8 results on '"Sasaki, Keisuke"'
Search Results
2. Photosynthetic responses to soil water stress in summer in two Japanese urban landscape tree species ( Ginkgo biloba and Prunus yedoensis): effects of pruning mulch and irrigation management.
- Author
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Kagotani, Yuichi, Nishida, Keisuke, Kiyomizu, Takashi, Sasaki, Keisuke, Kume, Atsushi, and Hanba, Yuko
- Abstract
Key message : Stomatal regulation involves beneficial effects of pruning mulch and irrigation on leaf photosynthesis in Prunus yedoensis and Ginkgo biloba under moderate drought. G. biloba showed conservative water use under drought. Abstract: Leaf photosynthesis is highly sensitive to soil water stress via stomatal and/or biochemical responses, which markedly suppress the growth of landscape trees. Effective irrigation management to maintain leaf photosynthesis and information on species-specific photosynthetic responses to soil water stress are essential for the sustainable management of landscape trees in Japan, in which summer drought often occurs. In order to investigate effective irrigation management, we used plants with moderate soil water stress as controls, and examined the effects of daily irrigation and pruning mulch on leaf photosynthesis in container-grown Ginkgo biloba and Prunus yedoensis, which are the first and second main tall roadside trees in Japan. Stomatal conductance was significantly increased by pruning mulch and daily irrigation, with similar increases in leaf photosynthesis being observed in P. yedoensis and G. biloba. In order to obtain information on species-specific photosynthetic responses to soil water stress, we compared the responses of leaf photosynthesis and leaf water status to reductions in soil water content (SWC) between the two species. G. biloba maintained a constant leaf water potential, leaf water content, maximum carboxylation rate, and electron transport rate with reductions in SWC, whereas reductions were observed in P. yedoensis. We concluded that pruning mulch and irrigation effectively offset the negative impact of moderate water stress on leaf photosynthesis in summer in P. yedoensis and G. biloba via stomatal regulation, and also that G. biloba maintained its photosynthetic biochemistry and leaf water status better than P. yedoensis under severe water stress. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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3. Effects of Strains of Lactococcus lactis on the Production of Nitric Oxide and Cytokines in Murine Macrophages.
- Author
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Suzuki, Chise, Aoki-Yoshida, Ayako, Kimoto-Nira, Hiromi, Kobayashi, Miho, Sasaki, Keisuke, and Mizumachi, Koko
- Subjects
LACTOCOCCUS lactis ,PHYSIOLOGICAL effects of nitric oxide ,CYTOKINES ,MACROPHAGES ,LABORATORY mice ,LACTIC acid bacteria ,INTERLEUKIN-12 - Abstract
Nitric oxide (NO) is a multifunctional mediator that is involved in a variety of pathologic and physiologic processes. Few studies have addressed the effect of lactic acid bacteria (LAB), especially Lactococcus lactis strains used in dairy products, on inducible nitric oxide synthase (iNOS) induction as a component of the host's gastrointestinal immune response. We investigated the ability of L. lactis strains to induce NO synthesis in the murine macrophage-like cell line J774.1 and in peritoneal macrophages from mice. The degree of NO induction was specific to the L. lactis strain used. Compared with the no-treatment control, heat treatment of L. lactis cells decreased NO and TNF-α levels but further stimulated interleukin (IL)-12 production. Adding L. lactis cells to peritoneal macrophages dose-dependently increased the production of NO and IL-10 but decreased that of IL-12p70. Adding L. lactis cells to interferon-γ-stimulated J774.1 cells enhanced cell death and the production of NO and IL-12p40, whereas addition of 1400W, a specific inhibitor of iNOS, decreased NO production and cell death. Conversely, adding 1400W to J774.1 cells further enhanced IL-12p40 production, suggesting that IL-12 production is perturbed by excess endogenous NO. IL-12 production is thought to be a marker of improved immunostimulation. Our results suggest that IL-12 production could be increased by limiting endogenous NO production. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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4. Enhanced bioactivity of polyvinylidene chloride films using argon ion bombardment for guided bone regeneration.
