AI Article Synopsis
- ZFAT is a transcriptional regulator with 18 zinc-finger motifs involved in autoimmune thyroid disease and immune cell survival.
- Researchers used NMR spectroscopy to determine the structures of individual zinc-fingers and their arrangements, revealing that some have unique structural features.
- The specific arrangement and interaction between certain zinc-fingers, particularly ZF4 and ZF5, suggest they function together and may play a role in ZFAT's regulatory capabilities.
Article Abstract
ZFAT is a transcriptional regulator, containing eighteen C2H2-type zinc-fingers and one AT-hook, involved in autoimmune thyroid disease, apoptosis, and immune-related cell survival. We determined the solution structures of the thirteen individual ZFAT zinc-fingers (ZF) and the tandemly arrayed zinc-fingers in the regions from ZF2 to ZF5, by NMR spectroscopy. ZFAT has eight uncommon bulged-out helix-containing zinc-fingers, and six of their structures (ZF4, ZF5, ZF6, ZF10, ZF11, and ZF13) were determined. The distribution patterns of the putative DNA-binding surface residues are different among the ZFAT zinc-fingers, suggesting the distinct DNA sequence preferences of the N-terminal and C-terminal zinc-fingers. Since ZFAT has three to five consecutive tandem zinc-fingers, which may cooperatively function as a unit, we also determined two tandemly arrayed zinc-finger structures, between ZF2 to ZF4 and ZF3 to ZF5. Our NMR spectroscopic analysis detected the interaction between ZF4 and ZF5, which are connected by an uncommon linker sequence, KKIK. The ZF4-ZF5 linker restrained the relative structural space between the two zinc-fingers in solution, unlike the other linker regions with determined structures, suggesting the involvement of the ZF4-ZF5 interfinger linker in the regulation of ZFAT function.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4427657 | PMC |
| http://dx.doi.org/10.1007/s10969-015-9196-3 | DOI Listing |
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