Ichiro Chibata

Bio: Ichiro Chibata is an academic researcher. The author has contributed to research in topics: Amino acid & Isoleucine. The author has an hindex of 42, co-authored 307 publications receiving 6779 citations.

Immobilized Aspartase-Containing Microbial Cells: Preparation and Enzymatic Properties

Abstract: The immobilization of asparatase-containing Escherichia coli was investigated by various methods, and the most active immobilized cells were obtained by entrapment in a polyacrylamide gel lattice. Other asparatase-containing bacteria were also entrapped by the same method, and the enzymatically active immobilized cells were obtained. The aspartase activity of the immobilized E. coli cells was increased nine- to tenfold by autolysis of the cells entrapped in the gel lattice. Enzymatic properties of the immobilized E. coli cells were investigated and compared with those of the intact cells. The optimal pH was 8.5 for the immobilized cells and 10.5 for the intact cells. The aspartase activities of immobilized and intact cells were not activated by Mn(2+), which can activate the immobilized and native aspartases. The heat stability of the immobilized cells was somewhat higher than that of the intact cells. Bivalent metal ions such as Mn(2+), Mg(2+), Ca(2+) protected against thermal inactivation of the aspartase activity of the immobilized and intact cells.

Continuous production of ethanol using immobilized growing yeast cells

Abstract: Immobilized growing yeast cells were prepared in kappa-carra-geenan gel. Gel beads containing a small number of cells were incubated in a complete medium. The cells grew very well in the gel and the number of living cells per ml of gel increased to over 10 times that of free cells per ml of culture medium. After growing in the gel, the cells formed a dense layer of cells near the gel surface and produced large amounts of ethanol. The conditions for continuous production of ethanol using immobilized growing yeast cells were investigated. The supply of appropriate nutrients for growth was essential for the continuous production. The living cells in the gel were maintained at the high level of 109 per ml of gel and continuous production of ethanol using the complete medium containing 10% glucose was carried out with a retention time of 1 h. In this operation, a stable steady state was maintained for longer than 3 months. The ethanol concentration was 50 mg/ml and the conversion of glucose utilized to ethanol produced was almost 100% of the theoretical yield.

Immobilization of enzymes and microbial cells using carrageenan as matrix.

Abstract: Conditions for the gelation k-carrageenan, which is a new polymer for immobilization of enzymes and microbial cells, were investigated in detail k-Carrageenan was easily induced to gel by contact with metal ions, amines, amino acid derivatives, and water-miscible organic solvents By using this property of k-carrageenan, the immobilization of enzymes and microbial cells was investigated Several kinds of enzymes and microbial cells were easily immobilized with high enzyme activities Immobilized preparations were easily tailor-made to various shape such as cube, bead, and membrane The obtained immobilized preparations were stable, and columns packed with them were used for continuous enzyme reaction for a long period Their operational stabilities were enhanced by hardening with glutaraldehyde and hexamethylenediamine

Production of l-Phenylalanine from trans-Cinnamic Acid with Rhodotorula glutinis Containing l-Phenylalanine Ammonia-Lyase Activity

Abstract: An enzymatic method using l-phenylalanine ammonia-lyase (EC 4.3.1.5) for the rapid conversion of trans-cinnamic acid to l-phenylalanine has been investigated. With Rhodotorula glutinis, enzyme activity as high as 0.3 U/ml of culture broth was obtained. The enzyme activity was kept stable for a relatively long time during cultivation by the addition of l-isoleucine. Optimization of the parameters of the conversion reaction resulted in accumulation of 18 mg of l-phenylalanine per ml of reaction mixture. The conversion yield from trans-cinnamic acid was about 70%. The method may provide a rapid and practical way to produce l-phenylalanine useful as an essential amino acid.

Plasminogen activators, tissue degradation, and cancer.

Abstract: Publisher Summary This chapter discusses the role of plasminogen activators in various biological processes. In specific, it describes two types of plasminogen activators—namely, the urokinase-type plasminogen activator (u-PA) and the tissue-type plasminogen activator (t-PA), which are essentially different gene products. The amino acid sequences of these activators and nucleotide sequences of the corresponding cDNAs have largely been determined, and the cDNAs have been cloned using recombinant techniques. A variety of enzymatic as well as immunological assay and detection methods have also been developed that allows a precise quantification of the activators, a distinction between u-PA and t-PA, determination of whether an activator is present in its active or zymogen form, analysis of the kinetics of different steps of the cascade reaction, and immunocytochemical identification of u-PA and t-PA in tissue sections. Much of the studies on plasminogen activators and cancer has been guided by the hypothesis that proteolysis of the components of extracellular matrix, initiated by the release of plasminogen activator from the cancer cells, plays a decisive role for the degradation of normal tissue, and thereby for invasive growth and metastases.

A review on phytoremediation of heavy metals and utilization of its byproducts.

Abstract: This review presents the status of phytoremediation technologies with particular emphasis on phytoextraction of soil heavy metal contamination. Unlike organic compounds, metals cannot be degraded, and cleanup usually requires their removal. Most of the conventional remedial technologies are expensive and inhibit the soil fertility; this subsequently causes negative impacts on the ecosystem. Phytoremediation is a cost effective, environmental friendly, aesthetically pleasing approach most suitable for developing countries. Despite this potential, phytoremediation is yet to become a commercially available technology in India. This paper reports about the mobility, bioavaliability and plant response to presence of soil heavy metals. It classifies the plants according to phytoextraction mechanism and discusses the pathway of metal in plants. Various techniques to enhance phytoextraction and utilization of by-products have been elaborated. Since lot of biomass is produced during this process, it needs proper disposal and management. It also gives an insight into the work done by authors, which focuses on high biomass extractor plants. High biomas weeds were selected to restrict the passage of contaminants into the food chain by selecting non-edible, disease resistant and tolerant plants, which can provide renewable energy. Thus making phytoextraction more viable for present utilization. Keywords. heavy metals, phytoextraction, hyperaccumulator, indicator, excluder species