Your search keyword '"Kyo Wakasa"' showing total 55 results

1. Genome-wide DNA polymorphisms in seven rice cultivars of temperate and tropical japonica groups.

Author

Yuko Arai-Kichise, Yuh Shiwa, Kaworu Ebana, Mari Shibata-Hatta, Hirofumi Yoshikawa, Masahiro Yano, and Kyo Wakasa

Subjects

Medicine, Science

Abstract

Elucidation of the rice genome is expected to broaden our understanding of genes related to the agronomic characteristics and the genetic relationship among cultivars. In this study, we conducted whole-genome sequencings of 6 cultivars, including 5 temperate japonica cultivars and 1 tropical japonica cultivar (Moroberekan), by using next-generation sequencing (NGS) with Nipponbare genome as a reference. The temperate japonica cultivars contained 2 sake brewing (Yamadanishiki and Gohyakumangoku), 1 landrace (Kameji), and 2 modern cultivars (Koshihikari and Norin 8). Almost >83% of the whole genome sequences of the Nipponbare genome could be covered by sequenced short-reads of each cultivar, including Omachi, which has previously been reported to be a temperate japonica cultivar. Numerous single nucleotide polymorphisms (SNPs), insertions, and deletions were detected among the various cultivars and the Nipponbare genomes. Comparison of SNPs detected in each cultivar suggested that Moroberekan had 5-fold more SNPs than the temperate japonica cultivars. Success of the 2 approaches to improve the efficacy of sequence data by using NGS revealed that sequencing depth was directly related to sequencing coverage of coding DNA sequences: in excess of 30× genome sequencing was required to cover approximately 80% of the genes in the rice genome. Further, the contigs prepared using the assembly of unmapped reads could increase the value of NGS short-reads and, consequently, cover previously unavailable sequences. These approaches facilitated the identification of new genes in coding DNA sequences and the increase of mapping efficiency in different regions. The DNA polymorphism information between the 7 cultivars and Nipponbare are available at NGRC_Rices_Build1.0 (http://www.nodai-genome.org/oryza_sativa_en.html).

Published

2014

2. Activity of Icacinol from Icacina trichantha on Seedling Growth of Oryza sativa and Arabidopsis thaliana

Author

Katherine M. Warpeha, Tiffany Wong, Kyo Wakasa, Michael Monday Onakpa, Chun-Tao Che, Ming Zhao, and Brian Guo

Subjects

0106 biological sciences, Arabidopsis, Plant Weeds, Pharmaceutical Science, Germination, 01 natural sciences, Article, Analytical Chemistry, Crop, chemistry.chemical_compound, Drug Discovery, Arabidopsis thaliana, Panicle, Pharmacology, Oryza sativa, biology, Herbicides, 010405 organic chemistry, fungi, Organic Chemistry, food and beverages, Oryza, biology.organism_classification, 0104 chemical sciences, Plant Leaves, Horticulture, Complementary and alternative medicine, chemistry, Seedlings, Seedling, Chlorophyll, Seeds, Molecular Medicine, Diterpenes, 010606 plant biology & botany

Abstract

Broadleaf weeds are very costly for crop growers. Additional herbicidal compounds need to be obtained, especially from natural sources. Extracts of Icacina trichantha were evaluated for responses in germinating seeds and seedlings of rice (Oryza sativa) and Arabidopsis (Arabidopsis thaliana). An ethyl acetate fraction of I. trichantha tuber and a diterpenoid constituent, icacinol (1), were found to have impacts on germination and growth of seedlings. The seed germination inhibitory activity on rice was minimal, but significant on Arabidopsis. While rice indicated some growth delay in leaf expansion in the presence of 1, the effects appeared temporary; chlorophyll and anthocyanins were not significantly altered compared to DMSO controls. Rice seedlings attained biomass similar to DMSO controls, and rice grains per panicle were not significantly different than the DMSO-controls. On the other hand, Arabidopsis exhibited damage to leaf expansion, reduced chlorophyll, and increased anthocyanins in aerial portions of the seedlings. Icacinol (1) may be a suitable chemical agent to investigate further for the treatment of eudicot weeds.

Published

2017

3. Biochemical and molecular characterization of orange- and tangerine-colored rice calli

Author

Mari Shibata-Hatta, Kyo Wakasa, Tetsuya Yamada, Yuko Arai-Kichise, Satoru Watanabe, Kazuhiko Ohishi, Hirofumi Yoshikawa, and Atsushi Ishihara

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, chemistry, Colored, Callus, Botany, Plant Science, Orange (colour), Biology, Agronomy and Crop Science, Carotenoid, Lycopene, Biotechnology

Published

2015

4. Construction of Pseudomolecule Sequences of the aus Rice Cultivar Kasalath for Comparative Genomics of Asian Cultivated Rice

Author

Jianzhong Wu, Youko Oono, Satoshi Katagiri, Kanako Kurita, Yoshiyuki Mukai, Kaworu Ebana, Masahiro Yano, Hiroyuki Kanamori, Hiroaki Sakai, Yuko Arai-Kichise, Takashi Matsumoto, Masao Hamada, Kyo Wakasa, Yuichi Katayose, Mari Shibata-Hatta, Hiroko Fujisawa, and Takeshi Itoh

Subjects

Asia, Oryza sativa, comparative genomics, Biology, Oryza, Genome, Polymorphism, Single Nucleotide, SNPs and indels, INDEL Mutation, Genetics, Indel, Molecular Biology, Gene, Comparative genomics, Genomic Library, food and beverages, Chromosome Mapping, General Medicine, Sequence Analysis, DNA, Full Papers, biology.organism_classification, Plant Leaves, genome re-sequencing, Transcriptome, Genome, Plant, Reference genome, gain and loss of genes

Abstract

Having a deep genetic structure evolved during its domestication and adaptation, the Asian cultivated rice (Oryza sativa) displays considerable physiological and morphological variations. Here, we describe deep whole-genome sequencing of the aus rice cultivar Kasalath by using the advanced next-generation sequencing (NGS) technologies to gain a better understanding of the sequence and structural changes among highly differentiated cultivars. The de novo assembled Kasalath sequences represented 91.1% (330.55 Mb) of the genome and contained 35 139 expressed loci annotated by RNA-Seq analysis. We detected 2 787 250 single-nucleotide polymorphisms (SNPs) and 7393 large insertion/deletion (indel) sites (>100 bp) between Kasalath and Nipponbare, and 2 216 251 SNPs and 3780 large indels between Kasalath and 93-11. Extensive comparison of the gene contents among these cultivars revealed similar rates of gene gain and loss. We detected at least 7.39 Mb of inserted sequences and 40.75 Mb of unmapped sequences in the Kasalath genome in comparison with the Nipponbare reference genome. Mapping of the publicly available NGS short reads from 50 rice accessions proved the necessity and the value of using the Kasalath whole-genome sequence as an additional reference to capture the sequence polymorphisms that cannot be discovered by using the Nipponbare sequence alone.

Published

2014

5. A visible assay for meiotic homologous recombination in pollens of rice

Author

Yasuko Kanno, Takeshi Tokai, Kyo Wakasa, Takehiko Shibata, and Yoshinori Shingu

Subjects

Genetics, Meiosis, Fluorescent protein, Plant Science, Biology, Homologous recombination, Agronomy and Crop Science, Genetically modified rice, Biotechnology

Published

2014

6. Production of indole alkaloids by metabolic engineering of the tryptophan pathway in rice

Author

Kyo Wakasa, Atsushi Ishihara, Joseph G. Dubouzet, Fumio Matsuda, and Hisashi Miyagawa

Subjects

Tryptamine, Serotonin, Plant Science, Biology, Gene Expression Regulation, Enzymologic, Indole Alkaloids, Metabolic engineering, chemistry.chemical_compound, Gene Expression Regulation, Plant, Phylogeny, Anthranilate Synthase, Plant Proteins, Indole test, Aromatic L-amino acid decarboxylase, Expression vector, Tryptophan, food and beverages, Oryza, Plants, Genetically Modified, Tryptamines, Phenotype, Metabolic Engineering, Biochemistry, chemistry, Aromatic-L-Amino-Acid Decarboxylases, Seedlings, Metabolome, biology.protein, Anthranilate synthase, Agronomy and Crop Science, Metabolic Networks and Pathways, Biotechnology

Abstract

Tryptophan decarboxylase (TDC) converts tryptophan (Trp) into tryptamine, consequently increasing the metabolic flow of tryptophan derivatives into the production of secondary metabolites such as indole alkaloids. We inserted an expression cassette containing OsTDC, a putative tryptophan decarboxylase gene from rice, into an expression plasmid vector containing OASA1D, the feedback-resistant anthranilate synthase alpha-subunit mutant (OASA1D). Overexpression of OASA1D has been reported to significantly increase Trp levels in rice. The co-expression of OsTDC and OASA1D in rice calli led to almost complete depletion of the Trp pool and a consequent increase in the tryptamine pool. This indicates that TDC inactivity is a contributory factor for the accumulation of Trp in rice transgenics overexpressing OASA1D. Metabolic profiling of the calli expressing OsTDC and OASA1D revealed the accumulation of serotonin and serotonin-derived indole compounds (potentially pharmacoactive β-carbolines) that have not been reported from rice. Rice calli overexpressing OASA1D:OASA1D is a novel system for the production of significant amounts of pharmacologically useful indole alkaloids in rice.

Published

2013

7. Differential response of methionine metabolism in two grain legumes, soybean and azuki bean, expressing a mutated form of Arabidopsis cystathionine γ-synthase

Author

Shaikh M. Rahman, Toru Fujiwara, Satoshi Naito, Kyo Wakasa, Masao Ishimoto, Moemen S. Hanafy, and Yumi Nakamoto

Subjects

Physiology, Transgene, Carbon-Oxygen Lyases, Mutant, Arabidopsis, Plant Science, Biology, Genes, Plant, Gene Expression Regulation, Enzymologic, chemistry.chemical_compound, Cystathionine, Methionine, Plant Growth Regulators, Biosynthesis, Gene Expression Regulation, Plant, Arabidopsis thaliana, chemistry.chemical_classification, food and beverages, Fabaceae, Plants, Genetically Modified, biology.organism_classification, Cystathionine beta synthase, Amino acid, chemistry, Biochemistry, Mutation, Seeds, biology.protein, Soybeans, Agronomy and Crop Science

Abstract

Methionine (Met) is a sulfur-containing amino acid that is essential in mammals and whose low abundance limits the nutritional value of grain legumes. Cystathionine γ-synthase (CGS) catalyzes the first committed step of Met biosynthesis, and the stability of its mRNA is autoregulated by the cytosolic concentration of S-adenosyl-l-methionine (SAM), a direct metabolite of Met. The mto1-1 mutant of Arabidopsis thaliana harbors a mutation in the AtCGS1 gene that renders the mRNA resistant to SAM-dependent degradation and therefore results in the accumulation of free Met to high levels in young leaves. To manipulate Met biosynthesis in soybean and azuki bean, we introduced the AtCGS1 mto1-1 gene into the two grain legumes under the control of a seed-specific glycinin gene promoter. Transgenic seeds of both species accumulated soluble Met to levels at least twice those apparent in control seeds. However, the increase in free Met did not result in an increase in total Met content of the transgenic seeds. In transgenic azuki bean seeds, the amount of cystathionine, the direct product of CGS, was markedly increased whereas the total content of Met was significantly decreased compared with control seeds. Similar changes were not detected in soybean. Our data suggest that the regulation of Met biosynthesis differs between soybean and azuki bean, and that the expression of AtCGS1 mto1-1 differentially affects the metabolic stability of sulfur amino acids and their metabolites in the two grain legumes.

