WT host survival decreased with STAT6 KO-adapted <i>N</i>. <i>brasiliensis</i> infection. by Annabel A. Ferguson (17616286)

DataSheet_1_Large plants enhance aboveground biomass in arid natural forest and plantation along differential abiotic and biotic conditions.docx by Bai-Yu Yang (13952523)

“…Large plants increased slightly with increasing climatic water availability in the natural forest but decreased in plantation, whereas soil fertility inhibited large plants in plantation only. …”

Supplementary data: In vitro amplification of whole large plasmids via transposon-mediated oriC insertion by Masayuki Su'estugu (11359558)

“…<div> <table> <tr> <td> <p><b>Supplementary Table: A list of primers used in this study</b></p> <p><b>Supplementary Figure 1. …”

The proportion of lake area which exhibited decreases (blue bars) versus increases (green bars) in chl-a for the largest 18 lakes in the world. by Benjamin M. Kraemer (7526225)

Data_Sheet_1_The Proximal Drivers of Large Fires: A Pyrogeographic Study.docx by Hamish Clarke (8666307)

“…As in most fire-prone environments, the majority of annual burned area is due to a relatively small number of large fires. We train and test an Artificial Neural Network’s ability to predict spatial patterns in the probability of large fires (>1,250 ha) in forests and grasslands as a function of proxies of the four major controls on fire activity. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Traditional solutions to this issue, such as doping with opacifiers or fibers, often increase thermal conductivity and density. To increase the thermal stability of standard aerogels comprising small full-density SiO₂ nanoparticles (SFPs) (typically 2–15 nm in diameter), SiO₂ aerogels were doped with large hollow SiO₂ nanoparticles (LHPs) with diameters of 100–250 nm. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Traditional solutions to this issue, such as doping with opacifiers or fibers, often increase thermal conductivity and density. To increase the thermal stability of standard aerogels comprising small full-density SiO₂ nanoparticles (SFPs) (typically 2–15 nm in diameter), SiO₂ aerogels were doped with large hollow SiO₂ nanoparticles (LHPs) with diameters of 100–250 nm. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Traditional solutions to this issue, such as doping with opacifiers or fibers, often increase thermal conductivity and density. To increase the thermal stability of standard aerogels comprising small full-density SiO₂ nanoparticles (SFPs) (typically 2–15 nm in diameter), SiO₂ aerogels were doped with large hollow SiO₂ nanoparticles (LHPs) with diameters of 100–250 nm. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Traditional solutions to this issue, such as doping with opacifiers or fibers, often increase thermal conductivity and density. To increase the thermal stability of standard aerogels comprising small full-density SiO₂ nanoparticles (SFPs) (typically 2–15 nm in diameter), SiO₂ aerogels were doped with large hollow SiO₂ nanoparticles (LHPs) with diameters of 100–250 nm. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Traditional solutions to this issue, such as doping with opacifiers or fibers, often increase thermal conductivity and density. To increase the thermal stability of standard aerogels comprising small full-density SiO₂ nanoparticles (SFPs) (typically 2–15 nm in diameter), SiO₂ aerogels were doped with large hollow SiO₂ nanoparticles (LHPs) with diameters of 100–250 nm. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Traditional solutions to this issue, such as doping with opacifiers or fibers, often increase thermal conductivity and density. To increase the thermal stability of standard aerogels comprising small full-density SiO₂ nanoparticles (SFPs) (typically 2–15 nm in diameter), SiO₂ aerogels were doped with large hollow SiO₂ nanoparticles (LHPs) with diameters of 100–250 nm. …”

STAT6-driven immunity decreases <i>N</i>. <i>brasiliensis</i> reproductive output and survival within host. by Annabel A. Ferguson (17616286)

Structural en-face optical coherence tomography angiography images of an intermediate age-related macular degeneration eye, showing large choroidal vessels (LCV) within the chorioc... by Valentin Hacker (9956024)

Decrease of muscle weakness and degeneration with mutants of UPS components. by Cécile Ribot (11944875)

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Differential expression analysis of nuclear transcripts after siAPOBEC3A depletion reveals induction of TP53 targets and decreases in cell cycle and cell growth regulator transcrip... by Mason A. McCool (11889842)

Apoptosis and necrosis detection in BHP18-21v cells after adenoviral vector infection. by Yuko Ito (1976692)

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The effects of siARG2 or siRGS4 on AdNKX2-1-induced cell death, apoptosis, and necrosis. by Yuko Ito (1976692)

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Cell viability after AdNKX2-1 and AdLacZ infection. by Yuko Ito (1976692)

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ARG2, RGS4, and RGS5 expression in BHP18-21v cells analyzed using real-time PCR and western blotting. by Yuko Ito (1976692)

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ARG2 and RGS4 expression in siRNA-transfected cells after AdNKX2-1 infection. by Yuko Ito (1976692)

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