Dihydrophenanthrenes and other antifungal stilbenoids from Stemona cf. pierrei

Three new dihydrophenanthrenes, stemanthrenes A-C, along with the new dihydrostilbene stilbostemin G were isolated and identified from the underground parts of Stemona cf. pierrei together with the known pinosylvin, 4'-methylpinosylvin, dihydropinosylvin, stilbostemins B, D, and E as well as the pyrrolo[1,2-a]azepine alkaloids protostemonine and stemonine. The structures of all new stilbenoids, elucidated by NMR analyses, showed a common substitution pattern for aromatic ring A and characteristic C-methylations for ring B. The trivial name racemosol, previously reported for S. collinsae, was renamed to stemanthrene D due to its priority for another compound. Bioautographic tests on TLC plates with Cladosporium herbarum displayed high antifungal activity for compounds with an unsubstituted aromatic ring A, e.g. pinosylvin, but only weak effects for the higher substituted stilbostemin G and stemanthrenes A-C. Similar results were obtained by germ tube inhibition of five microfungi using 2-fold serial broth dilutions determined by a microplate reader. Because of weak inhibition and chemical instability of stemanthrenes, no EC(50) and EC(90) values could be calculated.     

Characterization of a lipid droplet protein from Yarrowia lipolytica that is required for its oleaginous phenotype

Oleaginous microorganisms are characterized by their ability to store high amounts of triacylglycerol (TAG) in intracellular lipid droplets (LDs). In this work, we characterized a protein of the oleaginous yeast Yarrowia lipolytica that is associated with LD and plays a role in the regulation of TAG storage. This protein is required for the oleaginous phenotype of Y. lipolytica because deletion of the coding gene results in a strongly reduced TAG content of the mutant. Therefore, we named it Oleaginicity Inducing LD protein, Oil1. Furthermore, a mutant overexpressing OIL1 accumulates more TAG than the wild type and is delayed in TAG lipolysis when this process is stimulated. We found that Oil1p plays a role in protecting the TAG content of the LD from degradation through lipases under conditions where the cell aims at building up its TAG reserves. Heterologous expression studies showed that Oil1p rescued the phenotype of a Saccharomyces cerevisiae mutant deleted for the perilipin-like protein Pln1p and that its expression in COS-7 cells resulted in increased TAG accumulation, similar to the phenotype of a perilipin 1 expressing control strain. Despite this phenotypical parallels to mammalian perilipins, Oil1p is not a member of this protein family and its activity does not depend on phosphorylation. Rather, our results suggest that ubiquitination might contribute to the function of Oil1p in Y. lipolytica and that a different mechanism evolved in this species to regulate TAG homeostasis.     

The structure of procalcitonin of the salmon as deduced from its cDNA sequence

Oligonucleotide probes based on the known amino acid sequence of salmon calcitonin were used to screen a cDNA library obtained from ultimobranchial glands of salmon for clones encoding salmon calcitonin. From the cDNA sequence of strongly hybridizing clones the complete primary structure of the calcitonin precursor could be deduced. Its overall structure is identical with the structures of procalcitonins from other vertebrates and has the highest homology with the chicken precursor.     

Serotype characterization of Escherichia coli potentially producing enterotoxins in foods

The incidence of serotypes of Escherichia coli usually described as enterotoxins producer was investigated in 137 samples of food from different origins (animal and vegetal). The serological analysis of the somatic "O", capsular "K" and flagellar "H" antigens in 265 isolates of Escherichia coli resulted in the characterization of 34 strains, distributed in 12 serotypes. These organisms were obtained from 24 samples of food of animal origin. A possible association with epidemiological markers for other test, were analyzed. The fermentation pattern of the 34 strains with melibiose, raffinose, sucrose, salicin, and sorbitol allowed classification into 11 biotypes. However the marked heterogenicity of the biotypes distributed among the serotypes did not allow correlation between the serofermentative types and the origin of the food. The other tests based on hemolysis and hemagglutinating ability did not aid in the differentiation of the phenotypes.     

Identification of two different phosphofructokinase-phosphorylating protein kinases from Ascaris suum muscle

Two different phosphofructokinase-phosphorylating protein kinases were separated from extracts of Ascaris suum muscle by chromatography on DEAE-Fractogel. They were tentatively designated phosphofructokinase kinase I and phosphofructokinase kinase II. Phosphofructokinase kinase I eluted from the chromatography column at an ionic strength of 0.07 and contained about 25% of the phosphofructokinase-phosphorylating activity assayed in crude extracts. The protein kinase activity was not stimulated by the addition of either cAMP or cGMP. It was inhibited by the heat-stable protein kinase inhibitory protein from rabbit muscle (Walsh inhibitor), by the regulatory subunit of cAMP-dependent protein kinase from beef heart, and by the cAMP-binding protein from Ascaris muscle. These properties suggest that phosphofructokinase kinase I is homologous to the catalytic subunit of cAMP-dependent protein kinases from mammals. This assumption is supported by the estimation of the Mr of 40,000 for the purified phosphofructokinase kinase I under denaturing conditions and by the fact that the presence of cAMP eliminated the inhibition by the cAMP binding proteins. The isoelectric point of the enzyme was 8.7. Phosphofructokinase kinase II was eluted from the DEAE-Fractogel column at an ionic strength of 0.16 and contained approximately 75% of the phosphofructokinase kinase activity measured in the extracts. The molecular and kinetic properties were significantly different from those of phosphofructokinase kinase I. The enzyme was not inhibited by the heat-stable inhibitor protein nor by cAMP-binding proteins. The Mr of the native enzyme was estimated as 220,000 by molecular sieve chromatography. The isoelectric point of the enzyme was pH 5.45.     

Cell progression after selective irradiation of DNA during the cell cycle

Chinese hamster ovary cells were labeled with [125I]iododeoxyuridine (125IUdR, 0.1184 MBq/ml for 20 min) and the labeled mitotic cells were collected by selective detachment ("mitotic shake off"). The cells were pooled, plated into replicate flasks, and allowed to progress through the cell cycle. At several times after plating, corresponding to G1, S, late S, and G2 plus M, cells were cooled to stop cell cycle progression and to facilitate accumulation of 125I decays. Evaluation of cell progression into the subsequent mitosis indicated that accumulation of additional 125I decays during G1 or S phase was eight to nine times less effective in inducing progression delay than decays accumulated during G2. The results support our previous hypothesis that DNA damage per se is not responsible for radiation-induced progression delay. Instead, 125I-labeled DNA appears to act as a source of radiation that associates during the G2 phase of the cell cycle with another radiosensitive structure in the cell nucleus, and damage to the latter structure by overlap irradiation is responsible for progression delay (M. H. Schneiderman and K. G. Hofer, Radiat. Res. 84, 462-476 (1980].