Your search keyword '"Masaki Hashiguchi"' showing total 7 results

1. Chloroplastic <scp>ATP</scp> synthase builds up a proton motive force preventing production of reactive oxygen species in photosystem I

Author

Tetsuya Kurata, Tatsuaki Goh, Yoichiro Fukao, Masaki Hashiguchi, Ryosuke Sano, Katsumi Amako, Kimitsune Ishizaki, Hidehiro Fukaki, Taku Demura, Daisuke Takagi, Chikahiro Miyake, and Shinichiro Sawa

Subjects

0106 biological sciences, 0301 basic medicine, Photosynthetic reaction centre, Photoinhibition, Light, Arabidopsis, Plant Science, Photosystem I, Thylakoids, 01 natural sciences, Electron Transport, 03 medical and health sciences, Genetics, Chloroplast Proton-Translocating ATPases, Photosynthesis, Photosystem I Protein Complex, ATP synthase, biology, Arabidopsis Proteins, Chemiosmosis, Proton-Motive Force, food and beverages, Cell Biology, Electron transport chain, Chloroplast, 030104 developmental biology, Biochemistry, Thylakoid, Mutation, biology.protein, Reactive Oxygen Species, 010606 plant biology & botany

Abstract

Over-reduction of the photosynthetic electron transport (PET) chain should be avoided, because the accumulation of reducing electron carriers produces reactive oxygen species (ROS) within photosystem I (PSI) in thylakoid membranes and causes oxidative damage to chloroplasts. To prevent production of ROS in thylakoid membranes the H+ gradient (ΔpH) needs to be built up across the thylakoid membranes to suppress the over-reduction state of the PET chain. In this study, we aimed to identify the critical component that stimulates ΔpH formation under illumination in higher plants. To do this, we screened ethyl methane sulfonate (EMS)-treated Arabidopsis thaliana, in which the formation of ΔpH is impaired and the PET chain caused over-reduction under illumination. Subsequently, we isolated an allelic mutant that carries a missense mutation in the γ-subunit of chloroplastic CF0 CF1 -ATP synthase, named hope2. We found that hope2 suppressed the formation of ΔpH during photosynthesis because of the high H+ efflux activity from the lumenal to stromal side of the thylakoid membranes via CF0 CF1 -ATP synthase. Furthermore, PSI was in a more reduced state in hope2 than in wild-type (WT) plants, and hope2 was more vulnerable to PSI photoinhibition than WT under illumination. These results suggested that chloroplastic CF0 CF1 -ATP synthase adjusts the redox state of the PET chain, especially for PSI, by modulating H+ efflux activity across the thylakoid membranes. Our findings suggest the importance of the buildup of ΔpH depending on CF0 CF1 -ATP synthase to adjust the redox state of the reaction center chlorophyll P700 in PSI and to suppress the production of ROS in PSI during photosynthesis.

Published

2017

2. Superoxide and Singlet Oxygen Produced within the Thylakoid Membranes Both Cause Photosystem I Photoinhibition

Author

Shigeo Takumi, Masaki Hashiguchi, Takehiro Sejima, Chikahiro Miyake, and Daisuke Takagi

Subjects

0106 biological sciences, 0301 basic medicine, chemistry.chemical_classification, Reactive oxygen species, Photoinhibition, Physiology, Superoxide, food and beverages, Plant Science, Biology, Photochemistry, Photosynthesis, Photosystem I, 01 natural sciences, Chloroplast, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Thylakoid, Genetics, Biophysics, biology.protein, 010606 plant biology & botany

