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Abstract
The Z-DNA binding domain (Zα), derived from the human RNA editing enzyme ADAR1, can induce and stabilize the Z-DNA conformation. However, the biological function of Zα/Z-DNA remains elusive. Herein, we sought to identify proteins associated with Zα to gain insight into the functional network of Zα/Z-DNA. By pull-down, biophysical and biochemical analyses, we identified a novel Zα-interacting protein, MBD3, and revealed that Zα interacted with its C-terminal acidic region, an aspartate (D)/glutamate (E)-rich domain, with high affinity. The D/E-rich domain of MBD3 may act as a DNA mimic to compete with Z-DNA for binding to Zα. Dimerization of MBD3 via intermolecular interaction of the D/E-rich domain and its N-terminal DNA binding domain, a methyl-CpG-binding domain (MBD), attenuated the high affinity interaction of Zα and the D/E-rich domain. By monitoring the conformation transition of DNA, we found that Zα could compete with the MBD domain for binding to the Z-DNA forming sequence, but not vice versa. Furthermore, co-immunoprecipitation experiments confirmed the interaction of MBD3 and ADAR1 in vivo. Our findings suggest that the interplay of Zα and MBD3 may regulate the transition of the DNA conformation between B- and Z-DNA and thereby modulate chromatin accessibility, resulting in alterations in gene expression.
Highlights
The interaction between protein and DNA is an important step for various biological processes in living cells
To understand the biological function of Z␣/Z-DNA, we sought to identify Z␣ interacting proteins using a pulldown approach combined with liquid chromatographytandem mass spectrometry (LC–MS/MS; Figure 1A)
Using a pull-down assay, we identified a novel ZDNA binding domain (Z␣)interacting protein, MBD3, and demonstrated that the D/E-rich domain of MBD3 was sufficient for the Z␣ interaction
Summary
The interaction between protein and DNA is an important step for various biological processes in living cells. The finding that the ZDNA binding domain (Z␣) is able to induce and stabilize Z-DNA conformation indicates distinct functional roles of Z-DNA in cells. Z␣ was first identified from a human RNA-editing enzyme, adenosine deaminase acting on RNA (ADAR1), and subsequently found in other proteins including DLM1, E3L and PKZ [9,10,11,12]. These Z-DNA binding proteins are involved in different cellular processes; the biological roles of Z-DNA/ZDNA binding protein have not been fully defined
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