小学生の学校生活意識と自己肯定感との関連<人文・社会科学>

Purpose: Some point that many elementary school students feel the school is not fun. Elementary school in Japan has various time, for example events time and off-campus time learning outside the classroom. When elementary school students feel fun in school? I examine the relationship between self-affirmation about school time and feeling for elementary school. The questionnaire, referring to preliminary investigations and studies, was conducted. Favorable attitudes to school with elementary school students is related to a self-affirmation in the survey. Method: We did a survey questionnaire. The children reported on their self in the survey. Total 258 elementary school students, second, fourth and sixth grade students in public elementary schools conducted survey. It was investigated during the period in 2016. Result: 1) 54% second grade students answered “the school is fun” and 39% sixed grade students so. 2) They answered lower percentage, feeling the school is fun, according to grade. 3) They answered that school is fun only when the school event and most sixth grade, so sixth grade have strong expectations of events and attitudes in schools.textapplication/pdfdepartmental bulletin pape

Inclusive Measurement of the Photon Energy Spectrum in b→sγ Decays

journal articl

Time-Dependent CP-Violating Asymmetry in B^0→p^0γ Decays

We report the first measurement of CP-violation parameters in B^0 → p^0γ decays based on a data sample of 657×10^6B\bar{B} pairs collected with the Belle detector at the KEKB asymmetric-energy e^+e^- collider. We obtain the time-dependent and direct CP-violating parameters, S_p0γ=-0.83±0.65(stat)±0.18(syst) and A_poγ= -0.44±0.49(stat)±0.14(syst), respectively.journal articl

透過型分析電子顕微鏡(TEM)

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DNase I footprints of Eσ in the presence or absence of CRP and CRP on CC-50

<p><b>Copyright information:</b></p><p>Taken from "Interplay between CRP-cAMP and PII-Ntr systems forms novel regulatory network between carbon metabolism and nitrogen assimilation in "</p><p></p><p>Nucleic Acids Research 2007;35(5):1432-1440.</p><p>Published online 6 Feb 2007</p><p>PMCID:PMC1865078.</p><p>© 2007 The Author(s).</p>5 (A CRP consensus-binding site was introduced into position −50.5 nucleotides upstream of the p2) or wild-type p2. CRP, CRP and Eσ, when added, were present at a final concentration of 50 nM. Lanes 1 and 8 are A+G marker ladders. The limits of protected regions are indicated. On p2, only wild-type CRP can bind co-operatively with Eσ and the protection region is comparable to the one on CC-50.5. The locations of specific protected or hypersensitive bands are different on the two templates due to the difference of the sequence of CRP-binding sites. The hypersensitive band due to the CRP-binding on p2 is marked by arrow. The protection of αCTD binding, which is co-operative only with wild-type CRP, is similar on both p2 and CC-50.5 (lanes 5 and 12). These results strongly support that the relative orientation between CRP and Eσ is similar on p2 and CC-50.5

Effect of CRP and its ARI mutant CRP on the uridylylation status of GlnB in the double mutant TP2339-1 and triple mutant BD4000

<p><b>Copyright information:</b></p><p>Taken from "Interplay between CRP-cAMP and PII-Ntr systems forms novel regulatory network between carbon metabolism and nitrogen assimilation in "</p><p></p><p>Nucleic Acids Research 2007;35(5):1432-1440.</p><p>Published online 6 Feb 2007</p><p>PMCID:PMC1865078.</p><p>© 2007 The Author(s).</p> All strains (lanes 1–8) were grown in M63 minimal medium with glycerol (0.4% w/v) as the sole carbon source, and glutamine (0.2% w/v) as nitrogen source, in the absence/presence of exogenous cAMP (2 mM). TP2339-1 was grown in nitrogen-sufficient medium with 40 mM ammonium as control (lane 9)

Effect of CRP and its ARI mutant CRP on the p1p2 expression in the double mutant TP2339-1 detected by primer extension analysis

<p><b>Copyright information:</b></p><p>Taken from "Interplay between CRP-cAMP and PII-Ntr systems forms novel regulatory network between carbon metabolism and nitrogen assimilation in "</p><p></p><p>Nucleic Acids Research 2007;35(5):1432-1440.</p><p>Published online 6 Feb 2007</p><p>PMCID:PMC1865078.</p><p>© 2007 The Author(s).</p> Lane 5 is G marker ladder. Cells were grown in M63 minimal medium with glycerol (0.4% w/v) as the sole carbon source, and glutamine (0.2% w/v) as nitrogen source, in the absence/presence of exogenous cAMP (2 mM)

DNase I footprints of Eσ in the presence or absence of CRP and CRP on p1 (non template strand)

<p><b>Copyright information:</b></p><p>Taken from "Interplay between CRP-cAMP and PII-Ntr systems forms novel regulatory network between carbon metabolism and nitrogen assimilation in "</p><p></p><p>Nucleic Acids Research 2007;35(5):1432-1440.</p><p>Published online 6 Feb 2007</p><p>PMCID:PMC1865078.</p><p>© 2007 The Author(s).</p> () Titration with increasing concentrations of CRP (lanes 2 and 7, 30 nM; lanes 3 and 8, 100 nM; lanes 4 and 9, 300 nM) were performed in the absence (2–4) or presence of 50 nM Eσ (lanes 7–9). Lane 11 is A + G marker ladder. The protected regions were monitored by adding increasing concentrations of CRP in the presence or absence of Eσ. () Titration with increasing concentrations of CRP (lane 3, 33 nM; lane 4, 100 nM; lane 5, 300 nM) and CRP (lane 10, 33 nM; lane 11, 100 nM; lane 12, 300 nM) were performed in the presence of 25 nM Eσ (lanes 3–5 and 10–12). Lane 7 is A + G marker ladder. The limits of protected regions are indicated. Note that wild-type CRP is recruited to a site centred at −61.5 by Eσ-RNA polymerase, which suggests a higher affinity for DNA binding of Eσ than that of CRP