1zr9 Citations

The solution structure of ZNF593 from Homo sapiens reveals a zinc finger in a predominantly unstructured protein.

Hayes PL, Lytle BL, Volkman BF, Peterson FC
Protein Sci 17 571-6 (2008)
Cited: 13 times
EuropePMC logo PMID: 18287285

Abstract

Here, we report the solution structure of ZNF593, a protein identified in a functional study as a negative modulator of the DNA-binding activity of the Oct-2 transcription factor. ZNF593 contains a classic C(2)H(2) zinc finger domain flanked by about 40 disordered residues on each terminus. Although the protein contains a high degree of intrinsic disorder, the structure of the zinc finger domain was resolved by NMR spectroscopy without a need for N- or C-terminal truncations. The tertiary structure of the zinc finger domain is composed of a beta-hairpin that positions the cysteine side chains for zinc coordination, followed by an atypical kinked alpha-helix containing the two histidine side chain ligands. The structural topology of ZNF593 is similar to a fragment of the double-stranded RNA-binding protein Zfa and the C-terminal zinc finger of MBP-1, a human enhancer binding protein. The structure presented here will provide a guide for future functional studies of how ZNF593 negatively modulates the DNA-binding activity of Oct-2, a POU domain-containing transcription factor. Our work illustrates the unique capacity of NMR spectroscopy for structural analysis of folded domains in a predominantly disordered protein.

Articles - 1zr9 mentioned but not cited (6)

  1. The conserved Bud20 zinc finger protein is a new component of the ribosomal 60S subunit export machinery. Bassler J, Klein I, Schmidt C, Kallas M, Thomson E, Wagner MA, Bradatsch B, Rechberger G, Strohmaier H, Hurt E, Bergler H. Mol Cell Biol 32 4898-4912 (2012)
  2. Binding cavities and druggability of intrinsically disordered proteins. Zhang Y, Cao H, Liu Z. Protein Sci 24 688-705 (2015)
  3. Conservation of Potentially Druggable Cavities in Intrinsically Disordered Proteins. Chong B, Li M, Li T, Yu M, Zhang Y, Liu Z. ACS Omega 3 15643-15652 (2018)
  4. The solution structure of ZNF593 from Homo sapiens reveals a zinc finger in a predominantly unstructured protein. Hayes PL, Lytle BL, Volkman BF, Peterson FC. Protein Sci 17 571-576 (2008)
  5. Letter A fortuitous insight into a common mode of RNA recognition by the dsRNA-specific zinc fingers. Andreeva A, Murzin AG. Proc Natl Acad Sci U S A 105 E128-9 (2008)
  6. The dipeptidyl peptidase IV inhibitors vildagliptin and K-579 inhibit a phospholipase C: a case of promiscuous scaffolds in proteins. Chakraborty S, Rendón-Ramírez A, Ásgeirsson B, Dutta M, Ghosh AS, Oda M, Venkatramani R, Rao BJ, Dandekar AM, Goñi FM. F1000Res 2 286 (2013)


Reviews citing this publication (2)

  1. Bioinformatic analyses and conceptual synthesis of evidence linking ZNF804A to risk for schizophrenia and bipolar disorder. Hess JL, Quinn TP, Akbarian S, Glatt SJ. Am J Med Genet B Neuropsychiatr Genet 168B 14-35 (2015)
  2. Zinc finger structure determination by NMR: Why zinc fingers can be a handful. Neuhaus D. Prog Nucl Magn Reson Spectrosc 130-131 62-105 (2022)

Articles citing this publication (5)

  1. Targeted proteomics reveals compositional dynamics of 60S pre-ribosomes after nuclear export. Altvater M, Chang Y, Melnik A, Occhipinti L, Schütz S, Rothenbusch U, Picotti P, Panse VG. Mol Syst Biol 8 628 (2012)
  2. A strong 13C chemical shift signature provides the coordination mode of histidines in zinc-binding proteins. Barraud P, Schubert M, Allain FH. J Biomol NMR 53 93-101 (2012)
  3. High-yield expression in E. coli and refolding of the bZIP domain of activating transcription factor 5. Ciaccio NA, Moreno ML, Bauer RL, Laurence JS. Protein Expr Purif 62 235-243 (2008)
  4. Copy number variants suggest different molecular pathways for the pathogenesis of bladder exstrophy. Nordenskjöld A, Arkani S, Pettersson M, Winberg J, Cao J, Fossum M, Anderberg M, Barker G, Holmdahl G, Lundin J. Am J Med Genet A 191 378-390 (2023)
  5. Papillomavirus binding factor (PBF) is an intrinsically disordered protein with potential participation in osteosarcoma genesis, in silico evidence. Castillo P, Cetina AF, Méndez-Tenorio A, Espinoza-Fonseca LM, Barrón BL. Theor Biol Med Model 11 51 (2014)


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