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811.
Blue light effects on the acclimation of energy partitioningcharacteristics in PSII and CO2 assimilation capacity in spinachto high growth irradiance were investigated. Plants were grownhydroponically in different light treatments that were a combinationof two light qualities and two irradiances, i.e. white lightand blue-deficient light at photosynthetic photon flux densities(PPFDs) of 100 and 500 µmol m–2 s–1. The CO2assimilation rate, the quantum efficiency of PSII (PSII) andthermal dissipation activity / in young, fully expanded leaves were measured under 1,600 µmol m–2 s–1white light. The CO2 assimilation rate and PSII were higher,while / was lower in plants grown under high irradiancethan in plants grown under low irradiance. These responses wereobserved irrespective of the presence or absence of blue lightduring growth. The extent of the increase in the CO2 assimilationrate and PSII and the decrease in / by high growth irradiance was smaller under blue light-deficient conditions. These resultsindicate that blue light helps to boost the acclimation responsesof energy partitioning in PSII and CO2 assimilation to highirradiance. Similarly, leaf N, Cyt f and Chl contents per unitleaf area increased by high growth irradiance, and the extentof the increment in leaf N, Cyt f and Chl was smaller underblue light-deficient conditions. Regression analysis showedthat the differences in energy partitioning in PSII and CO2assimilation between plants grown under high white light andhigh blue-deficient light were closely related to the differencein leaf N. 相似文献
812.
813.
Estimation of cosmic-ray spectra in the atmosphere has been essential for the evaluation of aviation doses. We therefore calculated these spectra by performing Monte Carlo simulation of cosmic-ray propagation in the atmosphere using the PHITS code. The accuracy of the simulation was well verified by experimental data taken under various conditions, even near sea level. Based on a comprehensive analysis of the simulation results, we proposed an analytical model for estimating the cosmic-ray spectra of neutrons, protons, helium ions, muons, electrons, positrons and photons applicable to any location in the atmosphere at altitudes below 20 km. Our model, named PARMA, enables us to calculate the cosmic radiation doses rapidly with a precision equivalent to that of the Monte Carlo simulation, which requires much more computational time. With these properties, PARMA is capable of improving the accuracy and efficiency of the cosmic-ray exposure dose estimations not only for aircrews but also for the public on the ground. 相似文献
814.
Two-photon fluorescence lifetime imaging microscopy (TPFLIM) enables the quantitative measurements of fluorescence resonance energy transfer (FRET) in small subcellular compartments in light scattering tissue. We evaluated and optimized the FRET pair of mEGFP (monomeric EGFP with the A206K mutation) and REACh (non-radiative YFP variants) for TPFLIM. We characterized several mutants of REACh in terms of their "darkness," and their ability to act as a FRET acceptor for mEGFP in HeLa cells and hippocampal neurons. Since the commonly used monomeric mutation A206K increases the brightness of REACh, we introduced a different monomeric mutation (F223R) which does not affect the brightness. Also, we found that the folding efficiency of original REACh, as measured by the fluorescence lifetime of a mEGFP-REACh tandem dimer, was low and variable from cell to cell. Introducing two folding mutations (F46L, Q69M) into REACh increased the folding efficiency by approximately 50%, and reduced the variability of FRET signal. Pairing mEGFP with the new REACh (super-REACh, or sREACh) improved the signal-to-noise ratio compared to the mEGFP-mRFP or mEGFP-original REACh pair by approximately 50%. Using this new pair, we demonstrated that the fraction of actin monomers in filamentous and globular forms in single dendritic spines can be quantitatively measured with high sensitivity. Thus, the mEGFP-sREACh pair is suited for quantitative FRET measurement by TPFLIM, and enables us to measure protein-protein interactions in individual dendritic spines in brain slices with high sensitivity. 相似文献
815.
Akira Miyachi Atsushi Miyazaki Kazuhiro Matsuda Yoshihiro Nishida 《Carbohydrate research》2009,344(1):36-1218
Just recently, a pair of β-glycolipids was isolated from the cell membrane of Mycoplasma pneumoniae as a mixture of the two compounds. They are the major immunodeterminants of this pathogenic Mycoplasma and indicate high medicinal potential. They have a β-(1→6)-linked disaccharide structure close to each other; one has β-d-galactopyranoside (β-Gal-type 1) at the non-reducing terminal, and another has β-d-glucopyranoside (β-Glc-type 2). In the present study, the first stereoselective synthesis was conducted for each of the two β-glycolipids 1 and 2. 1H NMR and TLC-immunostaining studies of the synthetic compounds enable us to establish the absolute structures having the β-(1→6)-linked disaccharides at the glycerol sn-3 position. 相似文献
816.