Abstract

Photosystem I (PSI) photoinhibition suppresses plant photosynthesis and growth. However, the mechanism underlying PSI photoinhibition has not been fully clarified. In this study, in order to investigate the mechanism of PSI photoinhibition in higher plants, we applied repetitive short-pulse (rSP) illumination, which causes PSI-specific photoinhibition in chloroplasts isolated from spinach leaves. We found that rSP treatment caused PSI photoinhibition, but not PSII photoinhibition in isolated chloroplasts in the presence of O2. However, chloroplastic superoxide dismutase and ascorbate peroxidase activities failed to protect PSI from its photoinhibition. Importantly, PSI photoinhibition was largely alleviated in the presence of methyl viologen, which stimulates the production of reactive oxygen species (ROS) at the stromal region by accepting electrons from PSI, even under the conditions where CuZn-superoxide dismutase and ascorbate peroxidase activities were inactivated by KCN. These results suggest that the ROS production site, but not the ROS production rate, is critical for PSI photoinhibition. Furthermore, we found that not only superoxide (O2−) but also singlet oxygen (1O2) is involved in PSI photoinhibition induced by rSP treatment. From these results, we suggest that PSI photoinhibition is caused by both O2− and 1O2 produced within the thylakoid membranes when electron carriers in PSI become highly reduced. Here, we show, to our knowledge, new insight into the PSI photoinhibition in higher plants.

Published

2016

3. Photorespiration provides the chance of cyclic electron flow to operate for the redox-regulation of P700 in photosynthetic electron transport system of sunflower leaves

Author

Amane Makino, Daisuke Takagi, Chikahiro Miyake, Takehiro Sejima, and Masaki Hashiguchi

Subjects

0106 biological sciences, 0301 basic medicine, Photosynthetic reaction centre, Chlorophyll, Chloroplasts, Light, Plastoquinone, Analytical chemistry, Electrons, Plant Science, Photosystem I, Photosynthesis, 01 natural sciences, Biochemistry, Redox, Electron Transport, 03 medical and health sciences, chemistry.chemical_compound, Stress, Physiological, P700, Photosystem I Protein Complex, Photosystem II Protein Complex, Cell Biology, General Medicine, Carbon Dioxide, Electron transport chain, Oxygen, Plant Leaves, 030104 developmental biology, chemistry, Photorespiration, Helianthus, Oxidation-Reduction, 010606 plant biology & botany

Abstract

To elucidate the molecular mechanism to oxidize the reaction center chlorophyll, P700, in PSI, we researched the effects of partial pressure of O2 (pO2) on photosynthetic characteristic parameters in sunflower (Helianthus annuus L.) leaves. Under low CO2 conditions, the oxidation of P700 was stimulated; however the decrease in pO2 suppressed its oxidation. Electron fluxes in PSII [Y(II)] and PSI [Y(I)] showed pO2-dependence at low CO2 conditions. H+-consumption rate, estimated from Y(II) and CO2-fixation/photorespiration rates (JgH+), showed the positive curvature relationship with the dissipation rate of electrochromic shift signal (V H + ), which indicates H+-efflux rate from lumen to stroma in chloroplasts. Therefore, these electron fluxes contained, besides CO2-fixation/photorespiration-dependent electron fluxes, non-H+-consumption electron fluxes including Mehler-ascorbate peroxidase (MAP)-pathway. Y(I) that was larger than Y(II) surely implies the functioning of cyclic electron flow (CEF). Both MAP-pathway and CEF were suppressed at lower pO2, with plastoquinone-pool reduced. That is, photorespiration prepares the redox-poise of photosynthetic electron transport system for CEF activity as an electron sink. Excess Y(II), [ΔY(II)] giving the curvature relationship with V H + , and excess Y(I) [ΔCEF] giving the difference between Y(I) and Y(II) were used as an indicator of MAP-pathway and CEF activity, respectively. Although ΔY(II) was negligible and did not show positive relationship to the oxidation-state of P700, ΔCEF showed positive linear relationship to the oxidation-state of P700. These facts indicate that CEF cooperatively with photorespiration regulates the redox-state of P700 to suppress the over-reduction in PSI under environmental stress conditions.

