Viral communities detected from three large grassland soil metagenomes with historically different precipitation moisture regimes.
Filter results
Content type
Tags
- (-) West Nile virus (13)
- (-) Viruses (5)
- Virology (57)
- Immune Response (53)
- Time Sampled Measurement Datasets (50)
- Gene expression profile data (47)
- Differential Expression Analysis (46)
- Homo sapiens (34)
- Mass spectrometry data (30)
- Multi-Omics (30)
- Omics (25)
- Soil Microbiology (22)
- MERS-CoV (18)
- Mus musculus (18)
- Mass Spectrometry (13)
- sequencing (13)
- Ebola (11)
- Influenza A (11)
- Genomics (10)
- Metagenomics (10)
- Resource Metadata (9)
- Microbiome (8)
- Fungi (6)
- High Throughput Sequencing (6)
- Human Interferon (6)
- Imaging (6)
- Microarray (6)
- Omics-LHV Project (6)
- Type 1 Diabetes (6)
- Proteomics (5)
"DNA Viral Diversity, Abundance, and Functional Potential Vary across Grassland Soils with a Range of Historical Moisture Regimes" Soil viruses are abundant, but the influence of the environment and climate on soil viruses remains poorly understood. Here, we addressed this gap by comparing the...
Category
Omics-LHV, West Nile Experiment WGCN004 The purpose of this West Nile experiment was to obtain samples for omics analysis in primary mouse granule neuron cells infected with wild type West Nile virus (WNV-NY99 clone 382, WNVWT) and mutant virus (WNVE218A). Overall Design: Granule cell neurons from...
Category
The rhizosphere represents a dynamic and complex interface between plant hosts and the microbial community found in the surrounding soil. While it is recognized that manipulating the rhizosphere has the potential to improve plant fitness and health, engineering the rhizosphere microbiome through...
Agriculture is the largest source of greenhouse gases (GHG) production. Conversion of nitrogen fertilizers into more reduced forms by microbes through a process known as biological nitrification drives GHG production, enhances proliferation of toxic algal blooms, and increases cost of crop...
"Moisture modulates soil reservoirs of active DNA and RNA viruses" Soil is known to harbor viruses, but the majority are uncharacterized and their responses to environmental changes are unknown. Here, we used a multi-omics approach (metagenomics, metatranscriptomics and metaproteomics) to detect...
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson PNNL DataHub NIAID Program Project: Modeling Host Responses to Understand Severe Human Virus Infections, Multi-Omic Viral Dataset Catalog Collection Background The National Institute of Allergy and Infectious Diseases (NIAID) "Modeling Host...
Category
Datasets
45
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson Omics-LHV Profiling of Host Response to West Nile Virus Infection Background West Nile virus ( WNV ) belongs to the mosquito-borne Flaviviridae family and is classified as a Category A priority pathogen by the National Institute of Allergy and...
Category
Datasets
11
Short Biography Caroline (Carrie) Harwood received her Ph.D. in microbiology from the University of Massachusetts and completed postdoctoral work at Yale University. She held academic appointments at Cornell University and the University of Iowa before moving to the University of Washington in 2005...
Category
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WCB001 The purpose of this experiment was to evaluate the host response to West Nile virus (strain WNV-NY99) wild-type clone 382 and mutant 382-E218A 2 nt virus infection. Sample data was obtained from mouse (strain...
Category
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WCT001 The purpose of this experiment was to evaluate the host responseto West Nile virus (WNV-NY99) wild-type (strain 382) and mutant 382-E218A 2 nt virus infection. Sample data was obtained from mouse (strain C57BL...
Category
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WCN003 The purpose of this experiment was to evaluate the host response to West Nile virus (strain WNV-NY99) wild-type clone 382 and mutant 382-E218A virus infection. Sample data was obtained from mouse (strain C57BL...
Category
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WDC010 The purpose of this experiment was to evaluate the host response to West Nile virus (strain WNV-NY99) wild-type clone 382 and mutant 382-E218A virus infection. Sample data was obtained from primary mouse...
Category
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WCN002 The purpose of this experiment was to evaluate the host response to West Nile virus (strain WNV-NY99) wild-type clone 382 and mutant 382-E218A virus infection. Sample data was obtained from mouse (strain C57BL...
Category
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WGCN003 The purpose of this experiment was to evaluate the host response to West Nile virus (strain WNV-NY99) wild-type clone 382 and mutant 382-E218A virus infection. Sample data was obtained from mouse (strain...