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Prokaryotic mRNA degradation poses a difficulty to researchers developing mRNA vaccines. This is the case because the degradation means that mRNA is not stable, and might not deliver the vaccine effectively; [ 8 ] this problem has been combated by chemically modifying mRNA, using several different kinds of chemicals, such as lipids , lipid-like ...
The brief existence of an mRNA molecule begins with transcription, and ultimately ends in degradation. During its life, an mRNA molecule may also be processed, edited, and transported prior to translation. Eukaryotic mRNA molecules often require extensive processing and transport, while prokaryotic mRNA molecules do not.
Nonsense-mediated mRNA decay (NMD) is a surveillance pathway that exists in all eukaryotes. Its main function is to reduce errors in gene expression by eliminating mRNA transcripts that contain premature stop codons . [ 1 ]
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 ...
Both are initiated through degradation of the mRNA's poly(A) tail, resulting in removal of the mRNA's 5' cap. 5'-to-3' degradation of the transcript occurs by XRN1 exonuclease in cytoplasmic bodies called P-bodies. [19] 3'-to-5' degradation of the transcript is conducted by the exosome and Ski complex. [18]
On mRNAs, the poly(A) tail protects the mRNA molecule from enzymatic degradation in the cytoplasm and aids in transcription termination, export of the mRNA from the nucleus, and translation. [2] Almost all eukaryotic mRNAs are polyadenylated, [ 12 ] with the exception of animal replication-dependent histone mRNAs. [ 13 ]
Non-stop decay (NSD) is a cellular mechanism of mRNA surveillance to detect mRNA molecules lacking a stop codon and prevent these mRNAs from translation. The non-stop decay pathway releases ribosomes that have reached the far 3' end of an mRNA and guides the mRNA to the exosome complex, or to RNase R in bacteria for selective degradation.
One of its components is an ATP-dependent motor that is activated through protein-protein interactions and cooperates with the ribonucleases in an energy-dependent mode of RNA degradation. [5] E. coli does not have a 5'→3' degradation pathway. Its mRNA does not have 5' capped ends and there are not any 5'→3' exonucleases known.
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