Oligo replication advantage driven by GC content and Gibbs free energy.
Hongyan QiaoYanmin GaoQian LiuYanan WeiJiaojiao LiZhaoguan WangHao QiPublished in: Biotechnology letters (2022)
Large scale DNA oligo pools are emerging as a novel material in a variety of advanced applications. However, GC content and length cause significant bias in amplification of oligos. We systematically explored the amplification of one oligo pool comprising of over ten thousand distinct strands with moderate GC content in the range of 35-65%. Uniqual amplification of oligos result to the increased Gini index of the oligo distribution while a few oligos greatly increased their proportion after 60 cycles of PCR. However, the significantly enriched oligos all have relatively high GC content. Further thermodynamic analysis demonstrated that a high value of both GC content and Gibbs free energy could improve the replication of specific oligos during biased amplification. Therefore, this double-G (GC content and Gibbs free energy) driven replication advantage can be used as a guiding principle for the sequence design for a variety of applications, particularly for data storage.