Your search keyword '"Urabe, Itaru"' showing total 6 results

1. Importance of Compartment Formation for a Self-Encoding System

Author

Matsuura, Tomoaki, Yamaguchi, Muneyoshi, Ko-Mitamura, Elizabeth P., Shima, Yasufumi, Urabe, Itaru, and Yomo, Tetsuya

Published

2002

2. Plasticity of Fitness and Diversification Process During an Experimental Molecular Evolution.

Author

Kashiwagi, Akiko, Noumachi, Wataru, Katsuno, Masato, Alam, Mohammad T., Urabe, Itaru, and Yomo, Tetsuya

Subjects

MOLECULAR evolution, GLUTAMINE synthetase, GENES, GENETIC mutation, CHEMOSTAT, ENZYME regulation, MOLECULAR biology, BIOTECHNOLOGY

Abstract

A simplified experimental evolution encompassing the essence of natural one was designed in an attempt to understand the involved mechanism. In our system, molecular evolution was observed through three serial cycles of consecutive random mutagenesis of the glutamine synthetase gene and chemostat culture of the transformed Escherichia coli cells containing the mutated genes. Selection pressure was imposed solely on the glutamine synthetase gene when varieties of mutant genes compete in an unstructured environment of the chemostat. The molecular phylogeny and population dynamics were deduced from the nucleotide sequences of the genes isolated from each of the chemostat runs. An initial mutant population in each cycle, comprised of diversified closely-related genes, ended up with several varieties of mutants in a state of coexistence. Competition between two mutant genes in the final population of the first cycle ascertained that the observed coexisting state is not an incidental event and that cellular interaction via environmental nutrients is a possible mechanism of coexistence. In addition, the mutant gene once extinct in the previous passage was found to have the capacity to reinvade and constitute the gene pool of the later cycle of molecular evolution. These results, including the kinetic characteristics of the purified wild-type and mutant glutamine synthetases in the phylogenetic tree, revealed that the enzyme activity had diverged, rather than optimized, to a fittest value during the course of evolution. Here, we proposed that the plasticity of gene fitness in consequence of cellular interaction via the environment is an essential mechanism governing molecular evolution. [ABSTRACT FROM AUTHOR]

Published

2001

3. Sequence and properties of β-xylosidase from <em>Bacillus pumilus</em> IPO.

Author

Wei-Zhong Xu, Shima, Yasufumi, Negoro, Seiji, and Urabe, Itaru

Subjects

NUCLEOTIDE sequence, BACILLUS (Bacteria), GENES, ENZYMES, CHROMATOGRAPHIC analysis, BIOCHEMISTRY

Abstract

The nucleotide sequence of the β-xylosidase (xynB) gene from Bacillus pumilus has been reported previously [Moriyama, H., Fukusaki, E., Crespo, J. C., Shinmyo, A. & Okada, H. (1987) Eur. J. Biochem. 166, 539–545]. However, the sequence identified in the present study is quite different from the previously reported one. The total length of the PstI-EcoBI fragment of a plasmid pOXN295 containing the xynB gene is 2201 bp from our sequencing, while the length of the fragment in the previous data was 2466 bp. The sequences are similar in the N-terminal (500 bp) and C-terminal (260 bp) regions, but those in the central region are completely different. From the following observations, the previous sequence seems to have no reliable experimental basis. First, the restriction sites observed for pOXN295 are quite different from the sites deduced from the sequence. Second, the amino acid composition deduced from the sequence and the composition identified by amino acid analysis of the purified β-xylosidase are very different. It is confirmed, on the other hand, that our new sequence agrees well with these experimental data. The enzyme was purified to homogeneity from Bacillus pumilus and Escherichia coli harboring a hybrid plasmid which highly expresses the xynB gene. The molecular mass of the enzyme was estimated to be 190 kDa by high performance gel filtration chromatography using TSK-G3000SW and 56 kDa by SDS/polyacrylamide gel electrophoresis. The pH optimum was 7.0, and the optimum temperature was 40 °C. The Vm value was estimated to be 1.23±0.14 μkat/mg (for p-nitrophenyl β-D-xyloside) and 0.14±0.011 μkat/mg (for xylobiose), while Km was estimated to be 3.9±0.59 mM (for p-nitrophenyl β-D-xyloside) and 8.9±1.19 mM (for xylobiose). [ABSTRACT FROM AUTHOR]

Published

1991

4. Amino acid alterations essential for increasing the catalytic activity of the nylon-oligomer-degradation enzyme of <em>Flavobacterium</em> sp.

