John L. Smith scite author profile

Ferritin is important in iron homeostasis. Its twenty-four chains of two types, H and L, assemble as a hollow shell providing an iron-storage cavity. Ferritin molecules in cells containing high levels of iron tend to be rich in L chains, and may have a long-term storage function, whereas H-rich ferritins are more active in iron metabolism. The molecular basis for the greater activity of H-rich ferritins has until now been obscure, largely because the structure of H-chain ferritin has remained unknown owing to the difficulties in obtaining crystals ordered enough for X-ray crystallographic analysis. Here we report the three-dimensional structure of a human ferritin H-chain homopolymer. By genetically engineering a change in the sequence of the intermolecular contact region, we obtained crystals isomorphous with the homologous rat L ferritin and of high enough quality for X-ray diffraction analysis. The X-ray structure of human H ferritin shows a novel metal site embedded within each of its four-helix bundles and we suggest that ferroxidase activity associated with this site accounts for its rapid uptake of iron.

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Using the Internet for psychological research: Personality testing on the World Wide Web

Buchanan

Smith

1999

British J of Psychology

485

381

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The Internet is increasingly being used as a medium for psychological research. To assess the validity of such efforts, an electronic version of Gangestad & Snyder's (1985) revised self-monitoring questionnaire was placed at a site on the World Wide Web. In all, 963 responses were obtained through the Internet and these were compared with those from a group of 224 undergraduates who completed a paper-and-pencil version. Comparison of model fit indices obtained through confirmatory factor analyses indicated that the Internet-mediated version had similar psychometric properties to its conventional equivalent and compared favourably as a measure of self-monitoring. Reasons for possible superiority of Internet data are discussed. Results support the notion that Web-based personality assessment is possible, but stringent validation of test instruments is urged.

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Ferritin: design and formation of an iron-storage molecule

Ford

Harrison

Rice

et al. 1984

Phil. Trans. R. Soc. Lond. B

543

222

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Although essential for most forms of life, too much iron is harmful. To cope with these antagonistic phenomena an iron-storage molecule, ferritin, has evolved. The structure of horse spleen apoferritin, which has recently been refined, consists of 24 symmetrically related subunits forming a near-spherical hollow shell. In ferritin the central cavity is occupied by an iron core of 'ferrihydrite', a geologically ephemeral mineral found in hot or cold springs and in mine workings, or produced in the laboratory by heating solutions of ferric salts. Ferritin itself forms most readily from apoferritin, in the presence of dioxygen, from FeII, not FeIII. Access to its interior is through small intersubunit channels, and the protein influences both the rate of FeII-oxidation and the form of oxide produced.

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Purification and characterization of the purE, purK, and purC gene products: identification of a previously unrecognized energy requirement in the purine biosynthetic pathway

Meyer¹,

Leonard²,

Bhat³

et al. 1992

Biochemistry

159

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Aminoimidazole riobnucleotide carboxylase, the sixth step in the purine biosynthetic pathway, catalyzes the conversion of aminoimidazole ribonucleotide (AIR) to carboxyaminoimidazole ribonucleotide (CAIR). The gene products of the purE and purK genes (PurE and PurK, respectively) thought to be responsible for this activity have been overexpressed and the proteins purified to homogeneity. PurE separates from PurK in the first ammonium sulfate fractionation during the purification. No evidence for association of the two gene products under a variety of conditions using a variety of methods could be obtained. To facilitate the assay for CAIR production, the purC gene product, 5-aminoimidazole-4-N-succinylcarboxamide ribonucleotide (SAICAR) synthetase has also been overexpressed and purified to homogeneity. The activities of PurE, PurK, and PurE.PurK have been investigated. PurE alone is capable of catalyzing the conversion of AIR to CAIR 1 million times faster than the nonenzymatic rate. The Km for HCO3- in the PurE-dependent reaction is 110 mM! PurK possesses an ATPase activity that is dependent on the presence of AIR. No bicarbonate dependence on this reaction could be demonstrated (less than 100 microM), and AIR is not carboxylated during the hydrolysis of ATP. Incubation of a 1:1 mixture of PurE and PurK at low concentrations of bicarbonate (less than 100 microM) revealed that CAIR is produced but requires the stoichiometric conversion of ATP to ADP and Pi. No dependence on the concentration of HCO3- could be demonstrated. A new energy requirement in the purine biosynthetic pathway has been established.

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Disease resistance through impairment of α-SNAP–NSF interaction and vesicular trafficking by soybean Rhg1

Bayless

Smith

Song

et al. 2016

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

158

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α-SNAP [soluble NSF (N-ethylmaleimide–sensitive factor) attachment protein] and NSF proteins are conserved across eukaryotes and sustain cellular vesicle trafficking by mediating disassembly and reuse of SNARE protein complexes, which facilitate fusion of vesicles to target membranes. However, certain haplotypes of the Rhg1 (resistance to Heterodera glycines 1) locus of soybean possess multiple repeat copies of an α-SNAP gene (Glyma.18G022500) that encodes atypical amino acids at a highly conserved functional site. These Rhg1 loci mediate resistance to soybean cyst nematode (SCN; H. glycines), the most economically damaging pathogen of soybeans worldwide. Rhg1 is widely used in agriculture, but the mechanisms of Rhg1 disease resistance have remained unclear. In the present study, we found that the resistance-type Rhg1 α-SNAP is defective in interaction with NSF. Elevated in planta expression of resistance-type Rhg1 α-SNAPs depleted the abundance of SNARE-recycling 20S complexes, disrupted vesicle trafficking, induced elevated abundance of NSF, and caused cytotoxicity. Soybean, due to ancient genome duplication events, carries other loci that encode canonical (wild-type) α-SNAPs. Expression of these α-SNAPs counteracted the cytotoxicity of resistance-type Rhg1 α-SNAPs. For successful growth and reproduction, SCN dramatically reprograms a set of plant root cells and must sustain this sedentary feeding site for 2–4 weeks. Immunoblots and electron microscopy immunolocalization revealed that resistance-type α-SNAPs specifically hyperaccumulate relative to wild-type α-SNAPs at the nematode feeding site, promoting the demise of this biotrophic interface. The paradigm of disease resistance through a dysfunctional variant of an essential gene may be applicable to other plant–pathogen interactions.

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John L. Smith

Solving the structure of human H ferritin by genetically engineering intermolecular crystal contacts

Using the Internet for psychological research: Personality testing on the World Wide Web

Ferritin: design and formation of an iron-storage molecule

Purification and characterization of the purE, purK, and purC gene products: identification of a previously unrecognized energy requirement in the purine biosynthetic pathway

Disease resistance through impairment of α-SNAP–NSF interaction and vesicular trafficking by soybean Rhg1

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