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Though the majority of product will be the desired sequence, standard desalt oligos will contain a heterogeneous population of sequences, and this heterogeneity will increase with increasing length of the oligo. Oligos are synthesized 3'->5', base by base, through a series of chemical reactions. Chemical reactions are rarely, if ever, 100% efficient; the coupling reaction itself is approximately 99.6% efficient. With each base addition, less than 1% of the growing oligonucleotide chains will not undergo base extension.
After base coupling, we perform a capping step to prevent any truncated molecules from participating in further base addition. Because the capping reaction is slightly less than 100% efficient, a very small percentage of the truncated mutants will remain uncapped and can react during subsequent couplings steps. This leads to the formation of deletion mutants. The resulting oligonucleotide preparation, while comprised mostly of the ordered sequence, is a mixture of the full length oligos, truncated sequences, and sequences with internal deletions.
For exceptionally long oligos, such as our Ultramer™ Oligonucleotides and xGen™ Hyb Panels, IDT uses a proprietary IDT Ultramer synthesis process, which has been designed to give a high coupling efficiency (99.6%). This high coupling rate helps to allow us to synthesize long oligos (xGen Custom Hyb Panels are 60–120 bases long) with a high percentage of full-length product.
For research use only. Not for use in diagnostic procedures. Unless otherwise agreed to in writing, IDT does not intend for these products to be used in clinical applications and does not warrant their fitness or suitability for any clinical diagnostic use. Purchaser is solely responsible for all decisions regarding the use of these products and any associated regulatory or legal obligations.