Megumi Goto Kumiko Kadoshima-Yamaoka Kazuhiro Nagahira Takashi Nishimura 《Cellular immunology》2009,254(2):81-3757
Natural killer T (NKT) cells are known to produce Th17 cytokine IL-17 in addition to Th1/2 cytokines. In this study, the ability of NKT cells to produce IL-22, another Th17 cytokine, was examined in mice. When murine spleen cells were stimulated with α-galactosyl ceramide, a ligand for NKT cells, not only Th1/2 cytokines (IFN-γ, IL-4) but Th17 cytokines (IL-17, IL-22) were produced. NKT cells isolated from splenocytes released IL-17 and IL-22 following CD3, CD3/IL-2 or CD3/CD28 stimulation, in which CD3/CD28 costimulation was most effective. Production of IL-17 and IL-22 in CD4+ and CD8+ T cells from splenocytes was little, if any, even after CD3/CD28 costimulation. Treatment with IL-6/TGF-β decreased CD3/CD28-stimulated production of IL-22, but not that of IL-17, in NKT cells. These findings show for the first time that NKT cells are a cell source of IL-22, and that expression of two Th17 cytokines might be regulated in NKT cells by different mechanisms. 相似文献
817.
818.
Noriko Ishida Daisuke Irikura Kazuhiro Matsuda Seiji Sato Teruo Sone Michiko Tanaka Kozo Asano 《Current microbiology》2009,58(6):535-540
A gene, mf1, encoding a novel cholinephosphotransferase in glycoglycerophospholipid (GGPL) biosynthesis of Mycoplasma fermentans PG18 was identified by genomic analysis, cloned, and expressed in Escherichia coli. The mf1 gene comprises an open reading frame of 777 bp encoding 258 amino acids. The mf1 gene product, Mf1, has 23% amino acid homology with LicD of Haemophilus influenzae but no homology with genes of other Mycoplasma species in the GenBank database. The reaction product of Mf1 using α-glucopyranosyl-1,2-dipalmitoilglycerol and cytidine
5′-diphosphocholine (CDP-choline) as substrates showed the specific protonated molecule at m/z 896, which corresponded to
GGPL-I as determined by matrix-assisted laser desorption/ionization–time-of-flight mass spectrometry (MALDI-TOF MS). Furthermore,
the product ions of choline, phosphocholine, and hexose-bound phosphocholine were detected by tandem mass spectrometry (MS)
analysis of protonated molecules at m/z 896. These results identified mf1 as a novel cholinephosphotransferase and showed that the phosphocholine transfer step is involved in the GGPL biosynthesis
pathway of M. fermentans. This is the first report of a GGPL biosynthesis enzyme. 相似文献
819.
820.
Inter‐subunit interaction of gastric H+,K+‐ATPase prevents reverse reaction of the transport cycle
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Kazuhiro Abe Kazutoshi Tani Tomohiro Nishizawa Yoshinori Fujiyoshi 《The EMBO journal》2009,28(11):1637-1643
The gastric H+,K+‐ATPase is an ATP‐driven proton pump responsible for generating a million‐fold proton gradient across the gastric membrane. We present the structure of gastric H+,K+‐ATPase at 6.5 Å resolution as determined by electron crystallography of two‐dimensional crystals. The structure shows the catalytic α‐subunit and the non‐catalytic β‐subunit in a pseudo‐E2P conformation. Different from Na+,K+‐ATPase, the N‐terminal tail of the β‐subunit is in direct contact with the phosphorylation domain of the α‐subunit. This interaction may hold the phosphorylation domain in place, thus stabilizing the enzyme conformation and preventing the reverse reaction of the transport cycle. Indeed, truncation of the β‐subunit N‐terminus allowed the reverse reaction to occur. These results suggest that the β‐subunit N‐terminus prevents the reverse reaction from E2P to E1P, which is likely to be relevant for the generation of a large H+ gradient in vivo situation. 相似文献