Published

2013

8. Evaluation of amino acid content and nutritional quality of transgenic soybean seeds with high-level tryptophan accumulation

Author

Kojiro Takanashi, Mutasim M. Khalafalla, Yoichi Kita, Fumio Matsuda, Shaikh M. Rahman, Hany A. El-Shemy, Yumi Nakamoto, Masao Ishimoto, Hisashi Miyagawa, Moemen S. Hanafy, Kyo Wakasa, Tomoko Funabashi, and Yoshihiro Murano

Subjects

chemistry.chemical_classification, biology, Animal food, Transgene, Tryptophan, food and beverages, Plant Science, Genetically modified crops, biology.organism_classification, Amino acid, Transformation (genetics), Biochemistry, chemistry, Genetics, biology.protein, Cauliflower mosaic virus, Anthranilate synthase, Agronomy and Crop Science, Molecular Biology, Biotechnology

Abstract

Anthranilate synthase (AS) is a key regulatory enzyme in tryptophan (Trp) biosynthesis and is subject to feedback inhibition by Trp. The gene encoding a mutated feedback-resistant α subunit of rice AS (OASA1D) under the control of either a soybean glycinin gene promoter or the 35S promoter of cauliflower mosaic virus for seed-specific or constitutive expression, respectively, was introduced into soybean [Glycine max (L.) Merrill] by particle bombardment. A total of seven different transgenic lines that showed markedly increased accumulation of free Trp in their seeds were developed. The overproduction of free Trp was stably inherited in subsequent generations without any apparent detrimental effect on plant growth or reproduction. The total Trp content of transgenic seeds was also about twice that of nontransgenic seeds, whereas the amount of protein-bound Trp was not substantially affected by OASA1D expression. In spite of the marked increase in free Trp content, metabolic profiling by high-performance liquid chromatography coupled with mass spectrometry revealed little change in the amounts of other aromatic compounds in the transgenic seeds. We developed a rapid and feasible system based on farmed rainbow trout to evaluate the nutritional quality of a limited quantity of transgenic soybean seeds. Supplementation of fish food with OASA1D transgenic soybean seeds or with nontransgenic seeds plus crystalline Trp increased the growth rate of the farmed fish. These results indicate transformation with OASA1D is a reliable approach to improve the nutritional quality of soybean (or of other grain legumes) for human and animal food.

Published

2009

9. Metabolism of indole-3-acetic acid in rice: Identification and characterization of N-β-d-glucopyranosyl indole-3-acetic acid and its conjugates

Author

Kenji Kai, Hisashi Miyagawa, and Kyo Wakasa

Subjects

Spectrometry, Mass, Electrospray Ionization, Indoles, Lotus japonicus, Glutamic Acid, macromolecular substances, Plant Science, Horticulture, Plant Roots, Biochemistry, Hydrolysate, chemistry.chemical_compound, Tandem Mass Spectrometry, heterocyclic compounds, Molecular Biology, Indole test, chemistry.chemical_classification, Aspartic Acid, Oryza sativa, Indoleacetic Acids, biology, Plant Extracts, Monosaccharides, food and beverages, Oryza, General Medicine, Metabolism, biology.organism_classification, Amides, Amino acid, carbohydrates (lipids), Metabolic pathway, chemistry, lipids (amino acids, peptides, and proteins), Indole-3-acetic acid, Plant Shoots, Chromatography, Liquid

Abstract

A search was made for conjugates of indole-3-acetic acid (IAA) in rice (Oryza sativa) using liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS) in order to elucidate unknown metabolic pathways for IAA. N-beta-d-Glucopyranosyl indole-3-acetic acid (IAA-N-Glc) was found in an alkaline hydrolysate of rice extract. A quantitative analysis of 3-week-old rice demonstrated that the total amount of IAA-N-Glc was equal to that of IAA. A LC-ESI-MS/MS-based analysis established that the major part of IAA-N-Glc was present as bound forms with aspartate and glutamate. Their levels were in good agreement with the total amount of IAA-N-Glc during the vegetative growth of rice. Further detailed analysis showed that both conjugates highly accumulated in the root. The free form of IAA-N-Glc accounted for 60% of the total in seeds but could not be detected in the vegetative tissue. An incorporation study using deuterium-labeled compounds showed that the amino acid conjugates of IAA-N-Glc were biosynthesized from IAA-amino acids. IAA-N-Glc and/or its conjugates were also found in extracts of Arabidopsis, Lotus japonicus, and maize, suggesting that N-glucosylation of indole can be the common metabolic pathway of IAA in plants.

Published

2007

10. Metabolomics for metabolically manipulated plants: effects of tryptophan overproduction

Author

Hisashi Miyagawa, Fumio Matsuda, Kyo Wakasa, and Atsushi Ishihara

Subjects

Endocrinology, Diabetes and Metabolism, Transgene, Metabolite, Clinical Biochemistry, Tryptophan, food and beverages, Biology, Biochemistry, Metabolic engineering, chemistry.chemical_compound, Metabolic pathway, Metabolomics, chemistry, Aromatic amino acids, biology.protein, Anthranilate synthase

Abstract

Advances in molecular breeding technologies have enabled manipulation of the concentrations of specific plant components by modifying the genes that play a key role in their production. This has provided new opportunities to enhance the nutritional quality of major crops. However, given that metabolic pathways form a highly integrated network, any alteration in a given biosynthetic pathway is most likely to effect secondary and unpredicted changes in the metabolite profile of other pathways. Metabolomics technologies can contribute to the efficient detection of such unexpected effects caused by genetic modification. This has relevance not only from the perspective of safety evaluations of newly developed crops, but to basic science focused on uncovering hitherto unknown regulatory mechanisms associated with the biosynthesis and catabolism of primary and secondary metabolites in plants. In this review, recent advances in plant metabolic engineering for the overproduction of tryptophan (Trp), one of the essential amino acids, are described. In particular, the efficacy of a transgene OASA1D that encodes a mutant anthranilate synthase (AS) α subunit of rice in specifically elevating levels of Trp without marked secondary effects on the metabolite profile of rice is demonstrated. Related topics, such as regulation of Trp biosynthesis, possible interactions between the biosyntheses of Trp and other aromatic amino acids, and translocation of Trp in are discussed based on findings derived from metabolomic analyses of Trp-overproducing transgenic plants.

Published

2007

11. Integrated metabolomic and transcriptomic analyses of high-tryptophan rice expressing a mutant anthranilate synthase alpha subunit

Author

Hisashi Miyagawa, Atsushi Ishihara, Kyo Wakasa, Hiroyoshi Iwata, Joseph G. Dubouzet, and Fumio Matsuda

Subjects

Base Sequence, biology, Reverse Transcriptase Polymerase Chain Reaction, Physiology, Transgene, Mutant, Tryptophan, Oryza, Plant Science, Genetically modified rice, Transcriptome, Metabolomics, Biochemistry, Gene Expression Regulation, Plant, Tandem Mass Spectrometry, Metabolome, biology.protein, RNA, Messenger, Anthranilate synthase, Chromatography, High Pressure Liquid, Anthranilate Synthase, DNA Primers

Abstract

Transgenic rice plants overexpressing a mutant rice gene for anthranilate synthase alpha subunit (OASA1D) accumulate large amounts of free tryptophan (Trp) with few adverse effects on the phenotype, except for poor germination and weak seedling growth. Metabolic profiling of 8-d-old seedlings of Nipponbare and two high-Trp lines, HW1 and HW5, by high performance liquid chromatography-photo diode array (HPLC-PDA) confirmed that, relative to Nipponbare, only the peak attributed to Trp was significantly changed in the profiles of the OASA1D lines. More detailed and targeted analysis using HPLC coupled with tandem mass spectrometry revealed that the OASA1D lines had higher levels of anthranilate, tryptamine, and serotonin than Nipponbare, but these metabolites were at much lower levels than free Trp. The levels of phenylalanine (Phe) and tyrosine (Tyr) were not affected by the overproduction of Trp. Transcriptomic analysis by microarray validated by quantitative Real-Time PCR (qRT-PCR) revealed that at least 12 out of 21 500 genes showed significant differential expression among genotypes. Except for the OASA1D transgene and a putative IAA beta-glucosyltransferase, these were not related to Trp metabolism. Most importantly, the overexpression of the OASA1D and the consequent accumulation of Trp in these lines had little effect on the overall transcriptome, consistent with the minimal effects on growth and the metabolome. Integrated analysis of the metabolome and transcriptome of these OASA1D transgenic lines indicates that the over-accumulation of free Trp may be partly due to the low activity of Trp decarboxylase or other metabolic genes that directly utilize Trp as a substrate.

Published

2007

12. Estimation of metabolic fluxes, expression levels and metabolite dynamics of a secondary metabolic pathway in potato using label pulse-feeding experiments combined with kinetic network modelling and simulation

Author

Hisashi Miyagawa, Fumio Matsuda, Kyo Wakasa, Takaaki Nishioka, and Elmar Heinzle

Subjects

Phenylpropanoid, Metabolite, Kinetics, Metabolic network, Cell Biology, Plant Science, Biology, Elicitor, Metabolic pathway, chemistry.chemical_compound, Biochemistry, chemistry, Metabolic flux analysis, Metabolic control analysis, Genetics, Biophysics

Abstract

Summary In this paper we present a method that allows dynamic flux analysis without a priori kinetic knowledge. This method was developed and validated using the pulse-feeding experimental data obtained in our previous study (Matsuda et al., 2005), in which incorporation of exogenously applied l-phenylalanine-d5 into seven phenylpropanoid metabolites in potato tubers was determined. After identification of the topology of the metabolic network of these biosynthetic pathways, the system was described by dynamic mass balances in combination with power-law kinetics. After the first simulations, some reactions were removed from the network because they were not contributing significantly to network behaviour. As a next step, the exponents of the power-law kinetics were identified and then kept at fixed values during further analysis. The model was tested for statistical reliability using Monte Carlo simulations. Most fluxes could be identified with high accuracy. The two test cases, control and after elicitation, were clearly distinguished, and with elicitation fluxes to N-p-coumaroyloctopamine (pCO) and N-p-coumaroyltyramine (pCT) increased significantly, whereas those for chlorogenic acid (CGA) and p-coumaroylshikimate decreased significantly. According to the model, increases in the first two fluxes were caused by induction/derepression mechanisms. The decreases in the latter two fluxes were caused by decreased concentrations of their substrates, which in turn were caused by increased activity of the pCO- and pCT-producing enzymes. Flux-control analysis showed that, in most cases, flux control was changed after application of elicitor. Thus the results revealed potential targets for improving actions against tissue wounding and pathogen attack.

