Publications by authors named "ER Weber"

Problem: Current methods to quantify kisspeptin (KP) are limited. To this end, a radioimmunoassay (RIA) specific for KP was developed and validated. We hypothesized that use of a RIA would reveal multiple hypothalamic regions as targets of negative seasonal feedback of estradiol on KP production in sheep.

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The structure of an isolated, Ga terminated, 30 degree partial dislocation in GaAs:Be is determined by high resolution transmission electron microscopes and focal series reconstruction. The positions of atomic columns in the core region are measured to an accuracy of better than 10 pm. A quantitative comparison of the structure predicted by an ab initio electronic structure total energy calculation to the experiment indicates that theory and experiment agree to within 20 pm.

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As the demand for high-quality solar-cell feedstock exceeds supply and drives prices upwards, cheaper but dirtier alternative feedstock materials are being developed. Successful use of these alternative feedstocks requires that one rigorously control the deleterious effects of the more abundant metallic impurities. In this study, we demonstrate how metal nanodefect engineering can be used to reduce the electrical activity of metallic impurities, resulting in dramatic enhancements of performance even in heavily contaminated solar-cell material.

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A detailed description of a combined reciprocal and real space technique for the mapping of layer compositions across interior interfaces from high-resolution electron micrographs is presented. The analysis is based on the reciprocal space extraction of chemically sensitive image information encoded in lattice images of AlGaAs/GaAs heterostructures taken under optimized imaging conditions. Analysis procedures include centering a set of apertures around chemically sensitive reflections in the Fourier transform of lattice images and performing an inverse transformation, thus extracting composition related information from experimental micrographs.

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Concentrations of mobile interstitial copper and precipitated copper in silicon were studied after a high temperature intentional contamination and quench to room temperature. It was found that below a critical contamination the copper predominantly diffuses out to the surface, while for higher initial copper concentrations it mainly precipitates in the bulk. The critical copper contamination equals the acceptor concentration plus 10(16) cm (-3).

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A feline splenic cDNA library was screened with a (32)P-labelled cDNA probe encoding the canine IgE epsilon heavy chain subunit. A cDNA sequence of 1614 nucleotides encoding the complete feline IgE heavy chain, as well as a portion of a variable region, was identified. A search of the GenBank database revealed an identity of 82% at the nucleotide level and 76% at the amino acid level between the feline epsilon heavy chain sequence and the canine homologue.

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Inactivation of YME1 in yeast causes several distinct phenotypes: an increased rate of DNA escape from mitochondria, temperature-sensitive growth on nonfermentable carbon sources, extremely slow growth when mitochondrial DNA is completely absent from the cell, and altered morphology of the mitochondrial compartment. The protein encoded by YME1, Yme1p, contains two highly conserved sequence elements, one implicated in the binding and hydrolysis of ATP, and the second characteristic of active site residues found in neutral, zinc-dependent proteases. Both the putative ATPase and zinc-dependent protease elements are necessary for the function of Yme1p as genes having mutations in critical residues of either of these motifs are unable to suppress any of the phenotypes exhibited by yme1 deletion strains.

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The escape and migration of genetic information between mitochondria, chloroplasts, and nuclei have been an integral part of evolution and has a continuing impact on the biology of cells. The evolutionary transfer of functional genes and fragments of genes from chloroplasts to mitochondria, from chloroplasts to nuclei, and from mitochondria to nuclei has been documented for numerous organisms. Most documented instances of genetic material transfer have involved the transfer of information from mitochondria and chloroplasts to the nucleus.

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The quality assurance and improvement committee on a general pediatric unit identified a problem with sedation for neuroradiologic studies. Twenty-three percent of children (n = 63) failed to sedate with one dose of chloral hydrate, resulting in delays or cancellations. For children receiving a second dose of chloral hydrate, average time to study completion was 97 minutes, and 70 percent of the children (n = 10) were successfully sedated.

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In Saccharomyces cerevisiae, inactivation of the nuclear gene YME1 causes several phenotypes associated with impairment of mitochondrial function. In addition to deficiencies in mitochondrial compartment integrity and respiratory growth, yme1 mutants grow extremely slowly in the absence of mitochondrial DNA. We have identified two genetic loci that, when mutated, act as dominant suppressors of the slow-growth phenotype of yme1 strains lacking mitochondrial DNA.

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A retrospective analysis of 30 angiograms in 29 patients performed at Doctor's Hospital since June of 1989 was carried out. Of these, 15 patients with 16 involved extremities presented with no antecedent trauma and significant symptoms of arterial insufficiency with impending digital necrosis. Eleven were female and four were male.

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