Difference between revisions of "Team:Uppsala/Transcriptomics/PolyA Tailing"
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Revision as of 13:42, 15 October 2018
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Poly(A)-Tailing
Poly(A)-tails are a series of adenosine (A) nucleotides that are assembled in a string at the 3’ end of the mRNA, like a tail. Poly(A)-tails are important in the cells for both stabilising and signaling, marking the mRNA as ready to be used for different purposes. In eukaryotic cells, Poly(A)-tails are made naturally in the cell for most mRNA strands. In prokaryotes however, the tails are shorter, more uncommon, and in many cases such as in E.coli, there are no tails on most mRNA at all.
Because poly(A)-tails are a long sequence of the same nucleotide, they make good targets for primers of genes with otherwise unknown sequences. In the next step, we will be using primers that will bind to poly(A)-tails and thus, we need to synthesize them onto our RNA samples.
Experiment
The purified RNA sample retrieved from previous mRNA purification step is solved in nuclease free water and ready to use. The key reagent is the poly(A) polymerase, an enzyme that attach the adenosine nucleotides onto the mRNA that is directly added into the sample.
As you might already know no work is done for free, and that is the case for the poly(A) polymerase. Thereby ATP is added, which is an energy molecule that activates the poly(A) polymerase. The mRNA is then analyzed with gel-electrophoresis to confirm that the poly(A) tail attachment was a success.
Result
A successful poly(A) tail have a complete chain of adenosines connected to the 3’UTR of the mRNA strand. The attachment is analyzed with gel-electrophoresis and a successful attachment looks like our results in figure 1.
Figure 1: A successful poly(A) tail attachment onto the mRNA strand, where the ladder shows specific lengths of the mRNA according to the table. The longer mRNA strand you have the longer poly(A) tail you have succeeded to attach.
Buzzwords
Primers: A primer is a short sequence of DNA or RNA, that will work as a starting point for DNA synthesis. The DNA polymerase used to catalyze this process can only add new nucleotides to an already existing strand of DNA. The polymerase attaches to the primer and progressing the synthesis at the 3’end, while copying the opposite strand.
Poly(A) polymerase: Polyadenylate polymerase uses ATP to build the poly(A) tail, consisting of adenosine monophosphate. Adenosine is usually found in its triphosphate form, where the polymerase cleaving off pyrophosphate using monophosphate units to ad to the tail.
ATP: Adenosine triphosphate (ATP) is an organic chemical that is capable of providing energy to e.g. chemical reactions. When used in metabolic processes, it is converted either to adenosine diphosphate (ADP) or to adenosine monophosphate (AMP).
Gel electrophoresis: Gel electrophoresis is a analysis and separation method of macromolecules, such as DNA and RNA, and their fragments based on charge and size. When the electric field is applied the negatively charged molecules will move through a matrix of agarose. Shorter molecules migrates farther, due to the easier mobility through the pores in the matrix.