Data_Sheet_1_Effects of the probiotic Lactiplantibacillus plantarum IMC 510® on body composition, biochemical parameters, gut microbiota composition and function, and clinical symp... by Giuditta Pagliai (8105576)

The thermo-mechanical response of PP nanocomposites at high graphene loading by Kai Yang (73590)

“…Small angle X-ray scattering (SAXS) showed a large decrease in the amount of lamellar structure relative to the neat PP, while wide angle X-ray scattering (WAXS) showed a high degree of crystallinity. …”

Protean Agonism in the β₂-Adrenergic Receptor System by Tamara L Kinzer-Ursem (273905)

“…</p><p>(D) Desensitization treatment by isopreterenol is simulated by decreasing G protein (G_total) by 50%. Parameter values are equal to those listed in <a href="http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.0030006#pcbi-0030006-g004" target="_blank">Figure 4</a> except when otherwise noted. …”

Schematic of experimental paradigms. by Shiva Farashahi (5018381)

“…Following the appearance of the fixation cross and information about the maximum reward (50 and 100 points), subjects were presented with a diminishing arc informing them about the rate of reward decrease on a given trial. …”

Physiological indices of irrigated rice affected by flooding and nitrogen fertilization by Alberto Baêta dos Santos (8074955)

Bacteria modify the environment and react to it. by Christoph Ratzke (4961482)

“…Only little buffering, 10 g/L glucose and 8 g/L urea as substrates were used in (d). (e) Microbes can increase or decrease the pH (blue environment is alkaline, and red environment is acidic) and thus produce a more or less suitable environment for themselves. …”

Classification analysis. by Shayoni Ray (179927)

PICS analysis of glucocorticoid receptor at different time lags (S1 Fig Data). by Rolf Harkes (824162)

Detergent-free staining shows all Sdc constructs localize to the synapse. by Margaret U. Nguyen (3177789)

Piroxicam and vehicle control do not impact canine UC cells <i>in vitro</i>. by Jordon M. Inkol (11237604)

“…<p>Representative IC50 curves for piroxicam treatment of AXA, Orig, and SH cells show no dose dependent decrease in cell viability up to 1mM (A). …”

dFmr1 regulates heart rate. by Stefanie Mares Novak (826953)

“…<b>(B)</b> Loss of dFmr1 (<i>dFmr1</i>^<i>3/50M</i>, N = 16) results in a statistically significant decrease in heart rate when compared to wild type (<i>w</i>^<i>1118</i>, N = 10). …”

<i>foxP2</i> does not affect neuron specification, apoptosis, or proliferation, but does affect <i>cntnap2</i> expression levels. by Lingyan Xing (310457)

“…<p>Confocal z-stack images, rostral to the top, scale bars 50 μm. (A, B, E-H, K-L) ventral views. (C, D) dorsal views. …”

Test scores and ordering costs. by Jinghong Ma (1755838)

Expansion of EcadAb ES cells in shake flask culture. by Lisa Mohamet (213822)

“…Cell counts were performed every 72 h prior to cultures being split back to 1.0E+4 vc/mL (n = 3). (F) (i) Viable cell numbers remained constant up to 288 h in culture, at which point viable cell numbers peaked representing a 25 mean fold expansion between 288–360 h. …”

Uniportal VATS Right Lower Lobectomy and Lymphadenectomy: Step-by-Step by Hussein Elkhayat (4426768)

Table_1_Tfam Knockdown Results in Reduction of mtDNA Copy Number, OXPHOS Deficiency and Abnormalities in Zebrafish Embryos.XLSX by Auke B. C. Otten (8965244)

“…Morphant embryos displayed abnormal development of the eye, brain, heart, and muscle, as well as a 50 ± 22% decrease in ATP production. Transcriptome analysis revealed a decrease in protein-encoding transcripts from the heavy strand of the mtDNA, and down-regulation of genes involved in haem production and the metabolism of metabolites, which appear to trigger increased rRNA and tRNA synthesis in the nucleoli. …”

Data_Sheet_1_Tfam Knockdown Results in Reduction of mtDNA Copy Number, OXPHOS Deficiency and Abnormalities in Zebrafish Embryos.PDF by Auke B. C. Otten (8965244)

“…Morphant embryos displayed abnormal development of the eye, brain, heart, and muscle, as well as a 50 ± 22% decrease in ATP production. Transcriptome analysis revealed a decrease in protein-encoding transcripts from the heavy strand of the mtDNA, and down-regulation of genes involved in haem production and the metabolism of metabolites, which appear to trigger increased rRNA and tRNA synthesis in the nucleoli. …”

Data_Sheet_3_Tfam Knockdown Results in Reduction of mtDNA Copy Number, OXPHOS Deficiency and Abnormalities in Zebrafish Embryos.PDF by Auke B. C. Otten (8965244)

“…Morphant embryos displayed abnormal development of the eye, brain, heart, and muscle, as well as a 50 ± 22% decrease in ATP production. Transcriptome analysis revealed a decrease in protein-encoding transcripts from the heavy strand of the mtDNA, and down-regulation of genes involved in haem production and the metabolism of metabolites, which appear to trigger increased rRNA and tRNA synthesis in the nucleoli. …”

Data_Sheet_2_Tfam Knockdown Results in Reduction of mtDNA Copy Number, OXPHOS Deficiency and Abnormalities in Zebrafish Embryos.pdf by Auke B. C. Otten (8965244)

“…Morphant embryos displayed abnormal development of the eye, brain, heart, and muscle, as well as a 50 ± 22% decrease in ATP production. Transcriptome analysis revealed a decrease in protein-encoding transcripts from the heavy strand of the mtDNA, and down-regulation of genes involved in haem production and the metabolism of metabolites, which appear to trigger increased rRNA and tRNA synthesis in the nucleoli. …”

Data_Sheet_4_Tfam Knockdown Results in Reduction of mtDNA Copy Number, OXPHOS Deficiency and Abnormalities in Zebrafish Embryos.PDF by Auke B. C. Otten (8965244)

“…Morphant embryos displayed abnormal development of the eye, brain, heart, and muscle, as well as a 50 ± 22% decrease in ATP production. Transcriptome analysis revealed a decrease in protein-encoding transcripts from the heavy strand of the mtDNA, and down-regulation of genes involved in haem production and the metabolism of metabolites, which appear to trigger increased rRNA and tRNA synthesis in the nucleoli. …”