厚板深絞り製品を中間素材に用いた冷間型鍛造に関する基礎的研究

名古屋大学Nagoya University博士(工学)名古屋大学博士学位論文 学位の種類:博士(工学) (論文) 学位授与年月日:平成11年2月26日doctoral thesi

特集「社会科学への招待2018」について

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Upper Bound on the Decay τ→μγ from the Belle Detector

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A THEORY OF DIFFERENTIAL EQUATIONS VIEWED THROUGH GROUP PARAMETER EXTENSIONS. I. A GLOBAL THEORY OF A SYSTEM OF TOTAL DIFFERENTIAL EQUATIONS.

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<i>Reagent</i>-Controlled Stereoselective Iodolactonizations

Iodocyclizations are important transformations and among stereocontrolled iodocyclizations mostly substrate-controlled versions using a chiral auxiliary have been successfully investigated. This work reports on stereoselective reagent-controlled iodolactonizations applying a new method using a combination of ICl and a primary amine leading to the highest selectivities known so far

Graph representations of the fine structure of the dynasome.

<p><b>a)</b> Graph of the adjacency matrix of dynasome proteins in the space spanned by the first four dynasome descriptors. Vertices represent proteins, edges represent neighborship. Highlighted are proteins discussed in Fig. 4. <b>b)</b> same graph as <b>a)</b>, but colored according to the clustering obtained by maximizing the community modularity. Arrows indicate the position of each protein on the subspace spanned by the dynasome descriptors 1 and 2 (cf. Fig. 4 and <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0033931#pone-0033931-t004" target="_blank">Table 4</a>).</p

Composition of the first four dynasome descriptors: Shown are the five observables that contribute most to the first four descriptors; relative contributions to the descriptor are given in percent, (–) indicates that the respective observable appears in the linear combination defining the descriptor with a negative coefficient.

<p>Composition of the first four dynasome descriptors: Shown are the five observables that contribute most to the first four descriptors; relative contributions to the descriptor are given in percent, (–) indicates that the respective observable appears in the linear combination defining the descriptor with a negative coefficient.</p

Schematic hierarchy of protein sequence, structure, dynamics, and function.

<p>Correlations between the various levels enable predictions. Here we explore the level of protein dynamics, and how it relates to structure and, respectively, protein function.</p

Dynamics fingerprints and relation to function.

<p><b> a)</b> Compass diagrams indicate the average position of each function class in the dynamics space spanned by dynasome descriptors 1–4 (see <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0033931#pone-0033931-t003" target="_blank">Table 3</a> for composition of descriptors). <b>b–d)</b> Graphs of adjacency matrices (left) in the dynamics space (<b>b</b>), structure space (<b>c</b>) and combined space (<b>d</b>) and corresponding average distances (right) between proteins of the same function classes (bar heights) vs average distance (solid horizontal lines) between all proteins. The colors denote the protein function classes defined in panel <b>a</b>.</p

Structure classes in the representative set of 112 proteins used in this study.

<p>Structure classes in the representative set of 112 proteins used in this study.</p