- Author
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Kobayashi, Shuichiro, Hayashi, Tatsuhide, Asakura, Masaki, Hamajima, Soichiro, Sato, Yamato, Sasaki, Keisuke, Okabe, Eijiro, Kawase, Mayu, Ando, Masahiko, Kawai, Tatsushi, and Noguchi, Toshihide
- Subjects
POLYVINYLIDENE chloride ,ARGON ,ION bombardment ,GUIDED bone regeneration ,OSTEOBLASTS ,CELL proliferation - Abstract
Polyvinylidene chloride (PVDC) is a long chain carbon synthetic polymer. The objective of this study was to improve the bioactivity of PVDC films through surface modification using argon (Ar) ion bombardment to create Ar-modified PVDC films (Ar-PVDC) to address the clinical problems of guided bone regeneration (GBR), which is technique-sensitive, and low bone regenerative ability. First, the effects of Ar ion bombardment, a low temperature plasma etching technique widely used in industry, on PVDC film wettability, surface chemistry, and morphology were confirmed. Next, fibroblast-like and osteoblast-like cell attachment and proliferation on Ar-PVDC were assessed. As a preclinical in vivo study, Ar-PVDC was used to cover a critical-sized bone defect on rat calvaria and osteoconductivity was evaluated by micro-computed tomography analysis and histological examinations. We found that the contact angle of PVDC film decreased by 50° because of the production of -OH groups on the PVDC film surface, though surface morphological was unchanged at 30 min after Ar ion bombardment. We demonstrated that cell attachment increased by about 40 % and proliferation by more than 140 % because of increased wettability, and 2.4 times greater bone regeneration was observed at week 3 with Ar-PVDC compared with untreated PVDC films. These results suggest that Ar ion bombardment modification of PVDC surfaces improves osteoconductivity, indicating its potential to increase bone deposition during GBR. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
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5. A single nucleotide polymorphism of porcine MX2 gene provides antiviral activity against vesicular stomatitis virus.
- Author
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Sasaki, Keisuke, Tungtrakoolsub, Pullop, Morozumi, Takeya, Uenishi, Hirohide, Kawahara, Manabu, and Watanabe, Tomomasa
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STOMATITIS treatment , *SINGLE nucleotide polymorphisms , *SWINE genetics , *ANTIVIRAL agents , *VETERINARY virology , *BIOCHEMISTRY , *RECOMBINANT viruses - Abstract
The objective was to determine if single nucleotide polymorphisms (SNPs) in porcine MX2 gene affect its antiviral potential. MX proteins are known to suppress the multiplication of several viruses, including influenza virus and vesicular stomatitis virus (VSV). In domestic animals possessing highly polymorphic genome, our previous research indicated that a specific SNP in chicken Mx gene was responsible for its antiviral function. However, there still has been no information about SNPs in porcine MX2 gene. In this study, we first conducted polymorphism analysis in 17 pigs of MX2 gene derived from seven breeds. Consequently, a total of 30 SNPs, of which 11 were deduced to cause amino acid variations, were detected, suggesting that the porcine MX2 is very polymorphic. Next, we classified MX2 into eight alleles (A1-A8) and subsequently carried out infectious experiments with recombinant VSVΔG*-G to each allele. In A1-A5 and A8, position 514 amino acid (514 aa) of MX2 was glycine (Gly), which did not inhibit VSV multiplication, whereas in A6 and A7, 514 aa was arginine (Arg), which exhibited the antiviral ability against VSV. These results demonstrate that a SNP at 514 aa (Gly-Arg) of porcine MX2 plays a pivotal role in the antiviral activity as well as that at 631 aa of chicken Mx. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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6. Adhesive properties of predominant bacteria in raw cow's milk to bovine mammary gland epithelial cells.
