Daniel A. Tobin scite author profile

X-ray absorption spectroscopy has been used to determine the structure of the Zn site in protein farnesyltransferase. Extended X-ray absorption fine structure (EXAFS) data are consistent with a Zn site that is ligated to three low-Z (oxygen or nitrogen) ligands and one cysteine sulfur, as predicted from the crystal structures that are available for farnesyltransferase. However, in contrast with the crystallographic results the EXAFS data do not show evidence for significant distortions in the Zn-ligand distances. The average Zn-(N/O) and Zn-S distances are 2.04 and 2.31 A, respectively. Addition of a farnesyl diphosphate analogue causes no detectable change in the structure of the Zn site. However, addition of peptide substrate causes a change in ligation from ZnS(N/O)(3) to ZnS(2)(N/O)(2), consistent with ligation of the C-terminal cysteine to the Zn. There is no significant change in Zn-ligand distances when a substrate binds, demonstrating that the Zn remains four-coordinate. Addition of both peptide and farnesyl diphosphate to give the product complex causes the Zn to return to ZnS(N/O)(3) ligation, indicating that the product thioether is not tightly coordinated to the Zn. These spectroscopic experiments provide insight into the catalytic mechanism of FTase.

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Characterization of the Metal Receptor Sites in Escherichia coli Zur, an Ultrasensitive Zinc(II) Metalloregulatory Protein

Outten

et al. 2001

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The Escherichia coli Zur protein is a Fur homologue that regulates expression of Zn(II) uptake systems. The zinc-loaded form of Zur is proposed to bind DNA and repress transcription of the znuABC genes. Recent in vitro data indicate that the transcriptional activity of Zur is half-maximal when free Zn(II) concentrations are in the sub-femtomolar range, making it the most sensitive Zn(II) metalloregulatory protein reported to date. Previous results indicate that Zur binds at least one zinc; however, little else is known about Zn(II) binding. We have purified E. coli Zur to homogeneity and found that it has two Zn(II) binding sites per monomer with different coordination environments. Using Zn(II) binding assays, ICP-AES analysis, and Zn EXAFS analysis, we show that one zinc is tightly bound in an S(3)(N/O) coordination environment. Both Co(II) and Zn(II) were substituted into the second metal binding site and probed by EXAFS and UV-visible absorption spectroscopy. These studies indicate that Co(II) is bound in an S(N/O)(3) coordination environment with tetrahedral geometry. The Zn(II) EXAFS of Zn(2)Zur, which is consistent with the results for both sites, indicates an average coordination environment of S(2)(N/O)(2), presumably due to one S(N/O)(3) site and one S(3)(N/O) site. These studies reveal the coordination environments that confer such exceptional zinc sensitivity and may provide the foundation for understanding the molecular basis of metal ion selectivity. A comparison of the metal binding sites in Zur with its Fe(II)-sensing homologue Fur provides clues as to why these two proteins with similar structures respond to two very different metal ions.

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Posthysterectomy megavoltage irradiation in the treatment of cervical carcinoma

Perkins

Chu

Jose

et al. 1984

Gynecologic Oncology

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Management of stage II glottic cancer

Jose

Mohammed²,

Calhoun

et al. 1981

International Journal of Radiation Oncology*Biology*Physics

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Daniel A. Tobin

Structural Characterization of the Zinc Site in Protein Farnesyltransferase

Characterization of the Metal Receptor Sites in Escherichia coli Zur, an Ultrasensitive Zinc(II) Metalloregulatory Protein

Posthysterectomy megavoltage irradiation in the treatment of cervical carcinoma

Management of stage II glottic cancer

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