Published

2007

13. Accumulation of free tryptophan in azuki bean (Vigna angularis) induced by expression of a gene (OASA1D) for a modified α-subunit of rice anthranilate synthase

Author

Masao Ishimoto, Mutasim M. Khalafalla, Yumi Nakamoto, Moemen S. Hanafy, Hany A. El-Shemy, Kyo Wakasa, and Shaikh M. Rahman

Subjects

chemistry.chemical_classification, biology, Agrobacterium, Transgene, Tryptophan, food and beverages, Plant Science, General Medicine, Agrobacterium tumefaciens, biology.organism_classification, Vigna, Transformation (genetics), Enzyme, chemistry, Biochemistry, Genetics, biology.protein, Anthranilate synthase, Agronomy and Crop Science

Abstract

Anthranilate synthase (AS) is a key metabolic enzyme of the tryptophan (Trp) biosynthetic pathway in plants and microbes, and its activity is regulated by feedback inhibition by Trp. A rice gene ( OASA1D ) for a modified α-subunit of anthranilate synthase that is resistant to such feedback inhibition was introduced into azuki bean [ Vigna angularis (Willd.) Ohwi & Ohashi] by Agrobacterium -mediated transformation followed by selection with hygromycin B. Five independent azuki bean lines expressing OASA1D in which the transgene was fixed in the T 2 generation were obtained. The free Trp level in seeds of these lines (1.3–3.3 mg/g of dry weight) was increased compared with that in wild-type seeds (0.2 mg/g). In contrast, the amount of protein-bound (fixed) Trp in seeds was not affected by expression of the transgene. The AS activity in the transgenic seeds showed a reduced sensitivity to feedback inhibition by Trp or the Trp analog 5-methyltryptophan, indicating that the rice OASA1D subunit was able to interact functionally with the β-subunit of azuki bean AS. These results reveal that transformation with OASA1D is a feasible approach to increase Trp synthesis and accumulation in mature seeds of grain legumes.

Published

2006

14. Metabolic changes in Arabidopsis thaliana expressing the feedback-resistant anthranilate synthase α subunit gene OASA1D

Author

Naoto Yabe, Yoshitaka Takahashi, Atsushi Ishihara, Hisashi Miyagawa, Takaaki Nishioka, Kyo Wakasa, Yoshibumi Komeda, and Yohei Asada

Subjects

Molecular Structure, biology, Arabidopsis Proteins, Carbon-Oxygen Lyases, Arabidopsis, Tryptophan, Wild type, Plant Science, General Medicine, Horticulture, biology.organism_classification, Biochemistry, Protein Subunits, Gene Expression Regulation, Plant, Camalexin, biology.protein, Shikimate pathway, Arabidopsis thaliana, Anthranilate synthase, Secondary metabolism, Molecular Biology, Anthranilate Synthase

Abstract

Anthranilate synthase (AS) is a key enzyme in tryptophan (Trp) biosynthesis. Metabolic changes in transgenic Arabidopsis plants expressing the feedback-resistant anthranilate synthase α subunit gene OASA1D were investigated with respect to Trp synthesis and effects on secondary metabolism. The Trp content varied depending on the transgenic line, with some lines showing an approximately 200-fold increase. The levels of AS activity in crude extracts from the transgenic lines were comparable to those in the wild type. On the other hand, the enzyme prepared from the lines accumulating high levels of Trp showed a relaxed feedback sensitivity. The AS activity, determined in the presence of 50 μM l -Trp, correlated well with the amount of free Trp in the transgenic lines, indicating the important role of feedback inhibition in control of Trp pool size. In Arabidopsis, Trp is a precursor of multiple secondary metabolites, including indole glucosinolates and camalexin. The amount of indol-3-ylmethyl glucosinolate (I3M) in rosette leaves of the high-Trp accumulating lines was 1.5- to 2.1-fold greater than that in wild type. The treatment of the leaves with jasmonic acid resulted in a more pronounced accumulation of I3M in the high-Trp accumulating lines than in wild type. The induction of camalexin formation after the inoculation of Alternaria brassicicola was not affected by the accumulation of a large amount of Trp. The accumulation of constitutive phenylpropanoids and flavonoids was suppressed in high-Trp accumulating lines, while the amounts of Phe and Tyr increased, thereby indicating an interaction between the Trp branch and the Phe and Tyr branch in the shikimate pathway.

Published

2006

15. High-level tryptophan accumulation in seeds of transgenic rice and its limited effects on agronomic traits and seed metabolite profile

Author

Kyo Wakasa, Yuzuru Tozawa, Tetsuya Yamada, Fumio Matsuda, Hisashi Miyagawa, Teruhiko Terakawa, Keiko Morino, Haruna Miyazawa, Akira Komatsu, Hiroshi Nemoto, and Hisakazu Hasegawa

Subjects

Physiology, Metabolite, Transgene, Germination, Plant Science, Genetically modified crops, Biology, chemistry.chemical_compound, Phenols, Poaceae, Transgenes, Anthranilate Synthase, Oryza sativa, Indoleacetic Acids, Homozygote, Tryptophan, food and beverages, Oryza, Plants, Genetically Modified, Genetically modified rice, Protein Subunits, Horticulture, Agronomy, chemistry, Seeds, Genetic Engineering

Abstract

Metabolic manipulation of plants to improve their nutritional quality is an important goal of plant biotechnology. Expression in rice (Oryza sativa L.) of a transgene (OASA1D) encoding a feedback-insensitive alpha subunit of rice anthranilate synthase results in the accumulation of tryptophan (Trp) in calli and leaves. It is shown here that the amount of free Trp in the seeds of such plants is increased by about two orders of magnitude compared with that in the seeds of wild-type plants. The total Trp content in the seeds of the transgenic plants was also increased. Two homozygous lines, HW1 and HW5, of OASA1D transgenic rice were generated for characterization of agronomic traits and aromatic metabolite profiling of seeds. The marked overproduction of Trp was stable in these lines under field conditions, although spikelet fertility and yield, as well as seed germination ability, were reduced compared with the wild type. These differences in agronomic traits were small, however, in HW5. In spite of the high Trp content in the seeds of the HW lines, metabolic profiling revealed no substantial changes in the amounts of other phenolic compounds. The amount of indole acetic acid was increased about 2-fold in the seeds of the transgenic lines. The establishment and characterization of these OASA1D transgenic lines have thus demonstrated the feasibility of increasing the Trp content in the seeds of rice (or of other crops) as a means of improving its nutritional value for human consumption or animal feed.

Published

2006

16. Transgenic rice for animal feed with high tryptophan content generated by a selectable marker- and vector backbone-free technology

Author

Kyo Wakasa, Miki Ohtake, Akira Komatsu, Hisakazu Hasegawa, and Teruhiko Terakawa

Subjects

Genetics, Oryza sativa, biology, Transgene, food and beverages, Plant Science, Genetically modified crops, Genetically modified rice, biology.protein, Anthranilate synthase, Low copy number, Agronomy and Crop Science, Gene, Selectable marker, Biotechnology

Abstract

We reported previously that the genetically modified rice lines expressing OASA1D, a feedback-insensitive anthranilate synthase (AS) α-subunit gene of rice, showed remarkable increase of free tryptophan (Trp) in calli. In the present study, we investigated transformation of lKusahonami” (Oryza sativa L.), a rice variety for animal feed with this gene. In order to avoid the co-integration of vector backbone sequences and taking into account the fact that OASA1D gene exert resistance to 5-methyltryptophan (5MT), gene cassette vector consisting of a promoter, OASA1D cDNA and terminator was constructed and introduced directly to rice calli by use of potassium titanate whisker-supersonic method. Transgenicity of regenerated plants and the copy number of the transgene in the genome were analyzed by Southern blot. Fertile transgenic plants carrying low copy number of transgene and producing high level of free Trp in leaves and seeds were obtained. Genetic stability of the transgene has been demonstrated. This cultivar is a common variety for animal feed, these transgenic plants may be useful to establish an actual variety that is nutritionally improved.

Published

2006

17. Structure-Based in Vitro Engineering of the Anthranilate Synthase, a Metabolic Key Enzyme in the Plant Tryptophan Pathway

Author

Yasuko Ikejiri-Kanno, Akira Komatsu, Minako Sakurai, Yuzuru Tozawa, Koji Kasai, Joseph G. Dubouzet, Kyo Wakasa, and Takuya Kanno

Subjects

chemistry.chemical_classification, biology, Physiology, Mutant, Tryptophan, Plant Science, chemistry.chemical_compound, Enzyme, Biochemistry, chemistry, Transcription (biology), RNA polymerase, Genetics, biology.protein, Anthranilate synthase, Binding site, Gene

Abstract

Rice (Oryza sativa) anthranilate synthase α-subunit, OASA2, was modified by in vitro mutagenesis based on structural information from bacterial homologs. Twenty-four amino acid residues, predicted as putative tryptophan binding sites or their proximal regions in the OASA2 sequence, were selected and 36 mutant OASA2 genes were constructed by PCR-based site-directed mutagenesis. Corresponding mutant proteins were synthesized in a combination of two in vitro systems, transcription with a bacteriophage SP6 RNA polymerase and translation with a wheat-embryo cell-free system. Enzymatic functions of the mutant proteins were simultaneously examined, and we found six mutants with elevated catalytic activity and five mutants with enhanced tolerance to feedback inhibition by tryptophan. Moreover, we observed that some sets of specific combinations of the novel mutations additively conferred both characteristics to the mutant enzymes. The functions of the mutant enzymes were confirmed in vivo. The free tryptophan content of mutant rice calli expressing OASA2 enzyme with a double mutation was 30-fold of that of untransformed calli. Thus, our in vitro approach utilizing structural information of bacterial homologs is a potent technique to generate designer enzymes with predefined functions.

Published

2005

18. Induction of Class-1 Non-symbiotic Hemoglobin Genes by Nitrate, Nitrite and Nitric Oxide in Cultured Rice Cells

Author

Shinsuke Fujihara, Yoshinari Ohwaki, Tadakatsu Yoneyama, Kyo Wakasa, and Makiko Kawagishi-Kobayashi

Subjects

Physiology, Glutamine, Nitrogen assimilation, Mutant, Plant Science, Biology, Reductase, Nitric Oxide, Nitric oxide, Hemoglobins, chemistry.chemical_compound, Nitrate, Gene Expression Regulation, Plant, Gene expression, Protein biosynthesis, RNA, Messenger, Cycloheximide, Nitrite, Cells, Cultured, Nitrites, Protein Synthesis Inhibitors, Nitrates, Oryza, Cell Biology, General Medicine, Mannose-Binding Lectins, chemistry, Biochemistry, Asparagine, Plant Lectins

Abstract

Non-symbiotic hemoglobins (ns-Hbs) are found in all plants, although their physiological function remains to be determined. The present study was undertaken to explore the mode of induction of ns-Hb genes by metabolites of nitrate assimilation using cultured rice (Oryza sativa L.) cells. Two class-1 ns-Hb genes, ORYsa GLB1a and ORYsa GLB1b, were strongly induced by nitrate, nitrite and nitric oxide (NO) donors, S-nitroso-N-acetylpenicillamine and sodium nitroprusside. The rapid and transient accumulation of ORYsa GLB1a and ORYsa GLB1b transcripts in response to nitrate, nitrite and NO donors was similar to that of nia1, which encodes NADH-nitrate reductase (NR), although repression by glutamine and asparagines was significant only for nia1. In the mutants defective in NR mRNA expression, nitrate, nitrite and NO donors failed to induce not only nia1 but also ORYsa GLB1a and ORYsa GLB1b transcripts, indicating that the induction of ns-Hb genes is closely associated with that of the NR gene. Although the kinetics of induction by nitrate, nitrite and NO donors are similar for the two ns-Hb genes, an inhibitor study demonstrated that de novo synthesis of the protein in cytoplasm is essential for inducing ORYsa GLB1b. In contrast, ORYsa GLB1a, like nia1, can be induced in the primary response to these signals without de novo protein synthesis. The role of nitrate, nitrite and NO in the induction of ns-Hb gene expression in rice cells and the possible cellar function of ns-Hbs were discussed in relation to nitrate reduction pathways.

