Spin observables in deuteron–proton radiative capture at intermediate energies

A radiative deuteron–proton capture experiment was carried out at KVI using polarized-deuteron beams at incident energies of 55, 66.5, and 90 MeV/nucleon. Vector and tensor-analyzing powers were obtained for a large angular range. The results are interpreted with the help of Faddeev calculations, which are based on modern two- and three-nucleon potentials. Our data are described well by the calculations, and disagree significantly with the observed tensor anomaly at RCNP.journal articl

Combination Therapy of Interventional Radiology and Surgery for Infarction of the Small Intestine Caused by Portal Vein and Mesenteric Vein Thrombosis: A Patient Report

journal articl

クントゥル・ワシ神殿の構造

研究課題番号：14101003 研究課題名：先史アンデス社会における文明の形成プロセスの解明textapplication/pdfresearch repor

Observation of mixing-induced CP violation in the neutral B meson system

journal articl

キンダイ ニホンゴ ショウセツ ノ チョシャ ハンベツ ギジュツ ニ カンスル ケントウ

奈良先端科学技術大学院大学修士(工学)master thesi

Ionization potentials of transparent conductive indium tin oxide films covered with a single layer of fluorine-doped tin oxide nanoparticles grown by spray pyrolysis deposition

Indium tin oxide (ITO) films deposited with single layers of monodispersive fluorine-doped tin oxide (FTO) nanoparticles of several nanometers in size were grown on glass substrates by intermittent spray pyrolysis deposition using conventional atomizers. These films have significantly higher ionization potentials than the bare ITO and FTO films grown using the same technique. The ITO films covered with FTO particles of 7 nm in average size show an ionization potential of 5.01 eV, as compared with 4.76 and 4.64 eV in ITO and FTO films, respectively, which decreases as the FTO particle size increases. The ionization potentials are practically invariant against oxidation and reduction treatments, promising a wide application of the films to transparent conducting oxide electrodes in organic electroluminescent devices and light-emitting devices of high efficiencies

Additional file 1: of Transcriptome-wide RNA processing kinetics revealed using extremely short 4tU labeling

Tables S1–S14; figures S1–S7; and Supplementary Methods and References. (ZIP 6028 kb

Meteorogical Observations in Hunyu Experimental Forest of Utsunomiyia University (1998)

text紀要論文 / Departmental Bulletin Paperdepartmental bulletin pape

U3–18S duplex unwinding by Dhr1.

<p>(A) Reaction schematic for annealing the U3–18S duplex by Imp3 and duplex unwinding by Dhr1. (B) Reaction scheme for the pre-steady state conditions ([E] > [duplex]) with results shown in (C and D). (C) Representative RT unwinding single time point data after 60 min. From EMSA showing ³²P-labeled 18S free (unwound) or in duplex with U3 MINI in a complex with Imp3 using 500 nM Dhr1, 1 mM ATP, ≤1 nM U3–18S duplex and other reagents described in Materials and Methods. (D) Time-dependent reactions with symbols as defined in <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002083#pbio.1002083.g008" target="_blank">Fig. 8D</a>. Additional supporting data are provided in <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002083#pbio.1002083.s007" target="_blank">S7 Data</a>.</p

Dhr1_K420A accumulates a novel ∼45S particle containing SSU components.

<p>(A–D) Whole cell extracts were prepared from cycloheximide-treated cells expressing WT Dhr1–13myc (pAJ2311) (upper panels) or <i>dhr1-K420A</i> (pAJ3081) (lower panels) in yeast strain AJY3711 (<i>P</i>_<i>GAL</i>-<i>3xHA-DHR1</i>) shifted to glucose media for 6 h to deplete genomically expressed 3xHA-Dhr1. (A, B) Extracts were subjected to sucrose density gradient ultracentrifugation and absorbance at 254 nm was monitored continuously throughout the gradients. Additional supporting data are provided in <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002083#pbio.1002083.s001" target="_blank">S1 Data</a>. (C, D) Proteins were precipitated from fractions and subjected to SDS-PAGE followed by Western blotting. Dhr1–13myc, Mpp10, Imp4, Rps8, and Rpl8 were detected using anti-myc, anti-Mpp10, anti-Imp4, anti-Rps8, and anti-Rpl8 antibodies, respectively. The positions of 40S, 60S, and 80S, determined by monitoring absorbance at 254 nm, are indicated. (E) RNA was prepared from gradients as described for (A, B) and separated by agarose/formaldehyde gel electrophoresis. U3 was detected by Northern blotting using oligo AJO1686.</p