7,105 research outputs found
Conflict of Laws—Non-Resident’s Action Against Foreign Corporation Where Cause Of Action Arose In New York
Gonzalez v. Industrial Bank (of Cuba), 12 N.Y.2d 33, 186 N.E.2d 410, 234 N.Y.S.2d 210 (1962)
New parties, new movements: but how much say do party members get?
The Political Party Database Project has analysed the workings of 122 political parties in 19 parliamentary democracies. Remarkably, the vast majority share a common model of subscriber democracy: members join at a local level and enjoy a certain amount of say in the party's direction. But in recent years a wave of new political movements, such as RĂ©publique en Marche ..
Globular Cluster Scale Sizes in Giant Galaxies: Orbital Anisotropy and Tidally Under-filling Clusters in M87, NGC 1399, and NGC 5128
We investigate the shallow increase in globular cluster half-light radii with
projected galactocentric distance observed in the giant galaxies M87,
NGC 1399, and NGC 5128. To model the trend in each galaxy, we explore the
effects of orbital anisotropy and tidally under-filling clusters. While a
strong degeneracy exists between the two parameters, we use kinematic studies
to help constrain the distance beyond which cluster orbits become
anisotropic, as well as the distance beyond which clusters are
tidally under-filling. For M87 we find kpc and kpc and kpc.
The connection of with each galaxy's mass profile indicates the
relationship between size and may be imposed at formation, with only
inner clusters being tidally affected. The best fitted models suggest the
dynamical histories of brightest cluster galaxies yield similar present-day
distributions of cluster properties. For NGC 5128, the central giant in a small
galaxy group, we find kpc and kpc. While we
cannot rule out a dependence on , NGC 5128 is well fitted by a tidally
filling cluster population with an isotropic distribution of orbits, suggesting
it may have formed via an initial fast accretion phase. Perturbations from the
surrounding environment may also affect a galaxy's orbital anisotropy profile,
as outer clusters in M87 and NGC 1399 have primarily radial orbits while outer
NGC 5128 clusters remain isotropic.Comment: 16 pages, 7 figures, 4 tables, Accepted for publication in MNRA
Understanding the role of eIF4A in gene regulation in health and disease
Eukaryotic initiation factor 4A (eIF4A) is an ATP-dependent RNA helicase responsible for unwinding the secondary structure of mRNAs. In humans, eIF4A exists as three separate paralogs: eIF4AI and eIF4AII possess a high degree of homology while eIF4AIII is distinct. Knockdown of eIF4AII had no effect on the expression of a reporter construct containing a structured RNA hairpin. Knockdown of eIF4AI and treatment with hippuristanol (an eIF4A inhibitor) caused a dramatic reduction in the hairpin-mediated gene. This reporter system was developed as part of this project to act as a screen for eIF4A activity along with an in vitro screening approach.
The activity of eIF4A is suppressed in vivo by the tumour suppressor PDCD4. The fact that loss of PDCD4 function increases the severity of DNA damage is probably attributable its eIF4A-suppressive activity.
Based on previous microarray data, it was supposed that eIF4A inhibition may be therapeutically beneficial in the treatment of Alzheimer's disease. As part of this project, it was demonstrated that eIF4A suppression significantly reduced the expression of reporter genes preceded by the 5’ UTRs of genes predicted to play harmful roles in Alzheimer’s disease. The expression of reporter genes preceded by the 5’ UTR sequences of genes predicted to be beneficial in Alzheimer's were not affected by this suppression.
Reporter plasmids containing the 5’ UTR sequences of the oncogenes ODC1, EGFR and VEGFA have high requirements for eIF4A as estimated using hippuristanol. eIF4A inhibition did not significantly affect the reporters containing the 5’ UTRs of non-pathogenic genes. The EGFR 5’ UTR was found to contain an IRES which explains why EGFR is upregulated in response to hypoxia
Frontiers of marine science
On 9–13 October 2010 early career scientists from the UK and Australia across marine research fields were given the opportunity to come together in Perth, Australia to discuss the frontiers of marine research and exchange ideas
Understanding the role of eIF4A in gene regulation in health and disease
Eukaryotic initiation factor 4A (eIF4A) is an ATP-dependent RNA helicase responsible for unwinding the secondary structure of mRNAs. In humans, eIF4A exists as three separate paralogs: eIF4AI and eIF4AII possess a high degree of homology while eIF4AIII is distinct. Knockdown of eIF4AII had no effect on the expression of a reporter construct containing a structured RNA hairpin. Knockdown of eIF4AI and treatment with hippuristanol (an eIF4A inhibitor) caused a dramatic reduction in the hairpin-mediated gene. This reporter system was developed as part of this project to act as a screen for eIF4A activity along with an in vitro screening approach.
