC 1170868 PMID 9736620 Dehlin E Wormington M Korner CG Wahle E March 2000 Cap dependent deadenylation of mRNA The EMBO Journal 19 5 1079 86 doi 10 1093 emboj 19 5 1079 PMC 305646 PMID 10698948 Martinez J Ren YG Thuresson AC Hellman U Astrom J Virtanen A August 2000 A 54 kDa fragment of the Poly A specific ribonuclease is an oligomeric processive and cap interacting Poly A specific 3 exonuclease The Journal of Biological Chemistry 275 31 24222 30 doi 10 1074 jbc M001705200 PMID 10801819 Gao M Fritz DT Ford LP Wilusz J March 2000 Interaction between a poly A specific ribonuclease and the 5 cap influences mRNA deadenylation rates in vitro Molecular Cell 5 3 479 88 doi 10 1016 S1097 2765 00 80442 6 PMC 2811581 PMID 10882133 Gao M Wilusz CJ Peltz SW Wilusz J March 2001 A novel mRNA decapping activity in HeLa cytoplasmic extracts is regulated by AU rich elements The EMBO Journal 20 5 1134 43 doi 10 1093 emboj 20 5 1134 PMC 145468 PMID 11230136 Martinez J Ren YG Nilsson P Ehrenberg M Virtanen A July 2001 The mRNA cap structure stimulates rate of poly A removal and amplifies processivity of degradation The Journal of Biological Chemistry 276 30 27923 9 doi 10 1074 jbc M102270200 PMID 11359775 Copeland PR Wormington M June 2001 The mechanism and regulation of deadenylation identification and characterization of Xenopus PARN RNA 7 6 875 86 doi 10 1017 S1355838201010020 PMC 1370141 PMID 11424938 Chen CY Gherzi R Ong SE Chan EL Raijmakers R Pruijn GJ Stoecklin G Moroni C Mann M Karin M November 2001 AU binding proteins recruit the exosome to degrade ARE containing mRNAs Cell 107 4 451 64 doi 10 1016 S0092 8674 01 00578 5 PMID 11719186 S2CID 14817671 Ren YG Martinez J Virtanen A February 2002 Identification of the active site of poly A specific ribonuclease by site directed mutagenesis and Fe 2 mediated cleavage The Journal of Biological Chemistry 277 8 5982 7 doi 10 1074 jbc M111515200 PMID 11742007 Andersen JS Lyon CE Fox AH Leung AK Lam YW Steen H Mann M Lamond AI January 2002 Directed proteomic analysis of the human nucleolus Current Biology 12 1 1 11 doi 10 1016 S0960 9822 01 00650 9 PMID 11790298 S2CID 14132033 Scherl A Coute Y Deon C Calle A Kindbeiter K Sanchez JC Greco A Hochstrasser D Diaz JJ November 2002 Functional proteomic analysis of human nucleolus Molecular Biology of the Cell 13 11 4100 9 doi 10 1091 mbc E02 05 0271 PMC 133617 PMID 12429849 Lai WS Kennington EA Blackshear PJ June 2003 Tristetraprolin and its family members can promote the cell free deadenylation of AU rich element containing mRNAs by poly A ribonuclease Molecular and Cellular Biology 23 11 3798 812 doi 10 1128 MCB 23 11 3798 3812 2003 PMC 155217 PMID 12748283 Lejeune F Li X Maquat LE September 2003 Nonsense mediated mRNA decay in mammalian cells involves decapping deadenylating and exonucleolytic activities Molecular Cell 12 3 675 87 doi 10 1016 S1097 2765 03 00349 6 PMID 14527413 Gherzi R Lee KY Briata P Wegmuller D Moroni C Karin M Chen CY June 2004 A KH domain RNA binding protein KSRP promotes ARE directed mRNA turnover by recruiting the degradation machinery Molecular Cell 14 5 571 83 doi 10 1016 j molcel 2004 05 002 PMID 15175153 Lehner B Sanderson CM July 2004 A protein interaction framework for human mRNA degradation Genome Research 14 7 1315 23 doi 10 1101 gr 2122004 PMC 442147 PMID 15231747 Ren YG Kirsebom LA Virtanen A November 2004 Coordination of divalent metal ions in the active site of poly A specific ribonuclease The Journal of Biological Chemistry 279 47 48702 6 doi 10 1074 jbc M403858200 PMID 15358788 Portal nbsp Biology nbsp This article on a gene on human chromosome 16 is a stub You 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