- Author
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Hagi, Tatsuro, Sasaki, Keisuke, Aso, Hisashi, and Nomura, Masaru
- Abstract
Various bacteria have been found in raw cow's milk, and identifying milk microflora and its functions is critical for maintaining cow health and farm hygiene. Although studies on pathogens and spoilage bacteria in milk have been widely reported, the relationship between milk bacteria, including nonpathogenic bacteria, and the bovine udder is poorly understood. We investigated milk microflora over 1 year using a culture-dependent method and culture-independent analysis by denaturing gradient gel electrophoresis. Among 240 isolates, Lactococcus lactis (81/240) was predominant. The predominant genera were Lactococcus, Stenotrophomonas, Microbacterium, Chryseobacterium, Serratia and Pseudomonas. Among seven strains belonging to these predominant genera, two strains of L. lactis (ssp. lactis and ssp. cremoris) exhibited the highest adherence to bovine mammary gland epithelial cells (BMECs) derived from the bovine udder; 3.4 % of the inoculated bacteria adhered to BMECs. This was followed by Serratia sp. (1.6 %), Microbacterium sp. (0.8 %), Stenotrophomonas maltophilia (0.5 %), Pseudomonas sp. (0.3 %) and Chryseobacterium sp. (0.1 %). The two L. lactis isolates exhibited higher adherence to BMECs than type strains and isolates of various origins. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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7. Overexpressing the HD-Zip class II transcription factor EcHB1 from Eucalyptus camaldulensis increased the leaf photosynthesis and drought tolerance of Eucalyptus.
- Author
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Sasaki, Keisuke, Ida, Yuuki, Kitajima, Sakihito, Kawazu, Tetsu, Hibino, Takashi, and Hanba, Yuko T.
- Subjects
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EUCALYPTUS camaldulensis , *PHOTOSYNTHESIS , *DROUGHT tolerance , *TRANSCRIPTION factors , *CHLOROPLASTS - Abstract
Alteration in the leaf mesophyll anatomy by genetic modification is potentially a promising tool for improving the physiological functions of trees by improving leaf photosynthesis. Homeodomain leucine zipper (HD-Zip) transcription factors are candidates for anatomical alterations of leaves through modification of cell multiplication, differentiation, and expansion. Full-length cDNA encoding a Eucalyptus camaldulensis HD-Zip class II transcription factor (EcHB1) was over-expressed in vivo in the hybrid Eucalyptus GUT5 generated from Eucalyptus grandis and Eucalyptus urophylla. Overexpression of EcHB1 induced significant modification in the mesophyll anatomy of Eucalyptus with enhancements in the number of cells and chloroplasts on a leaf-area basis. The leaf-area-based photosynthesis of Eucalyptus was improved in the EcHB1-overexpression lines, which was due to both enhanced CO2 diffusion into chloroplasts and increased photosynthetic biochemical functions through increased number of chloroplasts per unit leaf area. Additionally, overexpression of EcHB1 suppressed defoliation and thus improved the growth of Eucalyptus trees under drought stress, which was a result of reduced water loss from trees due to the reduction in leaf area with no changes in stomatal morphology. These results gave us new insights into the role of the HD-Zip II gene. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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8. Preimplantation death of xenomitochondrial mouse embryo harbouring bovine mitochondria.
- Author
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Kawahara, Manabu, Koyama, Shiori, Iimura, Satomi, Yamazaki, Wataru, Tanaka, Aiko, Kohri, Nanami, Sasaki, Keisuke, and Takahashi, Masashi
- Subjects
MITOCHONDRIA ,EUKARYOTIC cells ,BACTERIA ,CELL fusion ,MITOCHONDRIAL DNA - Abstract
Mitochondria, cellular organelles playing essential roles in eukaryotic cell metabolism, are thought to have evolved from bacteria. The organization of mtDNA is remarkably uniform across species, reflecting its vital and conserved role in oxidative phosphorylation (OXPHOS). Our objectives were to evaluate the compatibility of xenogeneic mitochondria in the development of preimplantation embryos in mammals. Mouse embryos harbouring bovine mitochondria (mtB-M embryos) were prepared by the cell-fusion technique employing the haemagglutinating virus of Japan (HVJ). The mtB-M embryos showed developmental delay at embryonic days (E) 3.5 after insemination. Furthermore, none of the mtB-M embryos could implant into the maternal uterus after embryo transfer, whereas control mouse embryos into which mitochondria from another mouse had been transferred developed as well as did non-manipulated embryos. When we performed quantitative PCR (qPCR) of mouse and bovine ND5, we found that the mtB-M embryos contained 8.3% of bovine mitochondria at the blastocyst stage. Thus, contamination with mitochondria from another species induces embryonic lethality prior to implantation into the maternal uterus. The heteroplasmic state of these xenogeneic mitochondria could have detrimental effects on preimplantation development, leading to preservation of species-specific mitochondrial integrity in mammals. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
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