Published

2015

4. Reduction-Induced Suppression of Electron Flow (RISE) in the Photosynthetic Electron Transport System ofSynechococcus elongatusPCC 7942

Author

Chikahiro Miyake, Keiichiro Shaku, Masaki Hashiguchi, and Ginga Shimakawa

Subjects

Chlorophyll, Photosynthetic reaction centre, Physiology, macromolecular substances, Plant Science, Photosynthesis, Models, Biological, Fluorescence, Q cycle, Electron Transport, Synechococcus, chemistry.chemical_classification, Reactive oxygen species, P700, biology, Photosystem II Protein Complex, Cell Biology, General Medicine, Carbon Dioxide, biology.organism_classification, Electron transport chain, Oxygen, chemistry, Genes, Bacterial, Thylakoid, Mutation, Biophysics, Oxidation-Reduction, NADP

Abstract

Accumulation of electrons under conditions of environmental stress produces a reduced state in the photosynthetic electron transport (PET) system and causes the reduction of O2 by PSI in the thylakoid membranes to produce the reactive oxygen species superoxide radical, which irreversibly inactivates PSI. This study aims to elucidate the molecular mechanism for the oxidation of reaction center Chl of PSI, P700, after saturated pulse (SP) light illumination of the cyanobacterium Synechococcus elongatus PCC 7942 under steady-state photosynthetic conditions. Both P700 and NADPH were transiently oxidized after SP light illumination under CO2-depleted photosynthesis conditions. In contrast, the Chl fluorescence intensity transiently increased. Compared with the wild type, the increase in Chl fluorescence and the oxidations of P700 and NADPH were greatly enhanced in a mutant (Δflv1/3) deficient in the genes encoding FLAVODIIRON 1 (FLV1) and FLV3 proteins even under high photosynthetic conditions. Furthermore, oxidation of Cyt f was also observed in the mutant. After SP light illumination, a transient suppression of O2 evolution was also observed in Δflv1/3. From these observations, we propose that the reduction in the plastquinone (PQ) pool suppresses linear electron flow at the Cyt b6/f complex, which we call the reduction-induced suppression of electron flow (RISE) in the PET system. The accumulation of the reduced form of PQ probably suppresses turnover of the Q cycle in the Cyt b6/f complex.

Published

2015

5. Median lingual lymph node metastasis from tongue cancer: Report of a case

Author

Noboru Hayashi, Hisao Tanaka, Ken Omura, Katsuma Komoto, Takeshi Honda, Kiyohiro Ogoh, Masaki Hashiguchi, Ichiroh Masui, Hirohisa Okamura, and Tohru Hayashi

Subjects

medicine.medical_specialty, medicine.anatomical_structure, business.industry, Tongue, General surgery, medicine, Cancer, Lymph node metastasis, Radiology, business, medicine.disease

Published

1992

6. Zur Frage der Verstopfung der Arteria cerebelli inferior posterior

Author

Masaki Hashiguchi

Abstract

Trotzdem die Zahl der Falle von Thrombose der Arteria cerebelli inf. post immer mehr zunimmt, ist das Krankheitsbild der im Anschlus an die Verstopfung auftretenden Erweichung ein so variables, das immer wieder neue Bilder beobachtet werden. Der Grund hiefur liegt in dem Umstande, das offenbar die Gefasversorgung durch das Gebiet der Arteria vertebralis eine individuell uberaus verschiedene ist, so das sich eigentlich keine Gesetzmasigkeit ergibt.

Published

1927

7. Zur Frage der Leitung der Sensibilität im Rückenmark

Author

Masaki Hashiguchi

Abstract

Trotz vieler darauf gerichteter Bemuhungen ist die Frage nach der Leitung der Sensibilitat im Ruckenmark noch immer eine nicht ganz geklarte. Besonders ist es noch nicht ganz einwandfrei bewiesen, das die Bahnen fur Schmerz und Temperatur lange Bahnen sind, da noch immer eine Reihe von bedeutenden Autoren dafur eintreten, das diese Systeme aus kurzen, nacheinander geschalteten Faserzugen bestehen.

Published

1928