about
Biochemical and functional characterization of BLUF-type flavin-binding proteins of two species of cyanobacteria.Solvent effects on conformational dynamics of Zn-substituted myoglobin observed by time-resolved hole-burning spectroscopy.Arabitol provided by lichenous fungi enhances ability to dissipate excess light energy in a symbiotic green alga under desiccation.Time-resolved hole-burning study on myoglobin: fluctuation of restricted water within distal pocket.First unequivocal observation of the whole bell-shaped energy gap law in intramolecular charge separation from S(2) excited state of directly linked porphyrin-imide dyads and its solvent-polarity dependencies.Primary intermediate in the photocycle of a blue-light sensory BLUF FAD-protein, Tll0078, of Thermosynechococcus elongatus BP-1.Real-time observation of conformational fluctuations in Zn-substituted myoglobin by time-resolved transient hole-burning spectroscopy.Low-temperature fluorescence from single chlorosomes, photosynthetic antenna complexes of green filamentous and sulfur bacteria.Polarized fluorescence of aggregated bacteriochlorophyll c and baseplate bacteriochlorophyll a in single chlorosomes isolated from Chloroflexus aurantiacus.Direct counting of submicrometer-sized photosynthetic apparatus dispersed in medium at cryogenic temperature by confocal laser fluorescence microscopy: estimation of the number of bacteriochlorophyll c in single light-harvesting antenna complexes chDevelopment of a novel cryogenic microscope with numerical aperture of 0.9 and its application to photosynthesis research.Mechanism of strong quenching of photosystem II chlorophyll fluorescence under drought stress in a lichen, Physciella melanchla, studied by subpicosecond fluorescence spectroscopy.Multiple dissipation components of excess light energy in dry lichen revealed by ultrafast fluorescence study at 5 K.Structure-Based Modeling of Fluorescence Kinetics of Photosystem II: Relation between Its Dimeric Form and Photoregulation.Fate determination of the flavin photoreceptions in the cyanobacterial blue light receptor TePixD (Tll0078).Acceleration of electron-transfer-induced fluorescence quenching upon conversion to the signaling state in the blue-light receptor, TePixD, from Thermosynechococcus elongatus.Red shift in the spectrum of a chlorophyll species is essential for the drought-induced dissipation of excess light energy in a poikilohydric moss, Bryum argenteum.Covalently linked zinc chlorophyll dimers as a model of a chlorophyllous pair in photosynthetic reaction centers.Fluorescence property of photosystem II protein complexes bound to a gold nanoparticle.Scrambled self-assembly of bacteriochlorophylls c and e in aqueous Triton X-100 micelles.A new fluorescence band F689 in photosystem II revealed by picosecond analysis at 4-77 K: function of two terminal energy sinks F689 and F695 in PS II.Supramolecular energy transfer from photoexcited chlorosomal zinc porphyrin self-aggregates to a chlorin or bacteriochlorin monomer as models of main light-harvesting antenna systems in green photosynthetic bacteria.Highly Enhanced Emission of Visible Light from Core-Dual-Shell-Type Hybridized NanoparticlesStudy of cell-differentiation and assembly of photosynthetic proteins during greening of etiolated Zea mays leaves using confocal fluorescence microspectroscopy at liquid-nitrogen temperatureIntramolecular Excitation Energy Transfer from Visible-light Absorbing Chlorophyll Derivatives to a Near-infrared-light Emitting Boron Dipyrromethene MoietyEnergy and electron transfer in the photosynthetic reaction center complex of Acidiphilium rubrum containing Zn-bacteriochlorophyll a studied by femtosecond up-conversion spectroscopyNanoscale Organization of Chlorophyllain Mesoporous Silica: Efficient Energy Transfer and Stabilized Charge Separation as in Natural PhotosynthesisUltrafast Charge Separation from the S2Excited State of Directly Linked Porphyrin−Imide Dyads: First Unequivocal Observation of the Whole Bell-Shaped Energy-Gap Law and Its Solvent DependenciesConformational Fluctuation of Native-Like and Molten-Globule-Like Cytochrome c Observed by Time-Resolved Hole Burning†
P50
Q30351009-7530DEC8-CC7D-4697-A15A-FD7B60FFCFFCQ30636327-886A28DF-8CEE-4668-9D31-0B3D360FB07AQ30640791-847408B4-7D43-4923-A59E-8D31491D60DCQ30650120-C1E58968-D576-47B8-8200-D5F0F0D9BECBQ31031972-68E71918-F146-4217-BB67-C31A7325FBC1Q31156806-48FC9857-741F-4523-84DE-77FFD276F08BQ32058614-BC1616FA-6C43-4C85-A1AD-D7AA6EBA9E8CQ33256239-1B02E088-93DA-4780-BBCF-6490589D5EDAQ33284660-FAE90F51-A939-4332-9542-FFA0213DE615Q33301710-FD6F82B2-1FF8-40EF-8634-0BFE000F3CDAQ35125951-E32C9EA4-B106-4B7F-9EFE-1DD7DAF4C0A5Q39144443-00498406-8746-41C7-9358-91125BA55CB5Q39255812-C8F0F2F9-986E-443A-8E33-8D10E7189BADQ40161930-B50B18BB-827B-4DC3-B58C-6C654E973EFEQ43021064-37453F62-E225-4848-BE40-AA67C5077C94Q43026757-159EC6FB-AA17-46EF-B1C5-0032594BD1E9Q46264228-2A7554E4-D3B9-4368-80ED-C6DD3420D6EEQ46322436-38305C71-6A28-4DBC-AE03-49D590713B55Q50214008-26BFF161-90C2-4C41-9D47-4689262D7056Q50467431-EE387E4E-757C-411E-B607-474B3085F23FQ50474669-A7957657-A2EB-443E-A1B3-EE5D60901E0CQ50493525-BB28E3A3-FE53-4C8E-A2C3-4EDBA6524BB6Q57744187-6FB0FB05-04F0-49A2-B7A0-0B2D9A1E8402Q57744193-77719814-A131-446E-91B6-7DD353E0D015Q57744202-347BAF66-7332-4F48-A57B-5A942353CA03Q57744222-A44114DA-F793-4395-9A45-F499B3CDF471Q57744250-DA26B258-4A39-4FDB-A51F-8E49B739EF20Q57744257-9FFE3D6D-FD4C-40D1-8DDD-C62B3EA6EC84Q57744290-79642A64-58FC-4CEA-8A0C-F0B46AB2AA55
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Yutaka Shibata
@ast
Yutaka Shibata
@en
Yutaka Shibata
@es
Yutaka Shibata
@nl
Yutaka Shibata
@sl
type
label
Yutaka Shibata
@ast
Yutaka Shibata
@en
Yutaka Shibata
@es
Yutaka Shibata
@nl
Yutaka Shibata
@sl
prefLabel
Yutaka Shibata
@ast
Yutaka Shibata
@en
Yutaka Shibata
@es
Yutaka Shibata
@nl
Yutaka Shibata
@sl
P106
P1153
7402035964
P31
P496
0000-0002-7510-503X