649 research outputs found
Death and the internet: consumer issues for planning and managing digital legacies
The team of Melbourne University researchers examined licencing policies, terms of use agreements and copyright law, and interviewed a range of people, including funeral directors, religious workers, internet content and service providers, as well as estate planning lawyers.
The project identified a range of ownership and access issues, and found that many online \u27assets\u27 are left exposed or stranded after death. The researchers concluded that more Australians should include digital registers in, or with, their wills and these should contain passwords and account locations so that material can then be distributed by the Executor or other designated person.
A website was also created as part of the project and provides useful tips and information on preparing a digital register. Visit it here: www.digitalheritage.net.a
Exploring the Lived Experiences of Parkland College Students
Parkland College is home to roughly 10,000 students, coming from various backgrounds and cultures. This diversity in the student body, led us to focus this study on the types of resources offered to Parkland students. We believe that the college answers to the needs of its students and that looking at these resources in terms of academics and mental health can help identify the challenges that students deal with in their lived experiences.
Habitus in cultural anthropology is defined as the “dispositions, attitudes, or preferences” that a community uses to create an identity (Griffith and Marion 2020). By observing the habitus of Parkland students, and how this community is supported we can better understand the student lived experiences. We further narrowed our focus by asking how the different resources and support services offered to students compared to the neighboring University of Illinois at Urbana Champaign
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Protecting small populations of rare species. Case study on dactylorhiza viridis (orchidaceae) in Fancott Woods and Meadows SSSI, Bedfordshire, UK
Dactylorhiza viridis is a small orchid species, sensitive to competition with dense and tall herbaceous vegetation. Its populations in Europe and in the UK have been declining over the last century. Small, isolated populations have remained in Protected Areas. The population of the species in Fancott Woods and Meadows Site of Special Scientific Interest (SSSI) was studied in 2011–2019. The number of orchid plants varies substantially from year to year, but the areas occupied by the population remain the same. Fruit production is high. The population is under threat from herbivores and from competition with tall vegetation on the meadow. Expansion of the vigorous herb Filipendula ulmaria was recorded on the meadow in 2009 that negatively affected the rare plant community. Additional management of an early hay cut was implemented on the meadow as a trial. A botanical survey of managed and control plots showed a reduction in the vigorous herbs, an increase in species number in the cut plots and a resulting more open sward. The orchid population also benefits from a more open sward. The management of the site is the key to the survival of this small orchid population
Analysis of telephone network traffic based on a complex user network
The traffic in telephone networks is analyzed in this paper. Unlike the
classical traffic analysis where call blockings are due to the limited channel
capacity, we consider here a more realistic cause for call blockings which is
due to the way in which users are networked in a real-life human society.
Furthermore, two kinds of user network, namely, the fully-connected user
network and the scale-free network, are employed to model the way in which
telephone users are connected. We show that the blocking probability is
generally higher in the case of the scale-free user network, and that the
carried traffic intensity is practically limited not only by the network
capacity but also by the property of the user network.Comment: 17 pages, 9 figures, accepted for Physica
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Field application of Bacillus subtilis and Aureobasidium pullulans to reduce Monilinia laxa post-harvest rot on cherry
Brown rot caused by Monilinia spp. is one of the most important diseases in stone fruits worldwide. Latent infections of fruit by the pathogen often manifest once the fruit is ripe, leading to post-harvest rots. Two microbial strains (Bacillus subtilis -B91 and Aureobasidium pullulans - Y126) have shown antagonistic properties against M. laxa in previous studies. This study assessed the reduction in post-harvest rot of cherry by M. laxa when the two biocontrol (BCAs) strains were applied pre-harvest under field conditions to fruit artificially inoculated with M. laxa. The experiment was carried out for two consecutive years in cherry orchards in Kent. When applied pre-harvest, both strains (B91 and Y126) reduced the incidence of post-harvest rots by 30% - 60%. This promising result helps towards the commercialisation of the two strains, which would reduce reliance on fungicides in commercial cherry
production
Severe regurgitation due to perforation of the mitral-aortic intervalvular fibrosa 3 years after aortic valve replacement
We report the case of a 91-year-old man with severe symptomatic mitral regurgitation (MR), referred for assessment of percutaneous edge-to-edge repair 3 years after bioprosthetic aortic valve replacement (AVR). Detailed transthoracic, trans-oesophageal (TEE), and three-dimensional (3D) echocardiography showed a perforation in the subaortic curtain leading to severe regurgitation from the left ventricular outflow tract to the left atrium, which was undiagnosed on previous two-dimensional echocardiography. This regurgitation might be iatrogenic in origin after AVR in the absence of previous known endocarditis. This case highlights the utility and added value of 3D TEE in identifying the mechanism of MR
Regulation of Muscle Satellite Cell Activation and Chemotaxis by Angiotensin II
The role of angiotensin II (Ang II) in skeletal muscle is poorly understood. We report that pharmacological inhibition of Ang II signaling or ablation of the AT1a receptor significantly impaired skeletal muscle growth following myotrauma, in vivo, likely due to impaired satellite cell activation and chemotaxis. In vitro experiments demonstrated that Ang II treatment activated quiescent myoblasts as evidenced by the upregulation of myogenic regulatory factors, increased number of β-gal+, Myf5-LacZ myoblasts and the acquisition of cellular motility. Furthermore, exogenous treatment with Ang II significantly increased the chemotactic capacity of C2C12 and primary cells while AT1a−/− myoblasts demonstrated a severe impairment in basal migration and were not responsive to Ang II treatment. Additionally, Ang II interacted with myoblasts in a paracrine-mediated fashion as 4 h of cyclic mechanical stimulation resulted in Ang II-induced migration of cocultured myoblasts. Ang II-induced chemotaxis appeared to be regulated by multiple mechanisms including reorganization of the actin cytoskeleton and augmentation of MMP2 activity. Collectively, these results highlight a novel role for Ang II and ACE inhibitors in the regulation of skeletal muscle growth and satellite cell function
Learning the shape of protein micro-environments with a holographic convolutional neural network
Proteins play a central role in biology from immune recognition to brain
activity. While major advances in machine learning have improved our ability to
predict protein structure from sequence, determining protein function from
structure remains a major challenge. Here, we introduce Holographic
Convolutional Neural Network (H-CNN) for proteins, which is a physically
motivated machine learning approach to model amino acid preferences in protein
structures. H-CNN reflects physical interactions in a protein structure and
recapitulates the functional information stored in evolutionary data. H-CNN
accurately predicts the impact of mutations on protein function, including
stability and binding of protein complexes. Our interpretable computational
model for protein structure-function maps could guide design of novel proteins
with desired function
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