Table_5_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xlsx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_2_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xlsx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_9_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xlsx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_11_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xlsx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_7_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xls by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_4_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xlsx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_1_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.docx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_10_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xls by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Table_8_Transcriptome and Proteomics Analysis of Wheat Seedling Roots Reveals That Increasing NH4+/NO3– Ratio Induced Root Lignification and Reduced Nitrogen Utilization.xlsx by Dongqing Yang (675454)

“…However, the mechanisms underlying the response of wheat seedling roots to changes in NH₄⁺/NO₃^– ratio remain unclear. In this study, we investigated wheat growth, transcriptome, and proteome profiles of roots in response to increasing NH₄⁺/NO₃^– ratios (N_a: 100/0; N_r1: 75/25, N_r2: 50/50, N_r3: 25/75, and N_n: 0/100). …”

Open-Shell Lanthanide(II+) or -(III+) Complexes Bearing σ‑Silyl and Silylene Ligands: Synthesis, Structure, and Bonding Analysis by Rainer Zitz (1355943)

UCH-L5 regulates inflammasome activity in human macrophages. by Evangel Kummari (719636)

“…<p><b>(A). Exposure of THP-1 macrophages to b-AP15 inhibitor leads to decrease in IL-1β upon inflammasome activation.…”

Clinical and virological profiles of TriD9 vaccine trial group. by Jodi K. Craigo (421284)

“…<p>(<b>A</b>) Seven of eight EIAV-naïve ponies vaccinated with 3×10³ TCID₅₀ TriD9 I.M. …”

Clinical and virological profiles of ConD9 vaccine trial group. by Jodi K. Craigo (421284)

“…<p>(<b>A</b>) Eight EIAV-naïve ponies were vaccinated with 3×10³ TCID₅₀ ConD9 I.M. …”

Pharmacological inhibition of cell death pathways protects neurons against glutamate-induced cell death. by Ujval Anilkumar (4598182)

“…Pre-treatment with Calpeptin, DPQ and SP 600125 significantly increased viability compared to no pre-treatment and this increased viability was primarily due to a decrease in apoptosis (*p = 0.0475 for all marked treatments compared to no pre-treatment).…”

Forskolin increases the presynaptic surface area of glutamate release and the spatial synchronization of glutamate release within hMFBs. by Marta Orlando (11001599)

“…Suprathreshold pixels (pixels with Δ<i>F/F</i> intensities more than 3 × SD of the baseline signal, i.e., 50 ms before the stimulation) are contoured with a black line and represent the active area. …”

Reactive oxygen species from mitochondria impacts trophoblast fusion and the production of endocrine hormones by syncytiotrophoblasts by O’Llenecia S. Walker (8486163)

“…Increased mitochondrial ROS resulted in a significant decrease in the transcripts which encode for proteins associated with fusion (<i>GCM1</i>, <i>ERVW-1</i>, and <i>ERVFRD-1</i>) resulting in a 5-fold decrease in the percentage of BeWo fusion. …”

Expression of the ETS-5 target gene <i>gcy-9</i> restores CO₂-chemosensitivity to <i>ets-5</i> mutants. by Julia P. Brandt (176082)

“…Wild-type URX neurons (top panel) showed a small decrease in the ratio of YFP:CFP emissions in response to 10 s CO₂ pulses indicating decreases in cell calcium. …”

Supplementary Material for: Sensitivity and Specificity of Urinary Neutrophil Gelatinase-Associated Lipocalin and Kidney Injury Molecule-1 for the Diagnosis of Renal Cell Carcinoma by Morrissey J.J. (4128844)

“…Before nephrectomy, KIM-1 excretion was 0.68 (0.40–1.12) ng/mg U_Cr compared to 0.03 (0.01–0.06) in controls (p < 0.001). There was a linear correlation between KIM-1 excretion before nephrectomy and tumor size (Spearman’s r = 0.66, p < 0.001), tumor stage, and a 50% decrease in median KIM-1 concentration 1 month following tumor excision (p < 0.01). …”

Cyclic M₂(RL)₂ Coordination Complexes of 5-(3-[<i>N</i>-<i>tert</i>-Butyl-<i>N</i>-aminoxyl]phenyl)pyrimidine with Paramagnetic Transition Metal Dications by Martha Baskett (1821274)

“…Cu₂(hfac)₄(RL)₂ shows more complex behavior, with no high-temperature plateau in χ<i>T</i>(<i>T</i>) up to 300 K but a monotonic decrease down to about 100 K. The Cu(II)−nitroxide bonds decrease by 0.2−0.3 Å over the same temperature range, corresponding to a change of nitroxide coordination from axial to equatorial. …”

Cyclic M₂(RL)₂ Coordination Complexes of 5-(3-[<i>N</i>-<i>tert</i>-Butyl-<i>N</i>-aminoxyl]phenyl)pyrimidine with Paramagnetic Transition Metal Dications by Martha Baskett (1821274)

“…Cu₂(hfac)₄(RL)₂ shows more complex behavior, with no high-temperature plateau in χ<i>T</i>(<i>T</i>) up to 300 K but a monotonic decrease down to about 100 K. The Cu(II)−nitroxide bonds decrease by 0.2−0.3 Å over the same temperature range, corresponding to a change of nitroxide coordination from axial to equatorial. …”