Published

2005

19. Optimization of Particle Bombardment Conditions by Monitoring of Transient sGFP(S65T) Expression in Transformed Soybean

Author

Yumi Nakamoto, Hany A. El-Shemy, Masao Ishimoto, Kyo Wakasa, Mutasim M. Khalafalla, and Shaikh M. Rahman

Subjects

Transgene, Plant Science, Biology, Green fluorescent protein, Transformation (genetics), Botany, Gene expression, Genetics, Biophysics, Particle, Particle size, Agronomy and Crop Science, Southern blot, Transformation efficiency

Abstract

In an attempt to increase the efficiency of soybean transformation by particle bombardment, we examined the effects of bombardment parameters such as gold particle size, target distance, acceleration pressure, amount of DNA per bombardment, and number of bombardments. Transgene delivery to embryogenic tissue grown in suspension culture was evaluated by monitoring the transient expression of a gene for a modified form of jellyfish green fluorescent protein [sGFP(S65T)]. Optimal transient expression of sGFP(S65T) was obtained when the tissue was bombarded twice at an acceleration pressure of 7.6 MPa (1,100 psi) and a distance of 6 cm with gold particles that were 0.6 μm in diameter and coated with 0.8 μg of DNA. Application of these optimized conditions proved effective for the generation of stable transgenic soybean plants. Stable transgene integration in the transformants was confirmed by Southern blot analysis. The average transformation efficiency achieved with the optimized protocol was siginificantly higher than that with the conventional protocol.

Published

2005

20. Quantification of Indole-3-Acetic Acid and Amino Acid Conjugates in Rice by Liquid Chromatography–Electrospray Ionization–Tandem Mass Spectrometry

Author

Fumio Matsuda, Haruna Miyazawa, Kyo Wakasa, and Hisashi Miyagawa

Subjects

Spectrometry, Mass, Electrospray Ionization, Time Factors, Electrospray ionization, Mass spectrometry, Tandem mass spectrometry, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Solid phase extraction, Amino Acids, Molecular Biology, Detection limit, chemistry.chemical_classification, Chromatography, Indoleacetic Acids, Organic Chemistry, food and beverages, Oryza, General Medicine, Amino acid, chemistry, Seedlings, Seeds, Indole-3-acetic acid, Quantitative analysis (chemistry), Chromatography, Liquid, Biotechnology

Abstract

A method for quantifying indole-3-acetic acid (IAA) and its conjugates with the six amino acids, Ala, -Asp, -Ile, -Glu, -Phe and -Val, in rice (Oryza sativa) by using high-performance liquid chromatography coupled with electrospray ionization and tandem mass spectrometry (HPLC-ESI-MS/MS) is described. Samples from the rice plant or callus were treated with 80% acetone in water containing 2.5 mM diethyl dithiocarbamate. Each extract was partially purified in C18 cartridge column for solid-phase extraction (SPE) and subjected to HPLC-ESI-MS/MS without converting the product. The detection limit was 3.8 fmol for IAA, and 0.4-2.9 fmol for the IAA amino acid conjugates. The method was applied to the analysis of IAA and its conjugates in rice seedlings, dehulled rice and calli, using 20-100 mg tissue samples.

Published

2005

21. Guanosine tetra- and pentaphosphate synthase activity in chloroplasts of a higher plant: association with 70S ribosomes and inhibition by tetracycline

Author

Koji Kasai, Yaeta Endo, Kyo Wakasa, Takuya Kanno, and Yuzuru Tozawa

Subjects

Chloroplasts, Stringent response, Chlamydomonas reinhardtii, Guanosine, Ribosome, Ligases, chemistry.chemical_compound, Genetics, Protein biosynthesis, Protein Synthesis Inhibitors, chemistry.chemical_classification, biology, ATP synthase, Nucleotides, Peas, food and beverages, Articles, Tetracycline, biology.organism_classification, Chloroplast, Enzyme, chemistry, Biochemistry, Protein Biosynthesis, biology.protein, Ribosomes

Abstract

Chloroplasts possess bacterial-type systems for transcription and translation. On the basis of the identification of a Chlamydomonas reinhardtii gene encoding a RelA-SpoT homolog (RSH) that catalyzes the synthesis of guanosine tetra- or pentaphosphate [(p)ppGpp], we have previously suggested the operation of stringent control in the chloroplast genetic system. Although RSH genes have also been identified in several higher plants, the activities of the encoded enzymes and their mode of action in chloroplasts have remained uncharacterized. We have now characterized the intrinsic (p)ppGpp synthase activity of chloroplast extracts prepared from pea (Pisum sativum). Fractionation by ultracentrifugation suggested that the (p)ppGpp synthase activity of a translationally active chloroplast stromal extract was associated with 70S ribosomes. Furthermore, this enzymatic activity was inhibited by tetracycline, as was the peptide elongation activity of the extract. Structural comparisons between rRNA molecules of Escherichia coli and pea chloroplasts revealed the conservation of putative tetracycline-binding sites. These observations demonstrate the presence of a ribosome-associated (p)ppGpp synthase activity in the chloroplasts of a higher plant, further implicating (p)ppGpp in a genetic system of chloroplasts similar to that operative in bacteria.

Published

2004

22. In vitro reconstitution of rice anthranilate synthase: distinct functional properties of the α subunits OASA1 and OASA2

Author

Koji Kasai, Takuya Kanno, Yasuko Ikejiri-Kanno, Yuzuru Tozawa, and Kyo Wakasa

Subjects

DNA, Complementary, Molecular Sequence Data, Plant Science, Isozyme, chemistry.chemical_compound, Biosynthesis, Genetics, Amino Acid Sequence, Anthranilate Synthase, Plant Proteins, Glutamine amidotransferase, chemistry.chemical_classification, Oryza sativa, Cell-Free System, Sequence Homology, Amino Acid, biology, Tryptophan, food and beverages, Oryza, Sequence Analysis, DNA, General Medicine, Molecular biology, Isoenzymes, Glutamine, Kinetics, Protein Subunits, Enzyme, chemistry, Biochemistry, Protein Biosynthesis, biology.protein, Anthranilate synthase, Sequence Alignment, Agronomy and Crop Science

Abstract

Anthranilate synthase (AS) is a key enzyme in the biosynthesis of various indole compounds including tryptophan. AS consists of two subunits, α and β, and converts chorismate to anthranilate. Two or more AS α-subunit genes have been identified and characterized in several land plants. Although α subunits of AS induced by elicitation have been suggested to play significant roles in secondary metabolism, the biochemical and precise functional properties of individual AS isozymes have remained unclear. We have previously identified and characterized two AS α-subunit genes (OASA1 and OASA2) in rice (Oryza sativa). To provide further insight into the enzymatic functions of AS isozymes in rice, we have now isolated rice cDNAs encoding the AS β subunits OASB1 and OASB2 and reconstituted AS isozymes in vitro with the wheat germ cell-free system for protein expression. Both OASB subunits conferred glutamine-dependent AS activity on either OASA1 or OASA2, indicating the absence of a marked functional difference between the two β subunits in terms of amidotransferase activity. Furthermore, both OASA subunits required assembly with a β subunit to achieve maximal enzymatic activity even with NH 4 + as the amino donor. The V max and K i for tryptophan of the OASA1-OASB1 isozyme with glutamine as the amino donor, however, were 2.4 and 7.5 times, respectively, those of OASA2-OASB1, suggesting that AS isozymes containing OASA1 possess a higher activity and are less sensitive to feedback inhibition than those containing OASA2. Our biochemical characterization of reconstituted AS isozymes has thus revealed distinct functional properties of these isozymes in rice.

Published

2004

23. Use of a feedback-insensitive ? subunit of anthranilate synthase as a selectable marker for transformation of rice and potato

Author

Tetsuya Yamada, Yuzuru Tozawa, Teruhiko Terakawa, Hisakazu Hasegawa, Yasunobu Ohkawa, and Kyo Wakasa

Subjects

biology, fungi, food and beverages, Plant Science, Genetically modified crops, Genetically modified rice, chemistry.chemical_compound, Transformation (genetics), Biochemistry, chemistry, Botany, Genetics, biology.protein, Anthranilate synthase, Agronomy and Crop Science, Molecular Biology, Hygromycin B, Selectable marker, Biotechnology, Tryptophan analog, Transformation efficiency

Abstract

A selection system based on a mutant rice gene for a feedback-insensitive α subunit of anthranilate synthase (OASA1D) was developed for the transformation of rice and potato. Expression of OASA1D conferred resistance to the tryptophan analog 5-methyltryptophan (5MT) in transformed cells of rice and potato. The selection system based on OASA1D and 5MT was associated with a high transformation efficiency, a short time frame for the generation of transgenic plants, simple culture procedures, and it was as effective as hygromycin B selection in rice (monocotyledon) and kanamycin selection in potato (dicotyledon). Transgenic rice and potato plants established by 5MT selection had normal morphology and accumulated tryptophan when OASA1D was expressed under the control of a constitutive promoter. These results demonstrate the efficacy of OASA1D as a selectable marker and they suggest that the 5MT selection system based on this gene will prove applicable to a wide range of plant species and culture procedures.

Published

2004

24. Efficient Transformation of Suspension-cultured Rice Cells Mediated by Agrobacterium tumefaciens

Author

Yuzuru Tozawa, Shoji Urushibara, Kyo Wakasa, and Makiko Kawagishi-Kobayashi

Subjects

Oryza sativa, Rhizobiaceae, Agrobacterium, fungi, food and beverages, Plant Science, Agrobacterium tumefaciens, Biology, biology.organism_classification, Genetically modified rice, Transformation (genetics), Cell culture, Callus, Botany, Genetics, Agronomy and Crop Science

Abstract

The efficiency of Agrobacterium tumefaciens-mediated gene transfer in rice was improved by air-drying of the suspension-cultured cells. The suspension-cultured rice calli showed less efficient transformation mediated by Agrobacterium than usual calli cultured on the solid medium. However, simple air-drying of the calli suspension-cultured for 10 to 15min increased the transformation frequency 10-fold or more. The suspension cultures were established from the calli derived from mature rice seeds and subcultured every week. The frequency of transformation varied with the period of suspension culture and the size of the callus. The calli suspension-cultured for 4 weeks showed a higher transformation frequency than the control (not suspension-cultured), and the highest frequency was as high as 20%. However, the frequency was dramatically lowered by the extension of suspension-culture period up to 7 weeks or more. The transformation occurred frequently in the callus 1 to 2mm in diameter. Plant regeneration was observed in transformed calli suspension-cultured for 1 to 12 weeks, but plants abnormal in morphology and seed fertility were regenerated from the calli suspension-cultured for 7 weeks. In conclusion, rice calli suspension-cultured for less than 4 weeks were useful as targets of transformation mediated by Agrobacterium.

