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Download The solid- phase synthesis of nucleic acids
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The solid- phase synthesis of nucleic acids Prepared by Mary Naluguza Definition Solid-phase synthesis of nucleic acids is an automated method in which molecules are bound on a bead and synthesized step-by-step in a reactant solution. This idea was first developed by Bruce Merrifield who synthesized polypeptides and earned him the Nobel Prize in 1984. Principle DNA strands can be synthesised by the sequential addition of activated monomers to the growing chain that is linked to an insoluble (solid) support. The chain is synthesized in 3' to 5' direction. Activated monomers are the protonated deoxribonucleoside 3’-phospharamidites. Activated monomer Description of protocol Step 1 (coupling) The 3’- phosphorus atom of this incoming unit becomes joined to the 5’- oxygen atom of the growing chain to form a phosphite trimester atom of the activated monomer. The 5’- OH group of the activated monomer is unreactive because it is blocked by a dimethoxytriyl (DMT) protecting group, and the 3’- phosphoryl group is rendered unreactive by attachment of the β- cyanoethyl (βCE) group. Likewise, the amino group on the purine and pyrimidine bases are blocked. Coupling is carried out under anhydrous conditions because water reacts with phosphoramidites. Solid- phase synthesis of DNA chain by the phosphite triester method Description of protocol continued…….. Step 2 (oxidation) The phosphite triester (in which P is trivalent) is oxidised by iodine to form a phosphotriester (in which P is pentavalent). Step 3 (deprotection) The DMT protecting group on 5’-OH group of the growing chain is removed by the addition of dichloroacetic acid, which leaves other protecting groups intact. The DNA chain is now elongated by one unit and ready for another cycle of addition. (i.e. ready to react with another incoming activated monomer) Removal of protecting group -At the end of the synthesis, NH3 is added to remove all the protecting groups and release the oligonucleotides from the solid support. -The sample can then be purified by highpressure liquid chromatography or electrophoresis on polyacryamide gels. -Each cycle takes only about 10 times and usually elongates more than 99% of the chains. Applications • Synthesis of new tailor- made genes. New proteins with novel properties can now be produced in abundance by expression of synthetic genes. • Synthesis of interferons that have antiviral activity and ribonuclease that is catalytically active. • PCR amplifications • Manipulation of gene fragments • Gene fragment and total gene synthesis • Primers for radioactive labelling • Hybridisation: “fishing” in libraries with probes Conclusion This method has the advantage of washing away all the soluble impurities without loosing any product. This is because the growing nucleotides is attached to an insoluble support. Thus, this method has the ability of rapidly synthesising DNA chains and this has opened many experimental avenues.
