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151.
Naotake Sato Teruo Uzuki Koji Toi Takekazu Akashi 《Bioscience, biotechnology, and biochemistry》2013,77(7):1107-1108
The inhibitory activity of an angiotensin I-converting enzyme (ACE) detected in soy sauce was fractionated into two major fractions of high molecular weight (Hw) and low molecular weight (Lw) by gel filtration chromatography on Bio-gel P-2 after treating with ethanol. The Hw fraction reduced the blood pressure in hypertensive rats after orally administering, while the Lw fraction did not. The ACE inhibitor in the Hw fraction was further purified by Dowex 50W ion-exchange chromatography and four subsequent steps of HPLC. On the basis of the SIMS-mass spectrum, NMR spectrum and other characteristics, the purified ACE inhibitor was identified as nicotianamine (N-[N-(3-amino-3-carboxypropyl)-3-amino-3- carboxypropyl]azetidine-2-carboxylic acid). The IC50 value for this ACE was 0.26 µM. 相似文献
152.
Kazutaka Akashi Hiroyuki Nishimura Junya Mizutani 《Bioscience, biotechnology, and biochemistry》2013,77(7):1507-1508
Although coloration in plants is ascribable to both the accumulation of anthocyanin pigments in vacuoles and to the acidification of vacuolar pH, the environmental factors causing the decrease in vacuolar pH are unknown. We found that blue-light irradiation of buckwheat seedlings using light-emitting diodes caused reddening on the surface of the hypocotyls. It has also been reported that light stimulation induces an accumulation of anthocyanin pigments. However, here we confirmed for the first time on the basis of real-time PCR analysis that light stimulation simultaneously triggers expression of the genes coding for subunit A of vacuolar H+-ATPase (V-ATPase) and vacuolar H+-pyrophosphatase (V-PPase). 相似文献
153.
Riki Toita Kenshi Nakao Atsushi Mahara Tetsuji Yamaoka Mitsuru Akashi 《Bioorganic & medicinal chemistry》2013,21(21):6608-6615
Fluorophores-modified nanoparticles comprised of poly(γ-glutamic acid)-phenylalanine (γ-PGA-Phe-633) and ovalbumin (OVA-750) termed NPs-633/OVA-750 were prepared to assess their biodistribution using an in vivo fluorescence imager. Dynamic light scattering measurements indicated that NPs-633/OVA-750 were about 200 nm in diameter. The release of encapsulated OVA from NPs-633 in PBS was negligible (~10%) for a week. When subcutaneously injected, the localization period of OVA-750-encapsulated into NPs-633 at the site of injection (SOI) was much longer than that of free OVA-750, but was shorter as compared to a mixture with aluminum hydroxide. The NPs-633 disappeared at the SOI and major organs within 1 month after administration. Moreover, intravenously and intraperitoneally administered NPs-633 were mainly observed at the liver, and there was more rapid clearance from all organs as compared with non-biodegradable NPs. These fast clearance and degradation characteristics of γ-PGA-Phe NPs will be important not only for avoiding undesired adverse effects, but also for inducing a strong vaccine effect. 相似文献
154.
Himuro Y Tanaka H Hashiguchi M Ichikawa T Nakazawa M Seki M Fujita M Shinozaki K Matsui M Akashi R Hoffmann F 《Journal of plant physiology》2011,168(2):181-187
Using the full-length cDNA overexpressor (FOX) gene-hunting system, we have generated 130 Arabidopsis FOX-superroot lines in bird's-foot trefoil (Lotus corniculatus) for the systematic functional analysis of genes expressed in roots and for the selection of induced mutants with interesting root growth characteristics. We used the Arabidopsis-FOX Agrobacterium library (constructed by ligating pBIG2113SF) for the Agrobacterium-mediated transformation of superroots (SR) and the subsequent selection of gain-of-function mutants with ectopically expressed Arabidopsis genes. The original superroot culture of L. corniculatus is a unique host system displaying fast root growth in vitro, allowing continuous root cloning, direct somatic embryogenesis and mass regeneration of plants under entirely hormone-free culture conditions. Several of the Arabidopsis FOX-superroot lines show interesting deviations from normal growth and morphology of roots from SR-plants, such as differences in pigmentation, growth rate, length or diameter. Some of these mutations are of potential agricultural interest. Genomic PCR analysis revealed that 100 (76.9%) out of the 130 transgenic lines showed the amplification of single fragments. Sequence analysis of the PCR fragments from these 100 lines identified full-length cDNA in 74 of them. Forty-three out of 74 full-length cDNA carried known genes. The Arabidopsis FOX-superroot lines of L. corniculatus, produced in this study, expand the FOX hunting system and provide a new tool for the genetic analysis and control of root growth in a leguminous forage plant. 相似文献
155.
156.
Shohei Chikae Akifumi Kubota Haruka Nakamura Atsushi Oda Akihiro Yamanaka Takami Akagi Mitsuru Akashi 《Biotechnology and bioengineering》2019,116(11):3136-3142
Three-dimensional (3D) printers are attracting attention as a method for arranging and building cells in three dimensions. Bioprinting technology has potential in tissue engineering for the fabrication of scaffolds, cells, and tissues. However, these various printing technologies have limitations with respect to print resolution and due to the characteristics of bioink such as viscosity. We report a method for constructing of 3D tissues with a “microscopic painting device using a painting needle method” that, when used with the layer-by-layer (LbL) cell coating technique, replaces conventional methods. This method is a technique of attaching the high viscosity bioink to the painting needle tip and arranging it on a substrate, and can construct 3D tissues without damage to cells. Cell viability is the same before and after painting. We used this biofabrication device to construct 3D cardiac tissue (LbL-3D Heart) using human-induced pluripotent stem cell–derived cardiomyocytes. The constructed LbL-3D Heart chips had multiple layers with a thickness of 60 µm, a diameter of 1.1 mm, and showed synchronous beating (50–60 beats per min). The aforementioned device and method of 3D tissue construction can be applied to various kinds of tissue models and would be a useful tool for pharmaceutical applications. 相似文献
157.
