Isolation and Characterization of Thermophilic Bacterial Strains with Inulinase Activity

Nine bacterial strains growing on inulin as the sole carbon and energy source were isolated from soil samples by enrichment culture on a mineral medium. Four of the strains were thermophilic and belong to the genus Bacillus. The thermophilic strains synthesized a β-fructosidase that was active on both inulin and sucrose. The presence of inulin in the culture medium is necessary for enzyme synthesis. Most of the activity on inulin was recovered in the culture medium, and the enzyme was synthesized during cell growth.     

Effect of acid or enzymatic hydrolysis on ethanol production by Zymomonas mobilis growing on Jerusalem artichoke juice

Summary Ethanol production from the inulin of Jerusalem artichoke byZ. mobilis was studied in batch and continuous fermentations. Both acid or enzymatic hydrolysis were used. In continuous cultures enzymatic hydrolysis showed better results. Ethanol productivities of 17.7 and 29.0 g/l.h were obtained at output concentrationsca 35 g/l (% of conversion 99 and 83; ethanol yield 0.45 g/g). The hydrolysed juice could be used without any nutrient addition.     

Introduction of oxygen into the alkyl chain of N-decyl-dNM decreases lipophilicity and results in increased retention of glucose residues on N-linked oligosaccharides

N-Alkylation of the -glucosidase inhibitor 1-deoxynojirimycin(dNM) dramatically increases its inhibitory potency (Tan etal., J. Biol. Chem., 266, 14504–14510, 1991). However,the possibility of extending the alkyl chain to N-decyl-dNMis limited by an increase of detergent-like (amphiphilic) propertiesof long-chain alkylated dNM derivatives. Substitution of methylenegroups in the N-decyl chain by oxygen reduced the amphiphilicityof N-decyl-dNM derivatives, while retaining their superior inhibitoryproperties. In intact HepG2 cells, the compound N-7-oxadecyl-dNMwas found to result in the most pronounced retention of glucoseresidues on N-linked glycans. Permeabilization of the plasmamembrane with the bacterial toxin Streptolysin O improves theinhibitory properties of the derivatives N-3,6,9-trioxadecyl-,N-7,10,13-trioxatetradecyl-, N-3-oxadecyl- and N-7-oxadecyl-dNM,but not those of dNM. These observations suggest differencesin the mode of entry of the oxygen-substituted dNM derivativesin comparison with dNM. We observed that the dNM derivativeN-3,6,9-trioxadecyl-dNM, devoid of inhibitory activity in intactcells, was inhibitory in Streptolysh O-permeabilized cells.Thus, the permeability barriers posed by plasma membrane andendoplasmic reticulum membrane are not equivalent. The use ofa permeabilized cell system thus allows the elaboration of inhibitoryprinciples for novel bioactive compounds where study of theisolated enzymes may not be possible, and where intact cellsare not a suitable target due to permeability barriers. -glucosidase inhibition N-linked glycosylation oxygen-substituted N-decyl-dNM derivatives permeabilized cells     

Le fucosterol-24,28 epoxyde,intermediaire dans la biodegradation oxydative du fucosterol en cholesterol par le criquet Locusta migratoria (R. ET F.)

β-Sitosterol 1 is metabolised to cholesterol 5 by phytophagous insects. It has been previously shown that fucosterol-24,28 epoxide 3 is transformed into 5 in Locusta migratoria, desmosterol 4 being an intermediate. It is now established that locusts transform [3-³H] fucosterol propionate into the corresponding labelled epoxide 3, recovered as such or as an oxazoline derivative 11.     

A genome‐wide screen identifies genes that suppress the accumulation of spontaneous mutations in young and aged yeast cells

To ensure proper transmission of genetic information, cells need to preserve and faithfully replicate their genome, and failure to do so leads to genome instability, a hallmark of both cancer and aging. Defects in genes involved in guarding genome stability cause several human progeroid syndromes, and an age‐dependent accumulation of mutations has been observed in different organisms, from yeast to mammals. However, it is unclear whether the spontaneous mutation rate changes during aging and whether specific pathways are important for genome maintenance in old cells. We developed a high‐throughput replica‐pinning approach to screen for genes important to suppress the accumulation of spontaneous mutations during yeast replicative aging. We found 13 known mutation suppression genes, and 31 genes that had no previous link to spontaneous mutagenesis, and all acted independently of age. Importantly, we identified PEX19, encoding an evolutionarily conserved peroxisome biogenesis factor, as an age‐specific mutation suppression gene. While wild‐type and pex19Δ young cells have similar spontaneous mutation rates, aged cells lacking PEX19 display an elevated mutation rate. This finding suggests that functional peroxisomes may be important to preserve genome integrity specifically in old cells.