Project description:Raw metagenomic sequences of the he WELCOME (WEilL COrnell Medicine Employees) (protocol number IRB# 20-04021831) trial conducted at Weill Cornell Medicine (WCM) and New York Presbyterian Hospital (NYP)

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Project description:Europe recently experienced a large influx of refugees, spurring much public debate about the admission and integration of refugees and migrants into society. Previous research based on cross-sectional data found that European citizens generally favour asylum seekers with high employability, severe vulnerabilities, and Christians over Muslims. These preferences and attitudes were found to be homogeneous across countries and socio-demographic groups. Here, we do not study the general acceptance of asylum seekers, but the acceptance of refugee and migrant homes in citizens' vicinity and how it changes over time. Based on a repeated stated choice experiment on preferences for refugee and migrant homes, we show that the initially promoted "welcome culture" towards refugees in Germany was not reflected in the views of a majority of a sample of German citizens who rather disapproved refugee homes in their vicinity. Their preferences have not changed between November 2015, the peak of "welcome culture," and November 2016, after political debates, media reporting and public discourse had shifted towards limiting admission of immigrants. A minority of one fifth of the sample population, who were initially rather approving of refugee and migrant homes being established in their vicinity, were more likely to change their preferences towards a rather disapproving position in 2016. Experience of contact with refugees and migrants, higher education, and general pro-immigration attitudes explain acceptance of refugee and migrant homes as well as preference stability over time. Country of origin and religion of refugees and migrants are considered less important than decent housing conditions and whether refugee and migrants arrive as families or single persons. In this respect our results highlight the importance of humanitarian aspects of sheltering and integration of refugees and other migrants into society.

Project description:I am pleased to introduce Methods and Protocols, a new multidisciplinary, peer-reviewed, open access journal devoted to providing an open forum to report on new procedural approaches and cutting-edge methodological developments.[...].

Project description:Nucleocytoplasmic large DNA viruses, or representatives of the proposed order Megavirales, belong to families of giant viruses that infect a broad range of eukaryotic hosts. Megaviruses have been previously described to comprise a fourth monophylogenetic TRUC (things resisting uncompleted classification) together with cellular domains in the universal tree of life. Recently described pandoraviruses have large (1.9-2.5 MB) and highly divergent genomes. In the present study, we updated the classification of pandoraviruses and other reported giant viruses. Phylogenetic trees were constructed based on six informational genes. Hierarchical clustering was performed based on a set of informational genes from Megavirales members and cellular organisms. Homologous sequences were selected from cellular organisms using TimeTree software, comprising comprehensive, and representative sets of members from Bacteria, Archaea, and Eukarya. Phylogenetic analyses based on three conserved core genes clustered pandoraviruses with phycodnaviruses, exhibiting their close relatedness. Additionally, hierarchical clustering analyses based on informational genes grouped pandoraviruses with Megavirales members as a super group distinct from cellular organisms. Thus, the analyses based on core conserved genes revealed that pandoraviruses are new genuine members of the 'Fourth TRUC' club, encompassing distinct life forms compared with cellular organisms.

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Project description:BackgroundAllergic diseases have become an increasing health issue worldwide, being one of the fastest growing chronic diseases in Australia and other westernized countries. In 2013, allergic diseases were reported to affect 20% of the Australian population. Despite the high prevalence there was no national strategy to address these complex health issues, to enable the health system to manage the increasing number of patients. This project aimed to develop and implement a national strategy to improve allergy management in Australia, with a view of improving the quality of life of people living with or caring for someone with allergic diseases.MethodsThe need for a national strategy to improve allergy management was identified. The Australasian Society of Clinical Immunology and Allergy (ASCIA) and Allergy & Anaphylaxis Australia (A&AA) worked together as partners to progress a national strategy using a theoretical model to underpin its development. Unrestricted education grants were sought to fund engagement with stakeholder organizations for both development and implementation summits. Several stages of advocacy were undertaken.ResultsThe National Allergy Strategy was developed as a partnership between ASCIA and A&AA. The Kotter's Change Management Model provided the basis for the steps undertaken to develop and implement the National Allergy Strategy. Two Allergy Summits, one for development and the other for implementation, were held. Several events were held to advocate for federal government funding. Five individual funding grants were achieved to implement National Allergy Strategy projects addressing the most urgent issues.ConclusionThe development of the National Allergy Strategy, a partnership between ASCIA and A&AA, was important in enabling successful advocacy for funding and implementation of important Australia-wide projects. The partnership has also helped facilitate engagement with key stakeholders to help advocate for funding and provide guidance and expertise in project implementation and resource development. The National Allergy Strategy has been successful in attracting funding to implement projects and develop resources urgently needed. The National Allergy Strategy has also provided a framework and a collaborative approach, for advocacy for further funding and future work to be undertaken.

Project description:Asparagus genomics and transcriptome

Project description:Artificial selection affects phenotypes differently by natural selection. Domestic traits, which pass into the wild, are usually negatively selected. Yet, exceptionally, this axiom may fail to apply if genes, from the domestic animals, increase fertility in the wild. We studied a rare case of a wild boar population under the framework of Wright's interdemic selection model, which could explain gene flow between wild boar and pig, both considered as demes. We analysed the MC1R gene and microsatellite neutral loci in 62 pregnant wild boars as markers of hybridization, and we correlated nucleotide mutations on MC1R (which are common in domestic breeds) to litter size, as an evaluation of fitness in wild sow. Regardless of body size and phyletic effects, wild boar sows bearing nonsynonymous MC1R mutations produced larger litters. This directly suggests that artificially selected traits reaching wild populations, through interdemic gene flow, could bypass natural selection if and only if they increase the fitness in the wild.