Published

2001

25. Nuclear encoding of a plastid sigma factor in rice and its tissue- and light-dependent expression

Author

Yuzuru Tozawa, Kan Tanaka, Hideo Takahashi, and Kyo Wakasa

Subjects

DNA, Complementary, DNA, Plant, Light, Molecular Sequence Data, Sequence Homology, Sigma Factor, Biology, chemistry.chemical_compound, Sigma factor, Gene Expression Regulation, Plant, RNA polymerase, Complementary DNA, Genetics, Transcriptional regulation, Amino Acid Sequence, Plastids, RNA, Messenger, Plastid, Gene, Cell Nucleus, Messenger RNA, fungi, Nucleic acid sequence, food and beverages, Oryza, DNA-Directed RNA Polymerases, Molecular biology, Blotting, Southern, chemistry, Research Article

Abstract

A full-length cDNA encoding a putative sigma factor for a plastid RNA polymerase was isolated from the higher plant Oryza sativa . The nucleotide sequence of the corresponding nuclear gene, named Os-sigA ( O.sativa sigma A), predicts a polypeptide of 519 amino acids that contains a putative plastid-targeting sequence in its N-terminal region. The predicted mature protein shows extensive sequence homology to bacterial sigma factors, encompassing the conserved regions 1.2, 2.1, 2.2, 2.3, 2.4, 3, 4.1 and 4.2 implicated in binding to -10 promoter elements, promoter melting and interaction with the core RNA polymerase enzyme. RNA blot analysis revealed that the abundance of Os-sigA transcripts was markedly greater in green shoots than in roots or in dark-grown etiolated shoots of rice seedlings. Furthermore, exposure of dark-grown etiolated seedlings to light resulted in a rapid increase in the amount of Os-sigA mRNA in the shoot. These observations suggest that regulation of expression of the nuclear gene for this putative plastid RNA polymerase sigmafactor by light contributes to light-dependent transcriptional regulation of plastid genes.

Published

1998

26. Characterization of three cDNA species encoding plastid RNA polymerase sigma factors in Arabidopsis thaliana: Evidence for the sigma factor heterogeneity in higher plant plastids

Author

Yuzuru Tozawa, Nobuyoshi Mochizuki, Hideo Takahashi, Kazuo Shinozaki, Akira Nagatani, Kan Tanaka, and Kyo Wakasa

Subjects

DNA, Complementary, DNA, Plant, Light, Arabidopsis thaliana, Molecular Sequence Data, Sigma factor, Arabidopsis, Biophysics, Biology, Biochemistry, chemistry.chemical_compound, Gene Expression Regulation, Plant, Structural Biology, RNA polymerase, Complementary DNA, Gene expression, Genetics, Amino Acid Sequence, Plastids, RNA, Messenger, Plastid, Molecular Biology, Gene, Phylogeny, Plant Proteins, Base Sequence, Arabidopsis Proteins, fungi, food and beverages, RNA, Promoter, Sequence Analysis, DNA, Expression sequence Tag, Cell Biology, Plant plastid, chemistry, RNA, Plant

Abstract

By database search analysis, we identified three Arabidopsis EST (Expression Sequence Tag) entries having similarity to eubacterial RNA polymerase sigma factors. cDNA clones corresponding to these partial sequences were isolated, and the complete nucleotide sequences were determined. All three sequences encode proteins highly homologous to cyanobacterial and plastid sigma factors, and the gene products have N-terminal extensions which are assumed to function as plastid-targeting transit peptides. Thus we have concluded that the gene products are RNA polymerase sigma factors of plastids, and named sigA, sigB and sigC, respectively. Expression of these genes was analyzed by RNA gel-blot analysis and shown to be induced by illumination after a short-term dark adaptation. This strongly suggests that light regulation of the nuclear encoded sigma factor genes is involved in light-dependent activation of plastid promoters.

Published

1997

27. Identification of the origin of double minutes in normal human cells by laser-based chromosome microdissection approach

Author

Hung-Shu Wang, Marsha D. Speevak, Kyo Wakasa, Robert G. Korneluk, Evica Rajcan-Separovic, Lynn Janes, and Joh-E Ikeda

Subjects

medicine.medical_specialty, Chromosomes, Human, Pair 21, Biology, Polymerase Chain Reaction, Reference Values, Genetics, medicine, Humans, Double minute, In Situ Hybridization, Fluorescence, Genetics (clinical), Microdissection, Chromosome 12, Chromosome 13, Chromosomes, Human, Pair 12, Chromosomes, Human, Pair 13, medicine.diagnostic_test, Dissection, Lasers, Infant, Newborn, Cytogenetics, Chromosome Mapping, Chromosome, Chromosome microdissection, Molecular biology, Chromatin, Karyotyping, DNA Probes, Fluorescence in situ hybridization

Abstract

Single copies of tiny chromosome fragments, appearing as double minutes, were observed in a high proportion of cells from amniotic fluid cultures of two mothers undergoing prenatal testing because of advanced age. We applied a laser-based chromosome microdissection method to diagnose the origin of the double minutes. The diagnostic procedures consisted of microdissection of double minutes from a single cell, polymerase chain reaction (PCR) amplification of the dissected DNA, and subsequent fluorescence in situ hybridization (FISH) using the PCR products as a probe pool. Metaphase chromosomes from the patients' cells and from a karyotypically normal individual were probed. Using this strategy, we were able to determine that the double minutes originated from the centromere of chromosome 13 or 21 in one case, and from the chromosome 12 centromere in the other. The characterization of such double minutes helps both in the delineation of the nature of these epichromosomal bodies in normal individuals as well as in the clarification of genetic counselling issues.

Published

1995

28. The double-stranded break-forming activity of plant SPO11s and a novel rice SPO11 revealed by a Drosophila bioassay

Author

Masa-Toshi Yamamoto, Tsutomu Mikawa, Kentaro Toyota, Akira Komatsu, Kohji Kusano, Takehiko Shibata, Makiko Kawagishi-Kobayashi, Selina Ahmed, Yasuo Agawa, Kyo Wakasa, Takeshi Tokai, and Yoshinori Shingu

Subjects

Spo11, lcsh:QH426-470, Molecular Sequence Data, Arabidopsis, Locus (genetics), Biology, chemistry.chemical_compound, Animals, Bioassay, DNA Breaks, Double-Stranded, Amino Acid Sequence, RNA, Messenger, Transgenes, lcsh:QH573-671, Molecular Biology, Plant Proteins, Genetics, Endodeoxyribonucleases, lcsh:Cytology, Arabidopsis Proteins, fungi, food and beverages, Oryza, Chromatin, Cell biology, lcsh:Genetics, Meiosis, chemistry, Oocytes, biology.protein, Biological Assay, Drosophila, Homologous recombination, Double stranded, DNA Topoisomerases, DNA, Research Article

Abstract

Background SPO11 is a key protein for promoting meiotic recombination, by generating chromatin locus- and timing-specific DNA double-strand breaks (DSBs). The DSB activity of SPO11 was shown by genetic analyses, but whether SPO11 exerts DSB-forming activity by itself is still an unanswered question. DSB formation by SPO11 has not been detected by biochemical means, probably because of a lack of proper protein-folding, posttranslational modifications, and/or specific SPO11-interacting proteins required for this activity. In addition, plants have multiple SPO11-homologues. Results To determine whether SPO11 can cleave DNA by itself, and to identify which plant SPO11 homologue cleaves DNA, we developed a Drosophila bioassay system that detects the DSB signals generated by a plant SPO11 homologue expressed ectopically. We cytologically and genetically demonstrated the DSB activities of Arabidopsis AtSPO11-1 and AtSPO11-2, which are required for meiosis, in the absence of other plant proteins. Using this bioassay, we further found that a novel SPO11-homologue, OsSPO11D, which has no counterpart in Arabidopsis, displays prominent DSB-forming activity. Quantitative analyses of the rice SPO11 transcripts revealed the specific increase in OsSPO11D mRNA in the anthers containing meiotic pollen mother cells. Conclusions The Drosophila bioassay system successfully demonstrated that some plant SPO11 orthologues have intrinsic DSB activities. Furthermore, we identified a novel SPO11 homologue, OsSPO11D, with robust DSB activity and a possible meiotic function.

Published

2012

29. Isolation of Expressed Sequences Encoded by the Human Xq Terminal Portion Using Microclone Probes Generated by Laser Microdissection

Author

Shinji Hadano, Xiaolin Kang, Kyo Wakasa, Mieko Kogi, Haruhiko Yokoi, and Joh-E Ikeda

Subjects

Male, X Chromosome, Molecular Sequence Data, Biology, Polymerase Chain Reaction, Open Reading Frames, Fetus, Gene mapping, Complementary DNA, Genetics, Animals, Humans, Genomic library, Amino Acid Sequence, Cloning, Molecular, Gene, Microdissection, DNA Primers, Laser capture microdissection, Base Sequence, cDNA library, Nucleic acid sequence, Brain, Chromosome Mapping, Hominidae, Neuromuscular Diseases, Aneuploidy, Chromosome Banding, Karyotyping, Female, Nervous System Diseases, Oligonucleotide Probes

Abstract

The genes that cause a variety of neurologic and neuromuscular disorders have been mapped to the distal region of Xq. In an effort to isolate genes from this area, a regional genomic library of the distal 30% of Xq was constructed from a single metaphase spread by means of laser microdissection and single unique primer-polymerase chain reaction. Using pooled probes of 1000 clones from the genomic library, human brain cDNA libraries were screened for expressed sequences encoded by this region. From the 250,000 cDNA clones screened so far, 10 nonoverlapping sequences that mapped back to the target portion were isolated. The complete nucleotide sequences of these cDNA clones have been determined. Analysis of the sequences indicates that none has significant similarity to previously characterized primate genes. One sequence mapping to Xq27.3-qter contained an open reading frame of 281 amino acids and was expressed in every tissue tested. This gene, as well as others isolated in this manner, may prove to be a candidate gene for heritable disorders mapping to this region.

Published

1994

30. Probing the role of tryptophan-derived secondary metabolism in defense responses against Bipolaris oryzae infection in rice leaves by a suicide substrate of tryptophan decarboxylase

Author

Naoya Ichimaru, Chihiro Tanaka, Takahito Nakao, Masatoshi Murai, Atsushi Ishihara, Kyo Wakasa, Yuko Mashimo, Hisashi Miyagawa, and Hiromitsu Nakajima

Subjects

Tryptamine, Serotonin, Carboxy-lyases, Plant Science, Horticulture, Biochemistry, chemistry.chemical_compound, Ascomycota, Aromatic Amino Acid Decarboxylase Inhibitors, Secondary metabolism, Molecular Biology, Plant Diseases, chemistry.chemical_classification, Aromatic L-amino acid decarboxylase, biology, Molecular Structure, Tryptophan, food and beverages, Oryza, Stereoisomerism, General Medicine, Hydroxycinnamic acid, Enzyme assay, Tryptamines, Plant Leaves, chemistry, Seedlings, biology.protein

Abstract

Tryptophan-derived secondary metabolites, including serotonin and its hydroxycinnamic acid amides, markedly accumulate in rice leaves in response to pathogen attack. These compounds have been implicated in the physical defense system against pathogen invasion by being deposited in cell walls. Serotonin is biosynthesized from tryptophan via tryptamine, and tryptophan decarboxylase (TDC) catalyzes the first committed reaction. In this study, (S)-α-(fluoromethyl)tryptophan (S-αFMT) was utilized to investigate the effects of the inhibition of TDC on the defense responses of rice leaves. S-αFMT, enantiospecifically synthesized from L-tryptophan, effectively inhibited TDC activity extracted from rice leaves infected by Bipolaris oryzae. The inhibition rate increased dependently on the incubation time, indicating that S-αFMT served as a suicide substrate. Treatment of rice seedlings with S-αFMT suppressed accumulation of serotonin, tryptamine, and hydroxycinnamic acid amides of serotonin in a dose-dependent manner in B. oryzae-inoculated leaves. The lesions formed on seedlings treated with S-αFMT lacked deposition of brown materials, and those leaves were severely damaged in comparison with leaves without S-αFMT treatment. Administrating tryptamine to S-αFMT-treated leaves restored accumulation of tryptophan-derived secondary metabolites as well as deposition of brown material. In addition, tryptamine administration reduced damage caused by fungal infection. Accordingly, the accumulation of tryptophan-derived secondary metabolites was suggested to be part of the effective defense mechanism of rice.