The activity of eIF4A is suppressed in vivo by the tumour suppressor PDCD4. The fact that loss of PDCD4 function increases the severity of DNA damage is probably attributable its eIF4A-suppressive activity.
Based on previous microarray data, it was supposed that eIF4A inhibition may be therapeutically beneficial in the treatment of Alzheimer's disease. As part of this project, it was demonstrated that eIF4A suppression significantly reduced the expression of reporter genes preceded by the 5’ UTRs of genes predicted to play harmful roles in Alzheimer’s disease. The expression of reporter genes preceded by the 5’ UTR sequences of genes predicted to be beneficial in Alzheimer's were not affected by this suppression.
Reporter plasmids containing the 5’ UTR sequences of the oncogenes ODC1, EGFR and VEGFA have high requirements for eIF4A as estimated using hippuristanol. eIF4A inhibition did not significantly affect the reporters containing the 5’ UTRs of non-pathogenic genes. The EGFR 5’ UTR was found to contain an IRES which explains why EGFR is upregulated in response to hypoxia
Modified messenger ribonucleic acid release from isolated hepatic nuclei after inhibition of polyadenylate formation
eIF4A Inhibition Allows Translational Regulation of mRNAs Encoding Proteins Involved in Alzheimer's Disease
Alzheimer's disease (AD) is the main cause of dementia in our increasingly aging population. The debilitating cognitive and behavioral symptoms characteristic of AD make it an extremely distressing illness for patients and carers. Although drugs have been developed to treat AD symptoms and to slow disease progression, there is currently no cure. The incidence of AD is predicted to increase to over one hundred million by 2050, placing a heavy burden on communities and economies, and making the development of effective therapies an urgent priority. Two proteins are thought to have major contributory roles in AD: the microtubule associated protein tau, also known as MAPT; and the amyloid-beta peptide (A-beta), a cleavage product of amyloid precursor protein (APP). Oxidative stress is also implicated in AD pathology from an early stage. By targeting eIF4A, an RNA helicase involved in translation initiation, the synthesis of APP and tau, but not neuroprotective proteins, can be simultaneously and specifically reduced, representing a novel avenue for AD intervention. We also show that protection from oxidative stress is increased upon eIF4A inhibition. We demonstrate that the reduction of these proteins is not due to changes in mRNA levels or increased protein degradation, but is a consequence of translational repression conferred by inhibition of the helicase activity of eIF4A. Inhibition of eIF4A selectively and simultaneously modulates the synthesis of proteins involved in Alzheimer's disease: reducing A-beta and tau synthesis, while increasing proteins predicted to be neuroprotective
NASA/DOD Aerospace Knowledge Diffusion Research Project. Paper 61: The Technical Communications Practices of ESL Aerospace Engineering Students in the United States: Results of a National Survey
When engineering students graduate and enter the world of work, they make the transition from an academic to a professional community of knowledge. The importance of oral and written communication to the professional success and advancement of engineers is well documented. For example, studies such as those conducted by Mailloux (1989) indicate that communicating data, information, and knowledge takes up as much as 80% of an engineer's time. However, these same studies also indicate that many engineering graduates cannot (a) write technical reports that effectively inform and influence decisionmaking, (b) present their ideas persuasively, and (c) communicate with their peers. If these statements are true, how is learning to communicate effectively in their professional knowledge community different for engineering students educated in the United States but who come from other cultures-cultures in which English is not the primary language of communication? Answering this question requires adequate and generalizable data about these students' communications abilities, skills, and competencies. To contribute to the answer, we undertook a national (mail) survey of 1,727 student members of the American Institute of Aeronautics and Astronautics (AIAA). The focus of our analysis and this paper is a comparison of the responses of 297 student members for whom English is a second language with the responses of 1,430 native English speaking students to queries regarding career choice, bilingualism and language fluency, communication skills, collaborative writing, computer use, and the use of electronic (computer) networks
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