Soil fungi facilitate the translocation of inorganic nutrients from soil minerals to other microorganisms and plants. This ability is particularly advantageous in impoverished soils, because fungal mycelial networks can bridge otherwise spatially disconnected and inaccessible nutrient hotspots...
"Deconstructing the Soil Microbiome into Reduced-Complexity Functional Modules" The soil microbiome represents one of the most complex microbial communities on the planet, encompassing thousands of taxa and metabolic pathways, rendering holistic analyses computationally intensive and difficult. Here...
"Visualizing the Hidden Half: Plant-Microbe Interactions in the Rhizosphere" Plant roots and the associated rhizosphere constitute a dynamic environment that fosters numerous intra- and interkingdom interactions, including metabolite exchange between plants and soil mediated by root exudates and the...
Understanding molecular-scale factors governing the precipitation of aluminum hydroxides, such as gibbsite, under alkaline conditions is important for the formation of laterite deposits, as well as aluminum processing. However, mechanisms enabling tetrahedral aluminate ions to assemble into...
Electrolyte solutions in alkaline nuclear waste contain aluminate, hydroxide, nitrate and nitrite with sodium as the predominant counterion. The salts of these ions are highly soluble, so the liquids are highly concentrated. This study found that there is a substantial incompatibility between the...
Real-time electronic structure methods provide an unprecedented view of electron dynamics and ultrafast spectroscopy on the atto- and femtosecond time scale with vast potential to yield new insights into the electronic behavior of molecules and materials. In this Review, we discuss the fundamental...
The quantum mechanical treatment of both electrons and nuclei is crucial in nonadiabatic dynamical processes such as proton-coupled electron transfer. The nuclear−electronic orbital (NEO) method provides an elegant framework for including nuclear quantum effects beyond the Born–Oppenheimer...
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...
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...
Please cite as : Anderson L.N., R. Wu, W.C. Nelson, J.E. McDermott, K.S. Hofmockel, and J.K. Jansson. 2021. WA-TmG.2.0 (Metagenome, WA). [Data Set] PNNL DataHub. https://doi.org/10.25584/WATmG2/1770324​​​​​​​ Soil samples were collected in triplicate in the fall of 2017 across the three grassland...
Last updated on 2024-02-11T22:41:43+00:00 by LN Anderson West Nile Virus Experiment WLN003 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...
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...
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...
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...
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...