2,910 research outputs found
Nome Day Shelter
The Nome Day Shelter was created in response to community needs due to weather- related exposure deaths, impoverished community members, homelessness, hospital emergency department interactions, and various presentations of public social maladies. Although the protection of women was not the primary purpose in the establishment of the Day Shelter, this factor is a significant by-product of this sanctuary. An accurate accounting of MMIWG does not exist in the Norton Sound region. It may be reasonably inferred safety the Shelter provides has an impact on MMIWG in the Bering Strait region
The development of PIPA: an integrated and automated pipeline for genome-wide protein function annotation
BACKGROUND: Automated protein function prediction methods are needed to keep pace with high-throughput sequencing. With the existence of many programs and databases for inferring different protein functions, a pipeline that properly integrates these resources will benefit from the advantages of each method. However, integrated systems usually do not provide mechanisms to generate customized databases to predict particular protein functions. Here, we describe a tool termed PIPA (Pipeline for Protein Annotation) that has these capabilities. RESULTS: PIPA annotates protein functions by combining the results of multiple programs and databases, such as InterPro and the Conserved Domains Database, into common Gene Ontology (GO) terms. The major algorithms implemented in PIPA are: (1) a profile database generation algorithm, which generates customized profile databases to predict particular protein functions, (2) an automated ontology mapping generation algorithm, which maps various classification schemes into GO, and (3) a consensus algorithm to reconcile annotations from the integrated programs and databases. PIPA's profile generation algorithm is employed to construct the enzyme profile database CatFam, which predicts catalytic functions described by Enzyme Commission (EC) numbers. Validation tests show that CatFam yields average recall and precision larger than 95.0%. CatFam is integrated with PIPA. We use an association rule mining algorithm to automatically generate mappings between terms of two ontologies from annotated sample proteins. Incorporating the ontologies' hierarchical topology into the algorithm increases the number of generated mappings. In particular, it generates 40.0% additional mappings from the Clusters of Orthologous Groups (COG) to EC numbers and a six-fold increase in mappings from COG to GO terms. The mappings to EC numbers show a very high precision (99.8%) and recall (96.6%), while the mappings to GO terms show moderate precision (80.0%) and low recall (33.0%). Our consensus algorithm for GO annotation is based on the computation and propagation of likelihood scores associated with GO terms. The test results suggest that, for a given recall, the application of the consensus algorithm yields higher precision than when consensus is not used. CONCLUSION: The algorithms implemented in PIPA provide automated genome-wide protein function annotation based on reconciled predictions from multiple resources
Artifact-Based Rendering: Harnessing Natural and Traditional Visual Media for More Expressive and Engaging 3D Visualizations
We introduce Artifact-Based Rendering (ABR), a framework of tools,
algorithms, and processes that makes it possible to produce real, data-driven
3D scientific visualizations with a visual language derived entirely from
colors, lines, textures, and forms created using traditional physical media or
found in nature. A theory and process for ABR is presented to address three
current needs: (i) designing better visualizations by making it possible for
non-programmers to rapidly design and critique many alternative data-to-visual
mappings; (ii) expanding the visual vocabulary used in scientific
visualizations to depict increasingly complex multivariate data; (iii) bringing
a more engaging, natural, and human-relatable handcrafted aesthetic to data
visualization. New tools and algorithms to support ABR include front-end
applets for constructing artifact-based colormaps, optimizing 3D scanned meshes
for use in data visualization, and synthesizing textures from artifacts. These
are complemented by an interactive rendering engine with custom algorithms and
interfaces that demonstrate multiple new visual styles for depicting point,
line, surface, and volume data. A within-the-research-team design study
provides early evidence of the shift in visualization design processes that ABR
is believed to enable when compared to traditional scientific visualization
systems. Qualitative user feedback on applications to climate science and brain
imaging support the utility of ABR for scientific discovery and public
communication.Comment: Published in IEEE VIS 2019, 9 pages of content with 2 pages of
references, 12 figure
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