Dexamethasone plasma pharmacokinetics in male and female VD₃ sufficient and deficient mice, aged 14 weeks, after a single oral gavage of 2 mg/kg dexamethasone phosphate. by Kavya Annu (11587215)

Dasatinib plasma pharmacokinetics in male and female VD₃ sufficient and deficient mice after a single oral gavage of 10 mg/kg dasatinib. by Kavya Annu (11587215)

RMSD graphs for the backbone of WT PARG1, I845V and T622M mutants. by Zen Kouchi (14898435)

Video_5_Maturation of Heterogeneity in Afferent Synapse Ultrastructure in the Mouse Cochlea.AVI by Shelby A. Payne (10987056)

Serum concentrations of FGF23 at baseline and at week 40 in patients that achieved a serum phosphate concentration of <4.5 mg/dL and >4.5 mg/dL). by Cristian Rodelo-Haad (5607911)

“…Bars represent median and interquartile range. Serum iFGF23 decreased from 581.0 pg/mL (491.2–886.0) to 238.5 pg/mL (116.7–443.5) [median percent change of 63.8% (-75.2–5.40) in patients that achieved the target of phosphate <4.5 mg/dL. …”

Supplementary Material for: Novel digenic variants in COL4A4 and COL4A5 causing X-linked Alport Syndrome by Uedono H. (10917012)

“…The number of cases of digenic AS has increased, but the genotype-phenotype correlation of patient with digenic AS is still unclear. Here, we present a case of digenic AS with novel digenic missense variants in COL4A4 (c.827G>C, p.Gly276Ala) and COL4A5 (c.4369G>C, p.Gly1457Arg). …”

AVP supplementation during hemorrhagic shock is associated with improved mitochondrial function. by Carrie A. Sims (4532332)

Effect of 2% HQ, 0.05% INN and 0.1% TAC on hippocampal 5-HT level and 5-HT_{1A /1B} receptor expression. by Huali Wu (349567)

“…Scale bar = 100μm. (E) The expression of 5-HT_1A and 5-HT_1B receptors was decreased in INN and TAC-treated mice. …”

Table_8_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_10_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_3_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_2_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_13_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_1_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_9_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_7_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_11_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_6_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_12_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”

Table_4_Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.XLSX by Hugo R. Barajas (9501782)

“…Active selection of the plant’s bacterial inhabitants results in a biodiversity decrease toward roots. We collected sixteen samples of in situ ruderal plant roots and their soils and used these soils as the main microbial input for single genotype tomatoes grown in a greenhouse. …”