Yasuyo Himuro Kanako Ishiyama Fumie Mori Takahiro Gondo Fuminori Takahashi Kazuo Shinozaki Masatomo Kobayashi Ryo Akashi 《Journal of plant physiology》2014
Brachypodium distachyon (purple false brome) is a herbaceous species belonging to the grass subfamily Pooideae, which also includes major crops like wheat, barley, oat and rye. The species has been established as experimental model organism for understanding and improving cereal crops and temperate grasses. The complete genome of Bd21, the community standard line of B. distachyon, has been sequenced and protocols for Agrobacterium-mediated transformation have been published. Further improvements to the experimental platform including better evaluation systems for transgenic plants are still needed. Here we describe the growth conditions for Bd21 plants yielding highly responsive immature embryos that can generate embryogenic calli for transformation. A prolonged 20-h photoperiod produced seeds with superior immature embryos. In addition, osmotic treatment of embryogenic calli enhanced the efficiency of transfection by particle bombardment. We generated transgenic plants expressing Arabidopsis thaliana galactinol synthase 2 (AtGolS2) in these experiments. AtGolS2-expressing transgenics displayed significantly improved drought tolerance, increasing with increased expression of AtGolS2. These results demonstrate that AtGolS2 can confer drought tolerance to monocots and confirm that Brachypodium is a useful model to further explore ways to understand and improve major monocot crop species. 相似文献
158.
Tamaki Shigeyama Akiyoshi Tominaga Susumu Arima Tatsuya Sakai Sayaka Inada Yusuke Jikumaru Yuji Kamiya Toshiki Uchiumi Mikiko Abe Masatsugu Hashiguchi Ryo Akashi Ann M. Hirsch Akihiro Suzuki 《Plant signaling & behavior》2012,7(7):746-748
Light is critical for supplying carbon for use in the energetically expensive process of nitrogen-fixing symbiosis between legumes and rhizobia. We recently showed that root nodule formation in phyB mutants [which have a constitutive shade avoidance syndrome (SAS) phenotype] was suppressed in white light, and that nodulation in wild-type is controlled by sensing the R/FR ratio through jasmonic acid (JA) signaling. We concluded that the cause of reduced root nodule formation in phyB mutants was the inhibition of JA-Ile production in root. Here we show that the shoot JA-Ile level of phyB mutants is higher than that of the wild-type strain MG20, suggesting that translocation of JA-Ile from shoot to root is impeded in the mutant. These results indicate that root nodule formation in phyB mutants is suppressed both by decreased JA-Ile production, caused by reduced JAR1 activity in root, and by reduced JA-Ile translocation from shoot to root. 相似文献
159.
Nuclear sequence markers are useful tool for the study of the history of populations and adaptation. However, it is not easy to obtain multiple nuclear primers for organisms with poor or no genomic sequence information. Here we used the genomes of organisms that have been fully sequenced to design comprehensive sets of primers to amplify polymorphic genomic fragments of multiple nuclear genes in non-sequenced organisms. First, we identified a large number of candidate polymorphic regions that were flanked on each side by conserved regions in the reference genomes. We then designed primers based on these conserved sequences and examined whether the primers could be used to amplify sequences in target species, montane brown frog (Rana ornativentris), anole lizard (Anolis sagrei), guppy (Poecilia reticulata), and fruit fly (Drosophila melanogaster), for population genetic analysis. We successfully obtained polymorphic markers for all target species studied. In addition, we found that sequence identities of the regions between the primer sites in the reference genomes affected the experimental success of DNA amplification and identification of polymorphic loci in the target genomes, and that exonic primers had a higher success rate than intronic primers in amplifying readable sequences. We conclude that this comparative genomic approach is a time- and cost-effective way to obtain polymorphic markers for non-sequenced organisms, and that it will contribute to the further development of evolutionary ecology and population genetics for non-sequenced organisms, aiding in the understanding of the genetic basis of adaptation. 相似文献
160.
Okuwaki M Sumi A Hisaoka M Saotome-Nakamura A Akashi S Nishimura Y Nagata K 《Nucleic acids research》2012,40(11):4861-4878
Sperm chromatin remodeling after oocyte entry is the essential step that initiates embryogenesis. This reaction involves the removal of sperm-specific basic proteins and chromatin assembly with histones. In mammals, three nucleoplasmin/nucleophosmin (NPM) family proteins-NPM1, NPM2 and NPM3-expressed in oocytes are presumed to cooperatively regulate sperm chromatin remodeling. We characterized the sperm chromatin decondensation and nucleosome assembly activities of three human NPM proteins. NPM1 and NPM2 mediated nucleosome assembly independently of other NPM proteins, whereas the function of NPM3 was largely dependent on formation of a complex with NPM1. Maximal sperm chromatin remodeling activity of NPM2 required the inhibition of its non-specific nucleic acid-binding activity by phosphorylation. Furthermore, the oligomer formation with NPM1 elicited NPM3 nucleosome assembly and sperm chromatin decondensation activity. NPM3 also suppressed the RNA-binding activity of NPM1, which enhanced the nucleoplasm-nucleolus shuttling of NPM1 in somatic cell nuclei. Our results proposed a novel mechanism whereby three NPM proteins cooperatively regulate chromatin disassembly and assembly in the early embryo and in somatic cells. 相似文献