Author

Kato, Ko, Fujiyama, Kazuhito, Hatanaka, Haruyo Sawai, Priyambada, Irfan Dwidya, Negoro, Seiji, Urabe, Itaru, and Okada, Hirosuke

Subjects

ENZYMES, CATALYSIS, AMINO acids, PEPTIDES, METHYLOBACTERIUM extorquens, GENES

Abstract

The structural genes of two homologous enzymes, 6-aminohexanoate-dimer hydrolase (EII; nylB) and its evolutionally related protein EII' (nylB') of Flavobacterium sp. KI72 have an open reading frame encoding a peptide of 392 amino acids, of which 47 are different, and conserved restriction sites. The specific activity of EII towards 6-aminohexanoate dimer is about 1000-fold that of EII'. Construction of various hybrid genes obtained by exchanging fragments flanked by conserved restriction sites of the two genes demonstrated that two amino acid replacements in the EII' enzyme, i.e. Gly181 → Asp (EII type) and His266 → Asn (EII type), enhanced the activity toward 6-aminohexanoate dimer 1000-fold. [ABSTRACT FROM AUTHOR]

Published

1991

5. History dependent effects on phenotypic expression of a newly emerged gene

Author

Suzuki, Takao, Kashiwagi, Akiko, Mori, Kotaro, Urabe, Itaru, and Yomo, Tetsuya

Subjects

*GENE expression, *PHENOTYPES, *GENES, *GENETIC research

Abstract

In this study, we investigate the history dependence of the penetrance of a newly emerged gene. Penetrance is defined as the percentage of individuals with a given genotype who exhibit the phenotype associated with that particular genotype. Here, we used the glutamine synthetase gene and its mutants with lower fitness as model genes. They were introduced into host cells of Escherichia coli deprived of the gene, and their penetrance was measured using the host having a different history: either with or without glutamine starvation. Results show that for all genes tested, the value of penetrance was higher when they were introduced into the host cell without starvation than that when introduced into the starved cell, demonstrating the history dependence of the penetrance of a newly emerged gene. In addition, genes with lower fitness showed lower penetrance, and the effect of the difference in fitness on gene penetrance also depended on the history of the host cell. [Copyright &y& Elsevier]

Published

2004

6. Global change in Escherichia coli gene expression in initial stage of symbiosis with Dictyostelium cells

Author

Matsuyama, Shin-Ichi, Furusawa, Chikara, Todoriki, Masahiko, Urabe, Itaru, and Yomo, Tetsuya

Subjects

*DICTYOSTELIUM, *DICTYOSTELIACEAE, *GENES, *ESCHERICHIA coli

Abstract

Genome-wide gene expression profiling was performed to investigate the early formation of symbiosis using an artificial symbiosis of Escherichia coli and Dictyostelium discoideum. We have previously reported that when these two species were allowed to grow on minimal agar plates, they achieved a stable state of coexistence, in which the emerging E. coli colonies housing Dictyostelium cells were of a mucoidal nature that was not observed originally. We used this microbiological system as a model to study the initial stages of the development of the symbiotic relationship. The E. coli gene expression profiles of symbiotic cells and non-symbiotic cells captured using GeneChip technology were compared. It was clearly shown that the gene expression profile was substantially altered in E. coli cells undergoing symbiotic transition. The genes responsible for central energy metabolism as well as those responsible for translation apparatus were down-regulated in symbiotic E. coli. The transcriptional patterns of genes coding for the E. coli cell surface structure were drastically altered, and this alteration may determine the mucoidal nature and unique structure of coexisting colonies. General stress inducible genes were expressed at low levels in symbiotic E. coli. These observed changes in the transcription profile indicate that the central metabolism of symbiotic E. coli is attenuated as a whole, and the cells are probably under less stress because of the benefits brought by coexistence with the symbiotic counterpart Dictyostelium. [Copyright &y& Elsevier]

Published

2004