- Post-transcriptional modification
Post-transcriptional modification is a process in
cell biology by which, ineukaryotic cells , primary transcript RNA is converted into mature RNA. A notable example is the conversion ofprecursor messenger RNA into maturemessenger RNA (mRNA), which includes splicing and occurs prior toprotein synthesis . This process is vital for the correcttranslation of thegenome s of eukaryotes as the human primary RNA transcript that is produces as a result of transcription contains bothexons , which are coding sections of the primary RNA transcript andintrons , which are the non coding sections of the primary RNA transcript.Harvnb|Berg|Tymoczko|Stryer|2007|Ref=CITEREFBergTymoczkoStryer2008|p=836]mRNA processing
The pre-mRNA molecule undergoes three main modifications. These modifications are
5' cap ping, 3'polyadenylation , andRNA splicing , which occur in thecell nucleus before the RNA is translated.Harvnb|Berg|Tymoczko|Stryer|2007|Ref=CITEREFBergTymoczkoStryer2008|p=841]5' Processing
Capping
Capping of the pre-mRNA involves the addition of 7-methylguanosine (m7G) to the 5' end. In order to achieve this, the terminal 5' phosphate requires removal, which is done by the aid of a
phosphatase enzyme. The enzyme guanosyl transferase then catalyses the reaction which produces thediphosphate 5' end. The diphosphate 5' prime end then attacks the α phosphorus atom of aGTP molecule in order to add theguanine residue in a 5'5' triphosphate link. The enzymeS-adenosyl methionine then methylates the guanine ring at the N-7 position. This type of cap, with just the (m7G) in position is called a cap 0 structure. Theribose of the adjacentnucleotide may also be methylated to give a cap 1. Methylation of nucleotides downstream of the RNA molecule produce cap 2, cap 3 structures and so on. In these cases the methyl groups are added to the 2' OH groups of the ribose sugar.The cap protects the 5' end of the primary RNA transcript from attack byribonucleases that have specificity to the 3'5'phosphodiester bonds . Harvnb|Hames|Hooper|2006|Ref=CITEREFHamesHopper2008|p=221]3' Processing
Cleavage and Polyadenylation
The pre-mRNA processing at the 3' end of the RNA molecule involves cleavage of its 3' end and then the addition of about 200
adenine residues to form apoly(A) tail . The cleavage and adenylation reactions occur if a polyadenylation signal sequence (5'- AAUAAA-3') is located near the 3' end of the pre-mRNA molecule, which is followed by another sequence, which is usually (5'-CA-3'). The second signal is the site of cleavage. A GU-rich sequence is also usually present further downstream on the pre-mRNA molecule. After the synthesis of the sequence elements, two multisubunitprotien s calledcleavage and polyadenylation specificity factor (CPSF) andcleavage stimulation factor (CStF) are transferred fromRNA Polymerase II to the RNA molecule. The two factors bind to the sequence elements. A protein complex forms which contains additional cleavage factors and the enzymePolyadenylate Polymerase (PAP). This complex cleaves the RNA between the polyadenylation sequence and the GU-rich sequence at the cleavage site marked by the (5'-CA-3') sequences. Poly(A) polymerase then adds about 200 adenine units to the new 3' end of the RNA molecule usingATP as a precursor. As the poly(A) tails is synthesised, it binds multiple copies of poly(A) binding protein, which protects the 3'end from ribonuclease digestion.Harvnb|Hames|Hooper|2006|Ref=CITEREFHamesHopper2008|p=225]Splicing
RNA splicing is the process by which
intron s, regions of RNA that do not code for protein, are removed from the pre-mRNA and the remainingexon s connected to re-form a single continuous molecule. Although most RNA splicing occurs after the complete synthesis and end-capping of the pre-mRNA, transcripts with many exons can be spliced co-transcriptionally.cite book | author = Lodish HF, Berk A, Kaiser C, Krieger M, Scott MP, Bretscher A, Ploegh H, Matsudaira PT | title = Molecular Cell .Biology | publisher = WH Freeman | location = San Francisco | year = 2007 | pages = | isbn = 0-7167-7601-4 | oclc = | doi = | chapter = Chapter 8: Post-transcriptional Gene Control ] The splicing reaction is catalyzed by a large protein complex called thespliceosome assembled from proteins andsmall nuclear RNA molecules that recognizesplice site s in the pre-mRNA sequence. Many pre-mRNAs, including those encoding antibodies, can be spliced in multiple ways to produce different mature mRNAs that encode different protein sequences. This process is known asalternative splicing , and allows production of a large variety of proteins from a limited amount of DNA.Citations
References
#Harvard reference
surname1 = Berg
given1 = Jeremy M.
surname2 = Tymoczko
given2 = John L.
surname3 = Stryer
given3 = Lubert
authorlink3 = Lubert Stryer
title = Biochemistry
date = 2007
place =New York
edition = 6
publisher = WH Freeman & Co.
id = ISBN 0-71676-766-X
#Harvard reference
surname1 = Hames
given1 = David
surname2 = Hooper
given2 = Nigel
title = Instant Notes Biochemistry
date = 2006
place =Leeds
edition = 3
publisher = Taylor and Francis
id = ISBN 0-4153-6778-6ee also
*
messenger RNA
*translation
*RNA editing External links
*
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