Construction of a data dependent analysis (DDA) yeast cDNA microarray experiment for use in toxicogenomics.

DNA microarrays are becoming increasingly popular in toxicogenomic studies. It is common knowledge that multiple repeats of microarray experiments have to be performed with multiple samples to get reliable data, due to experimental variations (both technical and biological) contained in microarray experiments. However, the use of multiple samples and replicate experiments is not practical in the field of environmental toxicology, since environmental samples are limited and microarray experiments are expensive. Thus it is desirable to obtain reliable data from a minimum number of repeats of microarray experiments. To further establish and extend gene expression profiling for toxicogenomics using microarrays, it is necessary to establish an analytical method of microarrays for toxicogenomics. In this study, we attempted to construct a "Data Dependent Analysis (DDA)" yeast cDNA microarray experiment from 100 microarray datasets in order to get reliable data from one microarray experiment.

Isolation and characteristics of methanosaeta in paddy field soils.

The population of filamentous acetate-utilizing methanogens in paddy field soils was 2.0 x 10(4) MPN/g dry soil in the submerged condition. They were able to form colonies in a deep agar medium, but not in a roll tube. Filamentous acetate-utilizing methanogens isolated from Kanagi, Japan (strain K-5) and Tsukuba, Japan (strain T-3) were divided into two types based on length of filaments. One type, strain K-5, formed a short chain which was dispersed easily by weak shaking. The other type, strain T-3, formed a long chain, which formed cotton-like flocs and was not dispersed by weak shaking. They had sheaths composed of a pair of adjacent membranes on the outside of the cell membranes. The 16S rRNA gene similarities of strain T-3 and K-5 to Methanosaeta concilii strain Opfikon were 100% and 99.5% respectively. Filamentous acetate-utilizing methanogens were also isolated from paddy field soils in various other regions of Japan. Our results suggest that Methanosaeta is universal in paddy soils and that it plays an important role in methane production from acetate.

Genome-wide expression analysis of yeast response during exposure to 4 degrees C.

Adaptation to temperature fluctuation is essential for the survival of all living organisms. Although extensive research has been done on heat and cold shock responses, there have been no reports on global responses to cold shock below 10 degrees C or near-freezing. We examined the genome-wide expression in Saccharomyces cerevisiae, following exposure to 4 degrees C. Hierarchical cluster analysis showed that the gene expression profile following 4 degrees C exposure from 6 to 48 h was different from that at continuous 4 degrees C culture. Under 4 degrees C exposure, the genes involved in trehalose and glycogen synthesis were induced, suggesting that biosynthesis and accumulation of those reserve carbohydrates might be necessary for cold tolerance and energy preservation. The observed increased expression of phospholipids, mannoproteins, and cold shock proteins (e.g., TIP1) is consistent with membrane maintenance and increased permeability of the cell wall at 4 degrees C. The induction of heat shock proteins and glutathione at 4 degrees C may be required for revitalization of enzyme activity, and for detoxification of active oxygen species, respectively. The genes with these functions may provide the ability of cold tolerance and adaptation to yeast cells.