Shinjiro Ogita

The effects of glutamine of the maintenance of embryogenic cultures of Cryptomeria japonica

SummaryEmbryogenic tissues of sugi (Cryptomeria japonica) were induced on a modified Campbell and Durzan (CD) medium containing 1 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 600 mg l−1 glutamine, and subcultured in the medium of the same composition for over 1 yr. This resulted in a mixed culture of embryogenic and non-embryogenic cells. When embryogenic cells were isolated and cultured independently, their capacity to form embryogenic aggregates was lost. Thus, the non-embryogenic cells present within a mixed culture system were essential to the formation of embryogenic aggregates. When embryogenic tissues were isolated and cultured independently on a high glutamine-containing (2400 mg l−1) medium, dry weights and endogenous levels of glutamine increased, and the tissue could generate a large number of embryogenic aggregates. Amino acid analysis of embryogenic and non-embryogenic cells from the maintenance culture indicated a higher level of glutamine was present in the latter. The high endogenous level of glutamine in the non-embryogenic portion of mixed cell masses may be the supplier of glutamine for maintaining the embryogenic property of the tissues.

Distribution and biosynthesis of theanine in Theaceae plants.

The theanine content of the leaves of 27 species or varieties of Theaceae plants was investigated. Theanine was present in 21 species or varieties, but in much lower amounts (<0.2 mumol/g fresh weight) than the quantity detected in Camellia sinensis var. sinensis. The major free amino acids in leaves of four species belonging to the genera Schima and Eurya, were glutamic acid, aspartic acid, glutamine, asparagine, alanine and proline and content of these amino acids is similar to or higher than theanine. Accumulation of free amino acids in these plants was generally lower than in C. sinensis var. sinensis. The biosynthetic activity of theanine, assessed by the incorporation of radioactivity from [(14)C]ethylamine, was detected in seedlings of two species of Schima. The theanine biosynthetic activity in roots was higher than that of leaves.

Somatic embryogenesis from immature and mature zygotic embryos of Cryptomeria japonica I: Embryogenic cell induction and its morphological characteristics

Embryogenic cells (ECs) of sugi (Cryptomeria japonica D. Don) were induced from immature and mature zygotic embryos cultured on different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D)-containing modified Campbell and Durzan medium. The rate of induction of ECs varied depending on the stage of embryos collected. The highest percentage of induction (35%) was obtained with immature zygotic embryos collected July 18 and July 30, 1997, when 1 μM of 2,4-D was added to the induction medium. The ECs easily proliferated when subcultured in a medium of the same composition as the induction medium within 3 weeks. Morphological characteristics of nonembryogenic cells and embryogenic cells of different developmental stages were studied under an inverted fluorescence microscope.

Dissolution and acetylation of ball-milled birch (Betula platyphylla) and bamboo (Phyllostachys nigra) in the ionic liquid [Bmim]Cl for HSQC NMR analysis

Abstract A method for nuclear magnetic resonance (NMR) characterization of whole cell wall components, including lignin, cellulose and hemicelluloses, was recently developed in our laboratory. The method described for fir (Abies sachalinensis) as a softwood consists of ball-milling of cell wall, dissolution in an ionic liquid 1-butyl-3-methylimidazolium chloride ([Bmim]Cl), in situ acetylation, recovery of the material from the solution, and characterization of the product by 1H-13C correlation heteronuclear single quantum coherence (HSQC) NMR spectroscopy in dimethyl sulfoxide (DMSO)-d6. In the present paper, the performance of the method should be tested for a hardwood and a bamboo. Thus, Japanese white birch (Betula platyphylla) and hachiku bamboo (Phyllostachys nigra) have been investigated. Finely ball-milled birch and bamboo materials were completely dissolved in [Bmim]Cl at 100°C without severe chemical modification of the cell wall components. The dissolved cell walls were then subjected to in situ acetylation, and the ball-milled and fully acetylated cell walls were recovered from [Bmim]Cl. Longer ball-milling time was required for birch and bamboo cell walls, because of the lower solubility of acetylated birch and bamboo materials in DMSO-d6compared to the acetylated fir material. However, HSQC NMR experiments were successfully conducted, and the acetylated whole cell wall components in the birch and bamboo could be fully characterized. This method is applicable for the analysis of cell wall components of various plant biomasses without previous isolation. Further studies are necessary to improve the method.

A novel xylogenic suspension culture model for exploring lignification in Phyllostachys bamboo

