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Nonalternating purine pyrimidine sequences can form stable left-handed DNA duplex by strong topological constraint

Lin Li, Yaping Zhang, Wanzhi Ma, Hui Chen, Mengqin Liu, Ran An, Bingxiao Cheng, Xingguo Liang

2021Nucleic Acids Research14 citationsDOIOpen Access PDF

Abstract

In vivo, left-handed DNA duplex (usually refers to Z-DNA) is mainly formed in the region of DNA with alternating purine pyrimidine (APP) sequence and plays significant biological roles. It is well known that d(CG)n sequence can form Z-DNA most easily under negative supercoil conditions, but its essence has not been well clarified. The study on sequence dependence of Z-DNA stability is very difficult without modification or inducers. Here, by the strong topological constraint caused by hybridization of two complementary short circular ssDNAs, left-handed duplex part was generated for various sequences, and their characteristics were investigated by using gel-shift after binding to specific proteins, CD and Tm analysis, and restriction enzyme cleavage. Under the strong topological constraint, non-APP sequences can also form left-handed DNA duplex as stable as that of APP sequences. As compared with non-APP sequences, the thermal stability difference for APP sequences between Z-form and B-form is smaller, which may be the reason that Z-DNA forms preferentially for APP ones. This result can help us to understand why nature selected APP sequences to regulate gene expression by transient Z-DNA formation, as well as why polymer with chirality can usually form both duplexes with left- or right-handed helix.

Topics & Concepts

BiologyDuplex (building)DNAPurineGeneticsConstraint (computer-aided design)PyrimidineLeft handedComputational biologyBiochemistryMathematicsPhysicsGeometryEnzymeOpticsDNA and Nucleic Acid ChemistryAdvanced biosensing and bioanalysis techniquesRNA and protein synthesis mechanisms