Institution
Osaka University
Education•Osaka, Japan•
About: Osaka University is a education organization based out in Osaka, Japan. It is known for research contribution in the topics: Laser & Population. The organization has 83778 authors who have published 185669 publications receiving 5158122 citations. The organization is also known as: Ōsaka daigaku.
Topics: Laser, Population, Catalysis, Thin film, Gene
Papers published on a yearly basis
Papers
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TL;DR: Assessment of the role of adiponectin in later development of type 2 diabetes in 70 patients who later developed type 1 diabetes and 70 controls found individuals with high concentrations of this protein were less likely to develop type 2abetes than those with low concentrations.
1,128 citations
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13 Sep 2000TL;DR: A novel approach named AGM to efficiently mine the association rules among the frequently appearing substructures in a given graph data set through the extended algorithm of the basket analysis is proposed.
Abstract: This paper proposes a novel approach named AGM to efficiently mine the association rules among the frequently appearing substructures in a given graph data set A graph transaction is represented by an adjacency matrix, and the frequent patterns appearing in the matrices are mined through the extended algorithm of the basket analysis Its performance has been evaluated for the artificial simulation data and the carcinogenesis data of Oxford University and NTP Its high efficiency has been confirmed for the size of a real-world problem
1,126 citations
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TL;DR: The results reveal a role for endogenous siRNAs in mammalian oocytes and show that organisms lacking RdRP activity can produce functional endogenous si RNAs from naturally occurring dsRNAs.
Abstract: RNA interference (RNAi) is a mechanism by which double-stranded RNAs (dsRNAs) suppress specific transcripts in a sequence-dependent manner. dsRNAs are processed by Dicer to 21-24-nucleotide small interfering RNAs (siRNAs) and then incorporated into the argonaute (Ago) proteins. Gene regulation by endogenous siRNAs has been observed only in organisms possessing RNA-dependent RNA polymerase (RdRP). In mammals, where no RdRP activity has been found, biogenesis and function of endogenous siRNAs remain largely unknown. Here we show, using mouse oocytes, that endogenous siRNAs are derived from naturally occurring dsRNAs and have roles in the regulation of gene expression. By means of deep sequencing, we identify a large number of both approximately 25-27-nucleotide Piwi-interacting RNAs (piRNAs) and approximately 21-nucleotide siRNAs corresponding to messenger RNAs or retrotransposons in growing oocytes. piRNAs are bound to Mili and have a role in the regulation of retrotransposons. siRNAs are exclusively mapped to retrotransposons or other genomic regions that produce transcripts capable of forming dsRNA structures. Inverted repeat structures, bidirectional transcription and antisense transcripts from various loci are sources of the dsRNAs. Some precursor transcripts of siRNAs are derived from expressed pseudogenes, indicating that one role of pseudogenes is to adjust the level of the founding source mRNA through RNAi. Loss of Dicer or Ago2 results in decreased levels of siRNAs and increased levels of retrotransposon and protein-coding transcripts complementary to the siRNAs. Thus, the RNAi pathway regulates both protein-coding transcripts and retrotransposons in mouse oocytes. Our results reveal a role for endogenous siRNAs in mammalian oocytes and show that organisms lacking RdRP activity can produce functional endogenous siRNAs from naturally occurring dsRNAs.
1,122 citations
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TL;DR: It is proposed that the isolation membrane forms from the mitochondria-associated endoplasmic reticulum (ER) membrane (MAM) and the role of ATG proteins and the vesicular trafficking machinery in autophagosome formation is proposed.
Abstract: Autophagosome biogenesis starts at the isolation membrane (also called the phagophore). Our understanding of the molecular processes that initiate the isolation membrane, the membrane sources from which this membrane originates and how it is expanded to the autophagosome membrane by autophagy-related (ATG) proteins and the vesicular trafficking machinery, is increasing.
1,117 citations
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TL;DR: In this paper, the magnetic properties of ribbon-shaped nanographite systems with zigzag and armchair edges in a magnetic field were investigated by using a tight-binding model.
Abstract: Electronic and magnetic properties of ribbon-shaped nanographite systems with zigzag and armchair edges in a magnetic field are investigated by using a tight-binding model. One of the most remarkable features of these systems is the appearance of edge states, strongly localized near zigzag edges. The edge state in a magnetic field, generating a rational fraction of the magnetic flux ( f5 p/q) in each hexagonal plaquette of the graphite plane, behaves like a zero-field edge state with q internal degrees of freedom. The orbital diamagnetic susceptibility strongly depends on the edge shapes. The reason is found in the analysis of the ring currents, which are very sensitive to the lattice topology near the edge. Moreover, the orbital diamagnetic susceptibility is scaled as a function of the temperature, Fermi energy, and ribbon width. Because the edge states lead to a sharp peak in the density of states at the Fermi level, the graphite ribbons with zigzag edges show Curie-like temperature dependence of the Pauli paramagnetic susceptibility. Hence, there is a crossover from hightemperature diamagnetic to low-temperature paramagnetic behavior in the magnetic susceptibility of nanographite ribbons with zigzag edges. @S0163-1829~99!02111-6#
1,116 citations
Authors
Showing all 84130 results
Name | H-index | Papers | Citations |
---|---|---|---|
Shizuo Akira | 261 | 1308 | 320561 |
Thomas C. Südhof | 191 | 653 | 118007 |
Tadamitsu Kishimoto | 181 | 1067 | 130860 |
Yusuke Nakamura | 179 | 2076 | 160313 |
H. S. Chen | 179 | 2401 | 178529 |
Hyun-Chul Kim | 176 | 4076 | 183227 |
Masayuki Yamamoto | 171 | 1576 | 123028 |
Kenji Kangawa | 153 | 1117 | 110059 |
Jongmin Lee | 150 | 2257 | 134772 |
Yoshio Bando | 147 | 1234 | 80883 |
Takeo Kanade | 147 | 799 | 103237 |
Olaf Reimer | 144 | 716 | 74359 |
Yuji Matsuzawa | 143 | 836 | 116711 |
Kim Nasmyth | 142 | 294 | 59231 |
Tasuku Honjo | 141 | 712 | 88428 |