Published

2010

31. Rice Mutant Resistant to the Herbicide Bensulfuron Methyl(BSM) by in vitro Selection

Author

Teruhiko Terakawa and Kyo Wakasa

Subjects

Acetolactate synthase, Oryza sativa, Mutant, Bensulfuron methyl, Botany, Herbicide resistance, biology.protein, Biology, Selection (genetic algorithm), In vitro

Published

1992

32. Manipulation of amino acid composition in soybean seeds by the combination of deregulated tryptophan biosynthesis and storage protein deficiency

Author

Masakazu Takahashi, Kyo Wakasa, Yoichi Kita, Masao Ishimoto, Yumi Nakamoto, and Keisuke Kitamura

Subjects

Arginine, Nitrogen, Plant Science, Biology, Genes, Plant, chemistry.chemical_compound, Transformation, Genetic, Biosynthesis, Gene Expression Regulation, Plant, Storage protein, Asparagine, Transgenes, Amino Acids, Anthranilate Synthase, chemistry.chemical_classification, Seed Storage Proteins, Tryptophan, food and beverages, Oryza, General Medicine, Plants, Genetically Modified, Amino acid, chemistry, Biochemistry, Plant protein, Mutation, Seeds, biology.protein, Anthranilate synthase, Soybeans, Agronomy and Crop Science

Abstract

The ability of genetic manipulation to yield greatly increased concentrations of free amino acids (FAAs) in seeds of soybean was evaluated by introduction of a feedback-insensitive mutant enzyme of tryptophan (Trp) biosynthesis into two transformation-competent breeding lines deficient in major seed storage proteins. The storage protein-deficient lines exhibited increased accumulation of certain other seed proteins as well as of FAAs including arginine (Arg) and asparagine in mature seeds. Introduction of the gene for a feedback-insensitive mutant of an alpha subunit of rice anthranilate synthase (OASA1D) into the two high-FAA breeding lines by particle bombardment resulted in a10-fold increase in the level of free Trp in mature seeds compared with that in nontransgenic seeds. The amount of free Trp in these transgenic seeds was similar to that in OASA1D transgenic seeds of the wild-type cultivar Jack. The composition of total amino acids in seeds of the high-FAA breeding lines remained largely unaffected by the expression of OASA1D with the exception of an increase in the total Trp content. Our results therefore indicate that the extra nitrogen resource originating from storage protein deficiency was used exclusively for the synthesis of inherent alternative nitrogen reservoirs such as free Arg and not for deregulated Trp biosynthesis conferred by OASA1D. The intrinsic null mutations responsible for storage protein deficiency and the OASA1D transgene affecting Trp content were thus successfully combined and showed additive effects on the amino acid composition of soybean seeds.

Published

2009

33. Induction of serotonin accumulation by feeding of rice striped stem borer in rice leaves

Author

Yumi Hashimoto, Kyo Wakasa, Atsushi Ishihara, and Hisashi Miyagawa

Subjects

Tryptamine, Oryza sativa, biology, media_common.quotation_subject, fungi, Tryptophan, food and beverages, Plant Science, Insect, Chilo suppressalis, biology.organism_classification, Article Addendum, chemistry.chemical_compound, Biochemistry, chemistry, Botany, Poaceae, Serotonin, Secondary metabolism, media_common

Abstract

Tryptophan (Trp)-related secondary metabolism has been implicated in the defense against pathogen infection and insect feeding in various gramineous species. Recently, we also reported that rice plant accumulated serotonin and tryptamine as well as their amide compounds coupled with phenolic acids in response to the infection by fungal pathogen. These compounds were likely to play an important role in the formation of physical barrier to the invading pathogens. To extend our study to elucidate the defensive role of Trp-derived secondary metabolism in gramineous plants, we examined in this study whether it is activated in response to herbivore attack as well. Third leaves of rice plant were fed on by third instar larvae of rice striped stem borer for 24 h or 48 h. The analysis of four Trp-derived metabolites including tryptamine, serotonin feruloyltryptamine (FerTry) and p-coumaroylserotonin (CouSer) by liquid chromatography coupled with tandem mass spectrometry revealed that their contents clearly increased in response to the larvae feeding. The respective amounts of tryptamine, serotonin, FerTry and CouSer in the larvae-fed leaves were 12-, 3.5-, 33- and 140-fold larger than those in control leaves 48 h after the start of feeding.

Published

2008

34. Mutation of a Rice Gene Encoding a Phenylalanine Biosynthetic Enzyme Results in Accumulation of Phenylalanine and Tryptophan[W]

Author

Kyo Wakasa, Keisuke Kitamura, Hisashi Miyagawa, Fumio Matsuda, Koji Kasai, Tetsuya Yamada, Yuzuru Tozawa, and Shuichi Fukuoka

Subjects

Phenylalanine, Allosteric regulation, Mutant, Molecular Sequence Data, Prephenate dehydratase, Plant Science, Biology, Models, Biological, Tandem Mass Spectrometry, Point Mutation, Amino Acid Sequence, Research Articles, Hydro-Lyases, Plant Proteins, chemistry.chemical_classification, Molecular Structure, Sequence Homology, Amino Acid, Point mutation, Arogenate dehydratase, Tryptophan, food and beverages, Cell Biology, Sequence Analysis, DNA, Prephenate Dehydratase, Enzyme, chemistry, Biochemistry, Mutation, Chromatography, Liquid

Abstract

Two distinct biosynthetic pathways for Phe in plants have been proposed: conversion of prephenate to Phe via phenylpyruvate or arogenate. The reactions catalyzed by prephenate dehydratase (PDT) and arogenate dehydratase (ADT) contribute to these respective pathways. The Mtr1 mutant of rice (Oryza sativa) manifests accumulation of Phe, Trp, and several phenylpropanoids, suggesting a link between the synthesis of Phe and Trp. Here, we show that the Mtr1 mutant gene (mtr1-D) encodes a form of rice PDT with a point mutation in the putative allosteric regulatory region of the protein. Transformed callus lines expressing mtr1-D exhibited all the characteristics of Mtr1 callus tissue. Biochemical analysis revealed that rice PDT possesses both PDT and ADT activities, with a preference for arogenate as substrate, suggesting that it functions primarily as an ADT. The wild-type enzyme is feedback regulated by Phe, whereas the mutant enzyme showed a reduced feedback sensitivity, resulting in Phe accumulation. In addition, these observations indicate that rice PDT is critical for regulating the size of the Phe pool in plant cells. Feeding external Phe to wild-type callus tissue and seedlings resulted in Trp accumulation, demonstrating a connection between Phe accumulation and Trp pool size.

Published

2008

35. The tryptophan pathway is involved in the defense responses of rice against pathogenic infection via serotonin production

Author

Atsushi Ishihara, Hisashi Miyagawa, Takahito Nakao, Fumio Matsuda, Kyo Wakasa, Takaaki Nishioka, Yumi Hashimoto, Joseph G. Dubouzet, and Chihiro Tanaka

Subjects

Tryptamine, Serotonin, Plant Science, Biology, Lesion, chemistry.chemical_compound, Ascomycota, Genetics, medicine, Anthranilate Synthase, Plant Proteins, chemistry.chemical_classification, Aromatic L-amino acid decarboxylase, Molecular Structure, Tryptophan, Oryza, Cell Biology, Plants, Genetically Modified, Plant Leaves, Enzyme, chemistry, Biochemistry, Aromatic-L-Amino-Acid Decarboxylases, biology.protein, Serotonin Production, Anthranilate synthase, medicine.symptom, Signal Transduction

Abstract

The upregulation of the tryptophan (Trp) pathway in rice leaves infected by Bipolaris oryzae was indicated by: (i) enhanced enzyme activity of anthranilate synthase (AS), which regulates metabolic flux in the Trp pathway; (ii) elevated levels of the AS (OASA2, OASB1, and OASB2) transcripts; and (iii) increases in the contents of anthranilate, indole, and Trp. The measurement of the contents of Trp-derived metabolites by high-performance liquid chromatography coupled with tandem mass spectrometry revealed that serotonin and its hydroxycinnamic acid amides were accumulated in infected leaves. Serotonin accumulation was preceded by a transient increase in the tryptamine content and by marked activation of Trp decarboxylase, indicating that enhanced Trp production is linked to the formation of serotonin from Trp via tryptamine. Feeding of radiolabeled serotonin to inoculated leaves demonstrated that serotonin is incorporated into the cell walls of lesion tissue. The leaves of a propagating-type lesion mimic mutant (sl, Sekiguchi lesion) lacked both serotonin production and deposition of unextractable brown material at the infection sites, and showed increased susceptibility to B. oryzae infection. Treating the mutant with serotonin restored deposition of brown material at the lesion site. In addition, the serotonin treatment suppressed the growth of fungal hyphae in the leaf tissues of the sl mutant. These findings indicated that the activation of the Trp pathway is involved in the establishment of effective physical defenses by producing serotonin in rice leaves.

Published

2008

36. Facile preparation of deuterium-labeled standards of indole-3-acetic acid (IAA) and its metabolites to quantitatively analyze the disposition of exogenous IAA in Arabidopsis thaliana

Author

Shunsuke Nakamura, Kyo Wakasa, Hisashi Miyagawa, and Kenji Kai

Subjects

Spectrometry, Mass, Electrospray Ionization, Stereochemistry, Metabolite, Arabidopsis, Applied Microbiology and Biotechnology, Biochemistry, Plant Roots, Analytical Chemistry, Acetic acid, chemistry.chemical_compound, Arabidopsis thaliana, heterocyclic compounds, Molecular Biology, Indole test, biology, Indoleacetic Acids, Organic Chemistry, food and beverages, General Medicine, Metabolism, Reference Standards, biology.organism_classification, Deuterium, chemistry, Seedlings, Isotope Labeling, Hydrogen–deuterium exchange, Indole-3-acetic acid, Biotechnology, Chromatography, Liquid

Abstract

[2',2'-(2)H(2)]-indole-3-acetic acid ([2',2'-(2)H(2)]IAA) was prepared in an easy and efficient manner involving base-catalyzed hydrogen/deuterium exchange. 1-O-([2',2'-(2)H(2)]-indole-3-acetyl)-beta-D-glucopyranose, [2',2'-(2)H(2)]-2-oxoindole-3-acetic acid, and 1-O-([2',2'-(2)H(2)]-2-oxoindole-3-acetyl)-beta-D-glucopyranose were also successfully synthesized from deuterated IAA, and effectively utilized as internal standards in the quantitative analysis of IAA and its metabolites in Arabidopsis thaliana by using liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS). The use of this technique shows that these metabolites were accumulated in the roots of Arabidopsis seedlings. Dynamic changes in the metabolites of IAA were observed in response to exogenous IAA, revealing that each metabolic action was regulated differently to contribute to the IAA homeostasis in Arabidopsis.

