Jie Nan scite author profile

WRKY proteins, defined by the conserved WRKYGQK sequence, are comprised of a large superfamily of transcription factors identified specifically from the plant kingdom. This superfamily plays important roles in plant disease resistance, abiotic stress, senescence as well as in some developmental processes. In this study, the Arabidopsis WRKY1 was shown to be involved in the salicylic acid signaling pathway and partially dependent on NPR1; a C-terminal domain of WRKY1, AtWRKY1-C, was constructed for structural studies. Previous investigations showed that DNA binding of the WRKY proteins was localized at the WRKY domains and these domains may define novel zinc-binding motifs. The crystal structure of the AtWRKY1-C determined at 1.6 Å resolution has revealed that this domain is composed of a globular structure with five β strands, forming an antiparallel β-sheet. A novel zinc-binding site is situated at one end of the β-sheet, between strands β4 and β5. Based on this high-resolution crystal structure and site-directed mutagenesis, we have defined and confirmed that the DNA-binding residues of AtWRKY1-C are located at β2 and β3 strands. These results provided us with structural information to understand the mechanism of transcriptional control and signal transduction events of the WRKY proteins.

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C4-Dicarboxylates Sensing Mechanism Revealed by the Crystal Structures of DctB Sensor Domain

Zhou

Nan

et al. 2008

Journal of Molecular Biology

100

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The crystal structure of human adenylate kinase 6: An adenylate kinase localized to the cell nucleus

Ren

Wang

Bennett

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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Adenylate kinases (AKs) play important roles in nucleotide metabolism in all organisms and in cellular energetics by means of phosphotransfer networks in eukaryotes. The crystal structure of a human AK named AK6 was determined by in-house sulfur single-wavelength anomalous dispersion phasing methods and refined to 2.0-Å resolution with a free R factor of 21.8%. Sequence analyses revealed that human AK6 belongs to a distinct subfamily of AKs present in all eukaryotic organisms sequenced so far. Enzymatic assays show that human AK6 has properties similar with other AKs, particularly with AK5. Fluorescence microscopy showed that human AK6 is localized predominantly to the nucleus of HeLa cells. The identification of a nuclear-localized AK sheds light on nucleotide metabolism in the nucleus and the energetic communication between mitochondria and nucleus by means of phosphotransfer networks.x-ray crystallography ͉ nuclear localization ͉ nucleotide metabolism ͉ phosphotransfer networks N ucleoside monophosphate kinases (NMPKs), which phosphorylate nucleoside monophosphates or deoxynucleoside monophosphates, which produce nucleoside diphosphates or deoxynucleoside diphosphates, play important roles in the maintenance of intracellular nucleotide pools in all organisms. Adenylate kinases (AKs) (ATP:AMP phophotransferases, EC 2.7.4.3) catalyze the reversible transfer of the ␥-phosphate group from a phosphate donor (normally ATP) to AMP, releasing two molecules of ADP (1). Besides crucial roles in homeostasis of adenine nucleotide metabolism, AKs are involved in cellular energetics through complex phosphotransfer networks regulating intracellular ATP-producing processes (2, 3).At present, five AK isoforms with different subcellular localization and substrate specificity have been characterized in mammalian tissues (4). In this work, we have identified a sixth AK isoform through a characterization of the adrenal gland protein AD-004 gene as part of a structural genomics project involving human genes (5).The AD-004 gene was first identified in a gene expression profiling study of the human hypothalamus-pituitary-adrenal axis (6) and has also appeared in analyses of genomic and cDNA sequences (7,8). The putative protein sequence for AD-004 contains 172 residues with an expected molecular mass of 20 kDa. AD-004 shows low overall sequence identity with proteins of known structures; however, in its N-terminal regions are sequence motifs [most notably a Walker motif (9)] that are characteristic of NMPKs. Through the work presented here, including crystal structure determination, enzymatic assays, and subcellular localization experiments, we show that AD-004 constitutes a AKs isoform that has been named human AK6, with many characteristics that distinguish it from the other eukaryotic AKs. Materials and MethodsProtein Purification and Crystallization. The preparation of protein used for both enzymatic assays and crystallization trials of human AD-004 (also referred to as AK6) has been described in ref. 10. Crystals of AK6 were ob...

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Jie Nan

DNA binding mechanism revealed by high resolution crystal structure of Arabidopsis thaliana WRKY1 protein

C4-Dicarboxylates Sensing Mechanism Revealed by the Crystal Structures of DctB Sensor Domain

The crystal structure of human adenylate kinase 6: An adenylate kinase localized to the cell nucleus

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