Transcriptional regulation of genes on the non-syntenic blocks of Aspergillus oryzae and its functional relationship to solid-state cultivation.

Transcriptome analysis revealed close relationship between solid-state cultivation and the transcriptional regulation of the genes on the non-syntenic blocks (NSBs), which were characterized by the comparison of Aspergillus oryzae genome with those of Aspergillus fumigatus and Aspergillus nidulans. Average expression ratio of the genes on NSBs in solid-state cultivation was significantly higher than that on the syntenic blocks (SBs). Of the induced genes, the genes relating to metabolism, which are highly enriched on NSBs, most contributed to the NSB-specific induction. The analysis using the SB- and NSB-genes that had sequence similarity between the two blocks significantly decreased the difference of average expression ratios between the two blocks. In spite of remarkably high averaged expression ratio of the NSB genes encoding extracellular enzymes, no induction of PKS and NRPS genes on NSBs were observed in solid-state cultivations. These results strongly suggest that the genes on NSBs play an important role on solid-state fermentation.

Clinico-molecular study of dedifferentiation in well-differentiated liposarcoma.

Well-differentiated liposarcoma (WD) acquires fully malignant potential when the histological progression named dedifferentiation occurs. This progression is supposed to occur in a time-dependent manner but this is still a debated issue. Clinically, the prediction of dedifferentiation for WD is very important from the therapeutic point of view. To identify genes that are predictive of dedifferentiation and to understand the mechanism of dedifferentiation, we investigated clinical information of 50 cases and studied the gene expression profiles of 36 lipomatous tumors using cDNA microarray. The clinical study showed that the dedifferentiation did not always seem to occur in a time-dependent manner. Interestingly, from the gene expression study, unsupervised hierarchical clustering analysis of well-differentiated lesions obtained from dedifferentiated liposarcoma (DD) cases that were indistinguishable from WD pathologically showed a clearly distinct gene expression pattern from WD. Using the pattern-matching program, 1687 genes including 487 known genes were identified, which discriminated WD cases from well-differentiated lipomatous lesions obtained from DD cases. These results suggest that the dedifferentiation may arise from different types of WD that could be distinguished from gene expression profiling but could hardly be classified by the pathological studies.

DNA aptamers that recognize fluorophore using on-chip screening in combination with an in silico evolution.

We successfully developed a novel screening method for the acquisition of DNA aptamers. The technique selectively recognizes resorufin using on-chip screening in combination with an in silico evolution method. This method proved efficient for screening for DNA aptamers of single-stranded oligo-DNAs. A genetic algorithm was applied to make oligonucleotide sequences for the combinatorial library. A fluorophore, resorufin was applied to the ligand screening as a target. The affinity of the library was analyzed by the DNA microarray. This method for screening DNA ligands includes on-chip selection and a computer-evolved sequence, where the highest affinity was chosen. The fluorescence intensity of the library on the DNA microarray increased after three repetitions of the selection round.

PCR-based ribosomal DNA detection technique for microalga (Heterosigma carterae) causing red tide and its application to a biosensor using labeled probe.

A technique for detecting Raphidophycean, a bloom-forming genus of algae, was developed using a specific DNA probe. The design of the probe was based on a sequence polymorphism within the small subunit (SSU) ribosomal RNA gene (rDNA) of this strain by using fluorescence polarization (FP) analysis and the BIAcore 2000 biosensor, which utilized surface plasmon resonance (SPR). The specific sequence in SSU rDNA for Heterosigma carterae was determined by sequence data analysis. One pair of polymerase chain reaction (PCR) probes was designed for use in making the identification. H. carterae SSU rDNA was amplified by PCR. Using a fluoroscein isothiocyanate-labeled or biotin-labeled oligonucleotide probe, the PCR-amplified rDNA was selectively detected as an FP-intensity change via FP analysis or as a resonance-unit change via SPR. Although total time for final detection after sampling was within 3 hours, specific rDNA could be detected within 10 minutes after PCR through these detection methods.