Published

2007

37. Estimation of metabolic fluxes, expression levels and metabolite dynamics of a secondary metabolic pathway in potato using label pulse-feeding experiments combined with kinetic network modelling and simulation

Author

Elmar, Heinzle, Fumio, Matsuda, Hisashi, Miyagawa, Kyo, Wakasa, and Takaaki, Nishioka

Subjects

Kinetics, Computer Simulation, Models, Theoretical, Models, Biological, Algorithms, Metabolic Networks and Pathways, Solanum tuberosum

Abstract

In this paper we present a method that allows dynamic flux analysis without a priori kinetic knowledge. This method was developed and validated using the pulse-feeding experimental data obtained in our previous study (Matsuda et al., 2005), in which incorporation of exogenously applied l-phenylalanine-d(5) into seven phenylpropanoid metabolites in potato tubers was determined. After identification of the topology of the metabolic network of these biosynthetic pathways, the system was described by dynamic mass balances in combination with power-law kinetics. After the first simulations, some reactions were removed from the network because they were not contributing significantly to network behaviour. As a next step, the exponents of the power-law kinetics were identified and then kept at fixed values during further analysis. The model was tested for statistical reliability using Monte Carlo simulations. Most fluxes could be identified with high accuracy. The two test cases, control and after elicitation, were clearly distinguished, and with elicitation fluxes to N-p-coumaroyloctopamine (pCO) and N-p-coumaroyltyramine (pCT) increased significantly, whereas those for chlorogenic acid (CGA) and p-coumaroylshikimate decreased significantly. According to the model, increases in the first two fluxes were caused by induction/derepression mechanisms. The decreases in the latter two fluxes were caused by decreased concentrations of their substrates, which in turn were caused by increased activity of the pCO- and pCT-producing enzymes. Flux-control analysis showed that, in most cases, flux control was changed after application of elicitor. Thus the results revealed potential targets for improving actions against tissue wounding and pathogen attack.

Published

2007

38. Three oxidative metabolites of indole-3-acetic acid from Arabidopsis thaliana

Author

Junko Horita, Kenji Kai, Kyo Wakasa, and Hisashi Miyagawa

Subjects

Spectrometry, Mass, Electrospray Ionization, Metabolite, Phenylalanine, Arabidopsis, Plant Science, Horticulture, Hydroxylation, Biochemistry, Plant Roots, chemistry.chemical_compound, Glucosides, Auxin, Valine, Tandem Mass Spectrometry, Arabidopsis thaliana, heterocyclic compounds, Molecular Biology, Indole test, chemistry.chemical_classification, Chromatography, biology, Indoleacetic Acids, Molecular Structure, food and beverages, General Medicine, biology.organism_classification, Amino acid, chemistry, Indole-3-acetic acid, Oxidation-Reduction, Chromatography, Liquid

Abstract

Three metabolites of indole-3-acetic acid (IAA), N-(6-hydroxyindol-3-ylacetyl)-phenylalanine (6-OH-IAA-Phe), N-(6-hydroxyindol-3-ylacetyl)-valine (6-OH-IAA-Val), and 1-O-(2-oxoindol-3-ylacetyl)-beta-d-glucopyranose (OxIAA-Glc), were found by a liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS)-based search for oxidative IAA metabolites during the vegetative growth of Arabidopsis. Their structures were confirmed by making a comparison of chromatographic characteristics and mass spectra between naturally occurring compounds and synthetic standards. An incorporation study using deuterium-labeled compounds showed that 6-OH-IAA-Phe and 6-OH-IAA-Val were biosynthesized from IAA-Phe and IAA-Val, respectively, which strongly suggested the formation of these amino acid conjugates of IAA in plants. Both 6-OH-IAA-Phe and 6-OH-IAA-Val were inactive as auxins, as indicated by no significant root growth inhibition in Arabidopsis. Quantitative analysis demonstrated that OxIAA-Glc was present in the largest amount among the metabolites of IAA in Arabidopsis, suggesting that the conversion into OxIAA-Glc represents the main metabolic process regarding IAA in Arabidopsis.

Published

2006

39. Metabolic profiling of tryptophan-overproducing rice calli that express a feedback-insensitive alpha subunit of anthranilate synthase

Author

Hisashi Miyagawa, Kyo Wakasa, Fumio Matsuda, Haruna Miyazawa, Akiko Sukegawa, and Keiko Morino

Subjects

Physiology, Transgene, Plant Science, Gene Expression Regulation, Enzymologic, chemistry.chemical_compound, Glucoside, Biosynthesis, Glucosides, Gene Expression Regulation, Plant, Chromatography, High Pressure Liquid, Anthranilate Synthase, Feedback, Physiological, Oryza sativa, biology, Indoleacetic Acids, Molecular Structure, Tryptophan, food and beverages, Oryza, Cell Biology, General Medicine, Plants, Genetically Modified, Genetically modified rice, Protein Subunits, Biochemistry, chemistry, biology.protein, Anthranilate synthase, Indole-3-acetic acid

Abstract

The profile of aromatic metabolites in calli was compared between wild-type rice (Oryza sativa cv. Nipponbare) and tryptophan-overproducing transgenic rice lines that express a gene (OASA1D) for a feedback-insensitive alpha subunit of anthranilate synthase. Metabolic profiling by high-performance liquid chromatography coupled with photodiode array detection of ultraviolet absorbance revealed a total of 71 peaks in both wild-type and transgenic calli. Only a limited effect on the pattern of major aromatic compounds was observed in tryptophan-accumulating transgenic rice lines, with the exception of an approximately 80-fold increase in the amount of tryptophan. Expression of OASA1D induced relatively small changes in several minor metabolites. One of the minor metabolites whose abundance was increased by OASA1D expression was purified and identified as a previously unknown indole-alkaloid glucoside. The levels of free and conjugated forms of indole-3-acetic acid (IAA), a plant hormone derived from the tryptophan biosynthetic pathway, were determined separately by liquid chromatography and tandem mass spectrometry (LC-MS/MS). The amounts of both free IAA and its conjugates were increased in the transgenic calli, suggesting that the activity of anthranilate synthase or the concentration of tryptophan (or both) is an important determinant of IAA biosynthesis.

Published

2005

40. Metabolic flux analysis of the phenylpropanoid pathway in elicitor-treated potato tuber tissue

Author

Fumio Matsuda, Kyo Wakasa, Masaki Kuzawa, Rieko Ano, Keiko Morino, and Hisashi Miyagawa

Subjects

Physiology, Propanols, Oligosaccharides, Tyramine, Plant Science, Biology, chemistry.chemical_compound, Metabolic flux analysis, Putrescine, Octopamine, Solanum tuberosum, Phenylpropanoid, food and beverages, Cell Biology, General Medicine, Metabolism, Amides, Immunity, Innate, Elicitor, Biochemistry, chemistry, Octopamine (neurotransmitter), Chlorogenic Acid, Flux (metabolism)

Abstract

The effects of beta-1,3-oligosaccharide elicitor on the metabolism of phenylpropanoids in potato tuber were analyzed quantitatively, by monitoring the time-dependent changes in the levels of seven compounds. The elicitor treatment caused an increase in the pool size of octopamine and tyramine amides (N-p-coumaroyloctopamine, N-feruloyloctopamine, N-p-coumaroyltyramine and N-feruloyltyramine), as well as a decrease in that of chlorogenic acid and putrescine amides (caffeoylputrescine and feruloylputrescine). An analysis of metabolic flux using stable isotope labeling and liquid chromatography-spectrometry (LC-MS) detection clearly demonstrated that the changes in the pool size of these compounds were correlated with the changes in their flux for biosynthesis (Jin) upon elicitor treatment. The increase in Jin in the cases of octopamine and tyramine amides was accompanied by an increase in flux for the transformation (Jout), indicating a rapid turnover of these compounds in the elicitor-treated tuber tissue. The result of the flux analysis indicated that the actual activation of the biosynthesis of octopamine and tyramine amides after the elicitor treatment was greater than that estimated from the changes in their levels in the potato tissue. These findings suggest that these amide compounds and their metabolic derivatives play an important role in the defense-related metabolism of phenylpropanoids in potato.

Published

2005

41. Characterization of tryptophan-overproducing potato transgenic for a mutant rice anthranilate synthase alpha-subunit gene (OASA1D)

Author

Haruna Miyazawa, Kyo Wakasa, Fumio Matsuda, Tetsuya Yamada, and Hisashi Miyagawa

Subjects

Transgene, Mutant, Plant Science, Genetically modified crops, Gene Expression Regulation, Enzymologic, chemistry.chemical_compound, Biosynthesis, Gene Expression Regulation, Plant, Genetics, Point Mutation, Anthranilate Synthase, Solanum tuberosum, Oryza sativa, biology, Indoleacetic Acids, Molecular Structure, fungi, Tryptophan, food and beverages, Oryza, Plants, Genetically Modified, Plant Leaves, Plant Tubers, Protein Subunits, Biochemistry, chemistry, biology.protein, Anthranilate synthase, Indole-3-acetic acid

Abstract

Potato plants (Solanum tuberosum cv. May Queen) transgenic for OASA1D, which encodes a point mutant of an alpha-subunit of rice (Oryza sativa) anthranilate synthase (AS, EC 4.1.3.27), were generated in order to determine the effects of the mutant gene on levels of free tryptophan (Trp) and AS activity in this important crop. Expression of OASA1D in potato induced a 2- to 20-fold increase in the amount of free Trp. This increase was likely due to a reduction in the sensitivity of AS containing the mutant alpha-subunit to feedback inhibition by Trp. Nontargeted metabolite profiling by high-performance liquid chromatography coupled with ultraviolet photodiode array detection as well as targeted profiling by liquid chromatography coupled with mass spectrometry revealed no marked changes in the levels of other metabolites, with the exception of indole-3-acetic acid (IAA), in the transgenic plants. The level of IAA in the upper part of the shoot was increased by a factor of 8.3-39, depending on the transgenic lines, with no detectable effect on plant growth or development. The effects of transformation thus appeared limited to the biosynthesis of Trp and IAA, with the overall metabolic network in potato being virtually unaffected. These results suggest that transformation with OASA1D may prove effective for the breeding of crops with an increased level of free Trp.

Published

2005

42. Identification of three shikimate kinase genes in rice: characterization of their differential expression during panicle development and of the enzymatic activities of the encoded proteins

Author

Kyo Wakasa, Yasuko Ikejiri-Kanno, Koji Kasai, Takuya Kanno, Mitsuru Akita, and Yuzuru Tozawa

Subjects

Chloroplasts, Molecular Sequence Data, Plant Science, Flowers, Biology, Shikimate kinase, Catalysis, Gene Expression Regulation, Enzymologic, chemistry.chemical_compound, Gene Expression Regulation, Plant, Gene expression, Genetics, Aromatic amino acids, Shikimate pathway, Amino Acid Sequence, Cloning, Molecular, Gene, Peptide sequence, Phylogeny, Oryza sativa, Sequence Homology, Amino Acid, food and beverages, Gene Expression Regulation, Developmental, Oryza, Elicitor, Phosphotransferases (Alcohol Group Acceptor), chemistry, Biochemistry

Abstract

The shikimate pathway is common to the biosynthesis of the three aromatic amino acids and that of various secondary metabolites in land plants. Shikimate kinase (SK; EC 2.7.1.71) catalyzes the phosphorylation of shikimate to yield shikimate 3-phosphate. In an attempt to elucidate the functional roles of enzymes that participate in the shikimate pathway in rice (Oryza sativa), we have now identified and characterized cDNAs corresponding to three SK genes--OsSK1, OsSK2, and OsSK3--in this monocotyledenous plant. These SK cDNAs encode proteins with different NH(2)-terminal regions and with putative mature regions that share sequence similarity with other plant and microbial SK proteins. An in vitro assay of protein import into intact chloroplasts isolated from pea (Pisum sativum) seedlings revealed that the full-length forms of the three rice SK proteins are translocated into chloroplasts and processed, consistent with the assumption that the different NH(2)-terminal sequences function as chloroplast transit peptides. The processed forms of all three rice proteins synthesized in vitro manifested SK catalytic activity. Northern blot analysis revealed that the expression of OsSK1 and OsSK2 was induced in rice calli by treatment with the elicitor N-acetylchitoheptaose, and that expression of OsSK1 and OsSK3 was up-regulated specifically during the heading stage of panicle development. These results suggest that differential expression of the three rice SK genes and the accompanying changes in the production of shikimate 3-phosphate may contribute to the defense response and to panicle development in rice.

