David Roll

Phosphorylation of purified Novikoff hepatoma topoisomerase I

The purified Novikoff hepatoma nuclear phosphoprotein with a molecular weight of 110 kdalton and pI 8.4, was found to be a type I topoisomerase. When isolated from 32P-labeled Novikoff ascites cells or incubated in vitro with protein kinase, phosphoserine was found to be its major phosphorylated amino acid. The enzymatic activity of topoisomerase I was altered by changes in phosphorylation. Its activity was increased by protein kinase and it was decreased by alkaline phosphatase.

Silver Fractal-like Structures for Metal-Enhanced Fluorescence: Enhanced Fluorescence Intensities and Increased Probe Photostabilities

Substantial increases in fluorescence emission from fluorophore-protein–coated fractal-like silver structures have been observed. We review two methods for silver fractal structure preparation, which have been employed and studied. The first, a roughened silver electrode, typically yielded a 100-fold increase in fluorophore emission, and the second, silver fractal-like structures grown on glass between two silver electrodes, produced a ≈500-fold increase. In addition, significant increases in probe photostability were observed for probes coated on the silver fractal like structures. These results further serve to compliment our recent work on the effects of nobel metal particles with fluorophores, a relatively new phenomenon in fluorescence we have termed both “metal-enhanced fluorescence” [1] and “radiative decay engineering” [2,3]. These results are explained by the metallic surfaces modifying the radiative decay rate (Γ) of the fluorescent labels. We believe that this new silver-surface preparation, which results in ultrabright and photostable fluorophores, offers a new generic technology platform for increased fluorescence signal levels, with widespread potential applications to the analytical sciences, imaging, and medical diagnostics.

Oxygen regulated 80 kDa protein and glucose regulated 78 kDa protein are identical

Ischemic stress of cells within solid tumors arises from inadequate perfusion of regions of the tumor and results in microenvironments which are hypoxic and deficient in nutrient delivery and waste product removal. Stressed cells within these microenvironments show growth inhibition and synthesize unique sets of proteins referred to as glucose and oxygen regulated proteins (GRPs and ORPs respectively). The commonality of proteins induced by glucose-starvation and hypoxia has not been proven. To this end, ORPs were induced in Chinese hamster ovary cells in the presence of high glucose concentration in the media and ORP 80 isolated from two dimension gels. Eleven tryptic peptides of the 80 kDa ORP were sequenced and found to be identical to GRP 78 sequences. The data demonstrate that GRP 78 and ORP 80 have the same primary amino acid sequence and suggest that glucose-starvation and hypoxia can induce the same cellular responses.

Fractal Silver Structures for Metal-Enhanced Fluorescence: Applications for Ultra-Bright Surface Assays and Lab-on-a-Chip-Based Nanotechnologies

119 1053-0509/03/0300-0119/0

Quantitative radiochromatographic analysis of the major groups of carbohydrates in cultured animal cells.

Procedures are described for selective quantitation of the monosaccharide content of glycogen, chondroitin sulfates, hyaluronic acid, glycoproteins, glycolipids, N-acetylneuraminic acid, and the phosphorylated carbohydrate pools in cultured animal cells. Monosaccharides are released from each type of carbohydrate by selective hydrolysis with enzymes and/or acid and are analyzed by radiochromatographic procedures which give reliable quantitative data with only a few nanomoles of each monosaccharide. Analyses of the entire spectrum of carbohydrates can be carried out using 7–8 mg of animal cell protein.