Institution
Chung-Ang University
Education•Seoul, South Korea•
About: Chung-Ang University is a education organization based out in Seoul, South Korea. It is known for research contribution in the topics: Population & Thin film. The organization has 13381 authors who have published 26978 publications receiving 416735 citations. The organization is also known as: CAU & Chung.
Topics: Population, Thin film, Medicine, Cancer, Apoptosis
Papers published on a yearly basis
Papers
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TL;DR: The results showed that the size of the silver nanoparticles did not affect their tissue distribution, and biological barriers, such as the blood–brain barrier and blood-testis barrier, seemed to play an important role in the silver clearance from these tissues.
Abstract: Silver nanoparticles are known to be distributed in many tissues after oral or inhalation exposure. Thus, understanding the tissue clearance of such distributed nanoparticles is very important to understand the behavior of silver nanoparticles in vivo. For risk assessment purposes, easy clearance indicates a lower overall cumulative toxicity. Accordingly, to investigate the clearance of tissue silver concentrations following oral silver nanoparticle exposure, Sprague–Dawley rats were assigned to 3 groups: control, low dose (100 mg/kg body weight), and high dose (500 mg/kg body weight), and exposed to two different sizes of silver nanoparticles (average diameter 10 and 25 nm) over 28 days. Thereafter, the rats were allowed to recover for 4 months. Regardless of the silver nanoparticle size, the silver content in most tissues gradually decreased during the 4-month recovery period, indicating tissue clearance of the accumulated silver. The exceptions were the silver concentrations in the brain and testes, which did not clear well, even after the 4-month recovery period, indicating an obstruction in transporting the accumulated silver out of these tissues. Therefore, the results showed that the size of the silver nanoparticles did not affect their tissue distribution. Furthermore, biological barriers, such as the blood–brain barrier and blood-testis barrier, seemed to play an important role in the silver clearance from these tissues.
210 citations
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TL;DR: Evidence is provided that the NAC (for NAM, ATAF1/2, and CUC2) TF ANAC096 cooperates with the bZIP-type TFs ABRE binding factor and ABREbinding protein (ABF/AREB) to help plants survive under dehydration and osmotic stress conditions.
Abstract: Multiple transcription factors (TFs) play essential roles in plants under abiotic stress, but how these multiple TFs cooperate in abiotic stress responses remains largely unknown. In this study, we provide evidence that the NAC (for NAM, ATAF1/2, and CUC2) TF ANAC096 cooperates with the bZIP-type TFs ABRE binding factor and ABRE binding protein (ABF/AREB) to help plants survive under dehydration and osmotic stress conditions. ANAC096 directly interacts with ABF2 and ABF4, but not with ABF3, both in vitro and in vivo. ANAC096 and ABF2 synergistically activate RD29A transcription. Our genome-wide gene expression analysis revealed that a major proportion of abscisic acid (ABA)–responsive genes are under the transcriptional regulation of ANAC096. We found that the Arabidopsis thaliana anac096 mutant is hyposensitive to exogenous ABA and shows impaired ABA-induced stomatal closure and increased water loss under dehydration stress conditions. Furthermore, we found the anac096 abf2 abf4 triple mutant is much more sensitive to dehydration and osmotic stresses than the anac096 single mutant or the abf2 abf4 double mutant. Based on these results, we propose that ANAC096 is involved in a synergistic relationship with a subset of ABFs for the transcriptional activation of ABA-inducible genes in response to dehydration and osmotic stresses.
210 citations
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TL;DR: EUS-guided injection and lavage of ethanol, followed by injection of paclitaxel, appears to be a safe method for treating pancreatic cysts; 62% of patients had complete resolution and small cyst volume predicted complete resolution.
210 citations
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TL;DR: Evidence is provided that miR390 expression is sensitive to TIR1-dependent transcriptional regulation and auxin concentration, and also that mutual negative-regulation between the tasiRNA-ARF pathway and ARf4 modulates the spatiotemporal expression of ARF4.
Abstract: MicroRNA (miR)390 cleaves the non-coding TAS3 precursor RNA for the production of tasiRNA-ARF, a group of an endogenous trans-acting small-interfering RNAs which cleave the transcripts of auxin response factor (ARF) 3/4. miR390-cleaved TAS3 RNA is polymerized and diced into tasiRNA-ARF by RNA-dependent RNA polymerase6 (RDR6) and Dicer-like4 (DCL4), respectively. tasiRNA-ARF-dependent post-transcriptional gene silencing (PTGS) of ARF3/4 is involved in auxin-mediated polarity establishment in the development of aerial lateral organs, such as leaf and flower. To understand how auxin regulates ARF4 expression, we examined auxin responsiveness of miR390 expression, which comprises a regulatory step for the biogenesis pathway of tasiRNA-ARF (the tasiRNA-ARF pathway), in Arabidopsis thaliana lateral root (LR) development. The results of this study provide evidence that miR390 expression is sensitive to TIR1-dependent transcriptional regulation and auxin concentration, and also that mutual negative-regulation between the tasiRNA-ARF pathway and ARF4 modulates the spatiotemporal expression of ARF4. We propose that, together with auxin concentration sensing through miR390 transcription, the tasiRNA-ARF pathway mediates the auxin response and ARF4-mediated LR developmental processes.
209 citations
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Zhengzhou University1, University of Washington2, Northeast Ohio Medical University3, Sunnybrook Research Institute4, University of Pavia5, Sapienza University of Rome6, Chung-Ang University7, University of São Paulo8, Ludwig Maximilian University of Munich9, University of Lorraine10, Tongji Medical College11, Imperial College London12, University of Verona13, Fudan University14, Thomas Jefferson University15, University of Bergen16, University of California, San Diego17, Université Paris-Saclay18, International University, Cambodia19, University of Copenhagen20, University of Bologna21, University of Medicine and Pharmacy of Craiova22, King's College London23, Foothills Medical Centre24, Stanford University25, University of Toronto26, Charles Sturt University27
TL;DR: “How to perform contrast-enhanced ultrasound (CEUS)” provides general advice on the use of ultrasound contrast agents (UCAs) for clinical decision-making and reviews technical parameters for optimal CEUS performance.
Abstract: “How to perform contrast-enhanced ultrasound (CEUS)” provides general advice on the use of ultrasound contrast agents (UCAs) for clinical decision-making and reviews technical parameters for optimal CEUS performance CEUS techniques vary between centers, therefore, experts from EFSUMB, WFUMB and from the CEUS LI-RADS working group created a discussion forum to standardize the CEUS examination technique according to published evidence and best personal experience The goal is to standardise the use and administration of UCAs to facilitate correct diagnoses and ultimately to improve the management and outcomes of patients
208 citations
Authors
Showing all 13500 results
Name | H-index | Papers | Citations |
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Carl Nathan | 135 | 430 | 91535 |
Scheffer C.G. Tseng | 93 | 333 | 29213 |
Richard L. Sidman | 93 | 297 | 32009 |
H. Yamaguchi | 90 | 375 | 33135 |
Ajith Abraham | 86 | 1113 | 31834 |
Byung Ihn Choi | 78 | 609 | 24925 |
Stefano Soatto | 78 | 499 | 23597 |
J. H. Kim | 73 | 566 | 23052 |
Daehee Kang | 72 | 422 | 23959 |
Lance M. McCracken | 72 | 281 | 18897 |
Masanobu Shinozuka | 69 | 456 | 21961 |
Seung U. Kim | 64 | 355 | 14269 |
Sug Hyung Lee | 64 | 454 | 21552 |
Seung U. Kim | 63 | 129 | 11983 |
Nam Jin Yoo | 63 | 403 | 12692 |