Published

2005

43. Reproducible transformation in two grain legumes--soybean and azuki bean--using different systems

Author

Hany, El-Shemy, Mutasim, Khalafalla, Kyo, Wakasa, and Masao, Ishimoto

Subjects

Phosphotransferases (Alcohol Group Acceptor), Transformation, Genetic, Species Specificity, Genetic Vectors, Reproducibility of Results, Fabaceae, Soybeans, Polymerase Chain Reaction, Plasmids, Rhizobium

Abstract

Two plasmid vectors were introduced into soybean (Glycine max (L.) Merr.) and azuki bean (Vigna angularis Willd. Ohwi and Ohashi) using different transformation systems. Azuki bean epicotyl explants were prepared from etiolated seedlings and co-cultivated with Agrobacterium tumefaciens for 2 days. Adventitious shoots were developed from the callus of the explants on a regeneration medium containing hygromycin, and the shoots were excised and transferred to a rooting medium containing hygromycin at the same concentration. Rooting shoots were transferred to soil and grown in a glass-house to produce viable seeds. PCR analysis confirmed clearly the presence of the hpt gene in most of the azuki beans regenerated under hygromycin selection. A soybean embryogenic suspension culture was generated from immature cotyledons, and used for the introduction of plasmids by particle bombardment. Hygromycin-resistant embryogenic clones were isolated after 8 weeks of hygromycin selection, and then the green clones were matured on the differentiation medium. After desiccation, the embryos were germinated on the rooting medium, and the plants were transferred to soil in a glass-house. More than 50% of the regenerated soybean plants tolerant to hygromycin yielded the hpt fragment on PCR analysis. The azuki bean transformants were obtained more rapidly and with higher efficiency than the soybean transformants.

Published

2002

44. The structures of integration sites in transgenic rice

Author

Hitomi Egawa, Makoto Takano, Kyo Wakasa, and Joh-E Ikeda

Subjects

Molecular Sequence Data, Restriction Mapping, Retrotransposon, Plant Science, Biology, Genome, Sequence Homology, Nucleic Acid, Gene duplication, Genetics, Amino Acid Sequence, Repeated sequence, Gene, Cell Nucleus, Base Sequence, Protoplasts, food and beverages, Oryza, Cell Biology, Plants, Genetically Modified, Genetically modified rice, Recombinant Proteins, genomic DNA, Phosphotransferases (Alcohol Group Acceptor), Sequence motif, Genome, Plant, Plasmids

Abstract

Summary Extensive genomic sequencing and sequence motif analysis have been conducted over the integration sites of two transgenic rice plants, #478 and #559, carrying the luciferase gene and/or hygromycin phosphotransferase gene. The transgenes reside in a region with inverted structure and a large duplication of rice genome over 2 kb. Integration was found at the AT-rich region and/or at the repetitive sequence region, including a SAR-like structure, retrotransposon and telomere repeats. The presence of a patch of sequence homology between plasmid and target DNA, and a small region of duplication involving the target DNA around the recombination site, implicated illegitimate recombination in the process of gene integration. Massive rearrangement of genomic DNA including deletion or translocation was also observed at the integration site and the flanking region of the transgene. The recognition sites of DNA topoisomerases I or II were observed in the rearranged sequences. Since only three junctions of transgenic rice were implicated in the illegitimate recombination and extensive rearrangement of the rice genome, rice protoplasts may be active in this process.

Published

1997

45. Erratum to 'Differential response of methionine metabolism in two grain legumes, soybean and azuki bean, expressing a mutated form of Arabidopsis cystathionine γ-synthase' [J. Plant Physiol. 170 (January (3)) (2013) 338–345]

Author

Satoshi Naito, Masao Ishimoto, Yumi Nakamoto, Moemen S. Hanafy, Kyo Wakasa, Shaikh M. Rahman, and Toru Fujiwara

Subjects

Biochemistry, Methionine metabolism, ATP synthase, Physiology, Arabidopsis, biology.protein, Plant Science, Biology, biology.organism_classification, Agronomy and Crop Science, Cystathionine beta synthase, Azuki bean

Published

2013

46. Isolation and characterization of 21 novel expressed DNA sequences from the distal region of human chromosome 4p

Author

Joh-E Ikeda, Hitoshi Tomiyasu, Yoshikazu Ishida, Shinji Hadano, Tomiko Nagayama, and Kyo Wakasa

Subjects

Genetics, DNA, Complementary, Base Sequence, cDNA library, Molecular Sequence Data, Chromosome, Chromosome Mapping, Gene Expression, Biology, Chromosome microdissection, Molecular biology, Polymerase Chain Reaction, DNA sequencing, Reverse transcriptase, Complementary DNA, Humans, RNA, Messenger, Primer (molecular biology), Chromosomes, Human, Pair 4, Cloning, Molecular, Chromosome 22, Sequence Tagged Sites

Abstract

The authors have established an approach to the isolation of expressed DNA sequences from a defined region of the human chromosome. The method relies on the direct screening of cDNA libraries using pooled single-copy microclones generated by a laser chromosome microdissection in conjunction with a single unique primer polymerase chain reaction (SUP-PCR) procedure. They applied this method to the distal region of human chromosome 4p (4p15-4pter), which contains the Huntington disease (HD) and the Wolf-Hirschhorn syndrome (WHS) loci. Twenty-one nonoverlapping and region-specific cDNA clones encoding novel genes were isolated in this manner. Ten of 21 clones were subregionally assigned to 4p16.1-4pter, and the remainder mapped to the region proximal to 4p16.1. Northern blot and reverse transcription followed by the PCR (RT-PCR) analysis revealed that 16 of these 21 clones detected transcripts in total RNA from human tissues. The method is applicable to other chromosomal regions and is a powerful approach to the isolation of region-specific cDNA clones. 44 refs., 3 figs., 3 tabs.

Published

1994

47. Laser microdissection and single unique primer PCR allow generation of regional chromosome DNA clones from a single human chromosome

Author

Kyo Wakasa, Ikuko Kondo, Haruhiko Yokoi, Shinji Hadano, Masahiko Watanabe, Ichiro Kanazawa, Joh-E Ikeda, Hiroshi Tsuchiya, and Mieko Kogi

Subjects

Molecular Sequence Data, Molecular cloning, Biology, Hybrid Cells, Polymerase Chain Reaction, Sensitivity and Specificity, law.invention, Micromanipulation, law, Genetics, Humans, Genomic library, Cloning, Molecular, Microdissection, Polymerase chain reaction, Cells, Cultured, Laser capture microdissection, Gene Library, Base Sequence, Lasers, Chromosome Mapping, Fibroblasts, Chromosome microdissection, Molecular biology, Chromosome 4, Karyotyping, Chromosomes, Human, Pair 4, DNA Probes, Chromosome 22

Abstract

We have developed an argon laser chromosome microdissection technique in conjunction with a polymerase chain reaction (PCR) approach to directly amplify microdissected chromosomes. The single 22-mer primer used in PCR, although unique in sequence (5′-TAGATCTGATATCTGAATTCCC-3′), randomly primed and amplified any target DNA. These methods were applied to the distal half of the short arm of human chromosome 4 containing the Huntington disease (HD) locus. Forty-four percent of representative clones from this library identify singlecopy DNA sequences. This calculation suggests that the resulting chromosome-specific DNA library contains approximately 600 nonoverlapping sequences with an average size 350 bp at an average spacing of 30 kbp along chromosome 4. This microdissection and PCR cloning procedure is a simple and general approach for constructing a chromosome region-specific DNA library from a single metaphase spread.

Published

1991

48. Rice OASA1D, a mutant anthranilate synthase .ALPHA. subunit gene, is an effective selectable marker for transformation of Arabidopsis thaliana

Author

Kawagishi-Kobayashi, Makiko, primary, Yabe, Naoto, additional, Tsuchiya, Mizuho, additional, Harada, Sachiyo, additional, Kobayashi, Tomoko, additional, Komeda, Yoshibumi, additional, and Kyo, Wakasa, additional

Published

2005

49. In vitro reconstitution of rice anthranilate synthase: distinct functional properties of the α subunits OASA1 and OASA2.

Author

Takuya Kanno, Koji Kasai, Yasuko Ikejiri-Kanno, Kyo Wakasa, and Yuzuru Tozawa

Subjects

HEREDITY, ISOENZYMES, GENES, GERM cells

Abstract

Anthranilate synthase (AS) is a key enzyme in the biosynthesis of various indole compounds including tryptophan. AS consists of two subunits, α and β, and converts chorismate to anthranilate. Two or more AS α-subunit genes have been identified and characterized in several land plants. Although α subunits of AS induced by elicitation have been suggested to play significant roles in secondary metabolism, the biochemical and precise functional properties of individual AS isozymes have remained unclear. We have previously identified and characterized two AS α-subunit genes (OASA1 and OASA2) in rice (Oryza sativa). To provide further insight into the enzymatic functions of AS isozymes in rice, we have now isolated rice cDNAs encoding the AS β subunits OASB1 and OASB2 and reconstituted AS isozymes in vitro with the wheat germ cell-free system for protein expression. Both OASB subunits conferred glutamine-dependent AS activity on either OASA1 or OASA2, indicating the absence of a marked functional difference between the two β subunits in terms of amidotransferase activity. Furthermore, both OASA subunits required assembly with a β subunit to achieve maximal enzymatic activity even with NH [ABSTRACT FROM AUTHOR]

Published

2004

50. In vitro reconstitution of rice anthranilate synthase: distinct functional properties of the &agr; subunits OASA1 and OASA2.

Author

Takuya Kanno, Koji Kasai, Yasuko Ikejiri-Kanno, Kyo Wakasa, and Yuzuru T

Subjects

ISOENZYMES, AMINO acids, TRYPTOPHAN, GENES

Abstract

Anthranilate synthase (AS) is a key enzyme in the biosynthesis of various indole compounds including tryptophan. AS consists of two subunits, &agr; and β, and converts chorismate to anthranilate. Two or more AS &agr;-subunit genes have been identified and characterized in several land plants. Although &agr; subunits of AS induced by elicitation have been suggested to play significant roles in secondary metabolism, the biochemical and precise functional properties of individual AS isozymes have remained unclear. We have previously identified and characterized two AS &agr;-subunit genes (OASA1 and OASA2) in rice (Oryza sativa). To provide further insight into the enzymatic functions of AS isozymes in rice, we have now isolated rice cDNAs encoding the AS β subunits OASB1 and OASB2 and reconstituted AS isozymes in vitro with the wheat germ cell-free system for protein expression. Both OASB subunits conferred glutamine-dependent AS activity on either OASA1 or OASA2, indicating the absence of a marked functional difference between the two β subunits in terms of amidotransferase activity. Furthermore, both OASA subunits required assembly with a β subunit to achieve maximal enzymatic activity even with NH4+ as the amino donor. The V\max and Ki for tryptophan of the OASA1-OASB1 isozyme with glutamine as the amino donor, however, were 2.4 and 7.5 times, respectively, those of OASA2-OASB1, suggesting that AS isozymes containing OASA1 possess a higher activity and are less sensitive to feedback inhibition than those containing OASA2. Our biochemical characterization of reconstituted AS isozymes has thus revealed distinct functional properties of these isozymes in rice. [ABSTRACT FROM AUTHOR]

Published

2004