Biology:Messenger RNA decapping

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Short description: Removal of the 5' cap structure on mRNA
Schematic representation of deadenylation-independent decapping in S. cerevisiae

The process of messenger RNA decapping consists of hydrolysis of the 5' cap structure on the RNA exposing a 5' monophosphate. In eukaryotes, this 5' monophosphate is a substrate for the 5' exonuclease Xrn1[1] and the mRNA is quickly destroyed. There are many situations which may lead to the removal of the cap, some of which are discussed below.[2]

In prokaryotes, the initial mRNA transcript naturally possesses a 5'-triphosphate group after bacterial transcription; the enzyme RppH removes a pyrophosphate molecule from the 5' end, converting the 5'-triphosphate to a 5'-monophosphate, triggering mRNA degradation by ribonucleases.[3][4]

Translation and decay

Inside cells, there is a balance between the processes of translation and mRNA decay.[2] Messages which are being actively translated are bound by polysomes and the eukaryotic initiation factors eIF-4E and eIF-4G (in eukaryotes). This blocks access to the cap by the decapping enzyme DCP2 and protects the mRNA molecule. In nutrient-starvation conditions or viral infection, translation may be compromised and decapping is stimulated. This balance is reflected in the size and abundance of the cytoplasmic structures known as P-bodies.[5][6]

Specific decay pathways

A number of specific decay pathways exist that recognize aberrant messages and promote their decapping. Nonsense mediated decay recognizes premature stop codons and promotes decapping as well as decay by the exosome. Certain classes of miRNA have also been shown to stimulate decapping.

References

  1. Poole, Toni L.; Stevens, Audrey (June 1997). "Structural Modifications of RNA Influence the 5′ Exoribonucleolytic Hydrolysis by XRN1 and HKE1 ofSaccharomyces cerevisiae". Biochemical and Biophysical Research Communications 235 (3): 799–805. doi:10.1006/bbrc.1997.6877. PMID 9207242. https://zenodo.org/record/1229480. 
  2. 2.0 2.1 Meyer, Sylke; Temme, Claudia; Wahle, Elmar (January 2004). "Messenger RNA Turnover in Eukaryotes: Pathways and Enzymes". Critical Reviews in Biochemistry and Molecular Biology 39 (4): 197–216. doi:10.1080/10409230490513991. PMID 15596551. 
  3. Deana, Atilio; Celesnik, Helena; Belasco, Joel G. (17 January 2008). "The bacterial enzyme RppH triggers messenger RNA degradation by 5′ pyrophosphate removal". Nature 451 (7176): 355–358. doi:10.1038/nature06475. PMID 18202662. Bibcode2008Natur.451..355D. 
  4. Hsieh, Ping-kun; Richards, Jamie; Liu, Quansheng; Belasco, Joel G. (22 April 2013). "Specificity of RppH-dependent RNA degradation in Bacillus subtilis". Proceedings of the National Academy of Sciences 110 (22): 8864–8869. doi:10.1073/pnas.1222670110. PMID 23610425. Bibcode2013PNAS..110.8864H. 
  5. Sheth, Ujwal; Parker, Roy (2 May 2003). "Decapping and Decay of Messenger RNA Occur in Cytoplasmic Processing Bodies". Science 300 (5620): 805–808. doi:10.1126/science.1082320. PMID 12730603. Bibcode2003Sci...300..805S. 
  6. Parker, Roy; Sheth, Ujwal (March 2007). "P Bodies and the Control of mRNA Translation and Degradation". Molecular Cell 25 (5): 635–646. doi:10.1016/j.molcel.2007.02.011. PMID 17349952. 



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