BackgroundSome prominent cultured plant cell lines, such as the BY-2 cell line of tobacco (Nicotiana tabacum cv. ‘Bright Yellow 2’) and the T87 cell line of Arabidopsis (Arabidopsis thaliana L. Heynh., ecotype Columbia) are used as model plant cells. These suspension cell culture systems are highly applicable for investigating various aspects of plant cell biology. However, no such prominent cultured cell lines exist in bamboo species.ResultsWe standardized a novel xylogenic suspension culture model in order to unveil the process of lignification in living bamboo cells. Initial signs of lignin deposition were able to be observed by a positive phloroglucinol-HCl reaction at day 3 to 5 under lignification conditions (LG), i.e., modified half-strength Murashige and Skoog medium (m1/2MS) containing 10 μM 6-benzyladenine (BA) and 3% sucrose. Two types of xylogenic differentiation, both fiber-like elements (FLEs) with cell wall thickening and tracheary elements (TEs) with formation of perforations in the cell wall, were observed under these conditions. The suspension cells rapidly formed secondary cell wall components that were highly lignified, making up approximately 25% of the cells on a dry weight basis within 2 weeks. Detailed features involved in cell growth, differentiation and death during lignification were characterized by laser scanning microscopic imaging. Changes in transcript levels of xylogenesis-related genes were assessed by RT-PCR, which showed that the transcription of key genes like PAL1, C4H, CCoAOMT, and CCR was induced at day 4 under LG conditions. Furthermore, interunit linkage of lignins was compared between mature bamboo culms and xylogenic suspension cells by heteronuclear single quantum coherence (HSQC) NMR spectroscopy. The presence of the most common interunit linkages, including β-aryl ether (β-O-4), phenylcoumaran (β-5) and resinol (β-β) structures was identified in the bamboo cultured cell lignin (BCCL) by HSQC NMR. In addition to these common features of lignin, several differences in lignin substructures were also found between the BCCL and the bamboo milled wood lignin (BMWL).ConclusionsOur xylogenic suspension culture model could be used for detailed characterization of physiological and molecular biological events in living bamboo cells.

Ethylamine Content and Theanine Biosynthesis in Different Organs of Camellia sinensis Seedlings

We examined the distribution of ethylamine, glutamic acid and alanine, which are utilized in theanine biosynthesis, and other major amino acids in leaves, stems, cotyledons and roots of 6-week-old tea seedlings. Ethylamine and glutamic acid, which are substrates of theanine synthetase, were distributed almost uniformly in all parts of the seedlings; the contents in μmol/g fresh wt varied from 0.44 - 0.88 (ethylamine) and 1.6 - 2.4 (glutamic acid). The content of alanine, a possible precursor of ethylamine synthesis, was significantly higher in roots (3.1 μmol/g fresh wt) than in other parts. Incorporation of radioactivity from [U-14C]- alanine into theanine was also higher in roots than in other organs. In 10-week-old seedlings, [1-14C]ethylamine was converted to theanine in young and developed leaves, stems, main and lateral roots; the highest rates of conversion were detected in the main and lateral roots. These results suggest that the theanine synthesis preferentially takes place in roots but is not restricted to them; substrates and the enzymatic machinery for theanine synthesis are available in all parts of tea seedlings

Expression of Caffeine Biosynthesis Genes in Tea (Camellia sinensis)

Using semi-quantitative reverse transcription-PCR, we studied the expression of genes encoding caffeine synthase (TCS1), inosine-5′-monophosphate dehydrogenase (TIDH), Sadenosyl- l-methionine synthase (sAMS), phenylalanine ammonia-lyase (PAL) and α-tubulin (Tua1) in young and mature leaves, stems and roots of 4-month-old tea seedlings and young and old tea tissue cultures. The amounts of transcripts of TCS1 were much higher in young leaves than in other parts of the plant. Expression of TIDH was greater in leaves than in other parts. Little difference in the amounts of transcripts of PAL, sAMS and Tua1 was found between various organs of tea seedlings. Larger amounts of transcripts of TCS1 and PAL were found in young callus tissues than in old tissues. These results support our conclusion deriving from previous enzymatic and metabolic studies that caffeine is synthesized mainly in young leaf tissues. We propose that marked caffeine biosynthesis in young leaves is dependent on a greater expression of the TCS1 gene in the organ

Influence of osmotic pressure on somatic embryo maturation in Pinus densiflora

The effect of an osmoticum, polyethylene glycol (PEG), on somatic embryo production was examined using embryogenic cells of Pinus densiflora. In the basal medium containing 30 µM abscisic acid and 6% maltose, the quality of the embryos formed was poor even though somatic embryos were produced. The addition of PEG with molecular weight of 4000 or 8000 significantly enhanced the development of both the quality and quantity of somatic embryos. Furthermore, higher levels of a constant osmotic pressure with PEG 8000 in a range from about 300 to 450 mmol/kg could remarkably enhance the morphogenesis of somatic embryos and their number of embryos produced. A higher stable osmotic pressure with an appropriate molecular weight of PEG is a key factor for the production of good quality somatic embryos in P. densiflora.

Purification and characterization of a tuliposide-converting enzyme from bulbs of Tulipa gesneriana.

An enzyme that catalyzes the stoichiometric conversion of 6-tuliposide into tulipalin was purified and characterized from bulbs of Tulipa gesneriana. The enzyme appeared to be a dimer, the relative molecular mass (Mr) of each subunit being 34,900; it had maximum activity and stability at neutral pH and moderate temperature. The enzyme preferentially acted on such glucose esters as 6-tuliposides, and to a lesser extent on p-nitrophenylacetate.

Maturation and plant recovery from embryogenic cells of Japanese larch: Effect of abscisic acid in relation to their morphology

Two embryogenic cell lines characterized by different morphology and color, white and red, were obtained from an immature zygotic embryo of Japanese larch (Larix leptolepis Gord.). Mature somatic embryos with cotyledons and regenerated plants were obtained from both cell lines. However optimal concentration of abscisic acid (ABA) for maturation varied depending on morphology of ECs. From the white ECs which intermingled with somatic embryos of very early stage, mature somatic embryos were induced on maturation medium containing 50 μM of ABA. On the other hand, mature somatic embryos with cotyledons were observed from the red ECs which consisted of somatic embryos of more developed stage on hormone-free medium or 0.1 μM ABA containing-medium.