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Efficient C2'alpha-hydroxylation of deoxyribose in protein-induced Z-form DNA

Overview of Oyoshi T et al.

AuthorsOyoshi T  Kawai K  Sugiyama H  
AffiliationDivision of Biofunctional Molecules   Institute of Biomaterials and Bioengineering   Tokyo Medical and Dental University   2-3-10 Surugadai   Kanda   Chiyoda   Tokyo 101-0062   Japan.  
JournalJ Am Chem Soc
Year 2003

Abstract


DNA local conformations are thought to play an important biological role in processes such as gene expression by altering DNA-protein interactions. Although left-handed Z-form DNA is one of the best-characterized and significant local structures of DNA, having been extensively investigated for more than two decades, the biological relevance of Z-form DNA remains unclear. This is presumably due to the lack of a versatile detection method in a living cell. Previously, we demonstrated that the incorporation of a methyl group at the guanine C8 position (m(8)G) dramatically stabilizes the Z-form of short oligonucleotides in a variety of sequences. To develop a photochemical method to detect Z-form DNA, we examined the photoreaction of 5-iodouracil-containing Z-form d(CGCG(I)UGCG)(ODN 1)/d(Cm(8)GCAm(8)GCG)(ODN 2) in 2 M NaCl and found stereospecific C2'alpha-hydroxylation occurred at G(4) to provide d(CGCrGUGCG), 5. Recently, Rich and co-workers [Schwartz et al. Science 1999, 284, 1841. Schwartz et al. Nat. Struct. Biol. 2001, 8, 761] found that an ubiquitous RNA editing enzyme, adenosine deaminase 1 (ADAR1), and tumor-associated protein DML-1 specifically bind to Z-form DNA. In the present study, we investigate the photoreactivity of octanucleotide ODN 1-2 in Z-form induced by Zalpha, which is the NH(2)-terminal domain of ADAR1 responsible for tight binding of ADAR1. Detailed product analysis revealed that the C2'alpha-hydroxylated products 5 and 6 produced significantly higher yields in Z-form ODN 1-2 induced by Zalpha compared with that in 2 M NaCl. Upon treatment with ribonuclease T1, 5 and 6 were quantitatively hydrolyzed at the 3'-phosphodiester bond of the rG residue to provide d(UGCG) as a common hydrolyzed fragment on the 3' side. Quantitative analysis demonstrated that the amount of photochemically formed 5 and 6 from ODN 1-2 directly correlated with the proportion of Z-form induced by Zalpha or NaCl. These results suggest that this photochemical and enzymatic procedure can be used as a specific probe for the existence of local Z-form structure in cellular DNA.