Supplementary information–dataset. by Leriana Garcia Reis (12646978)

“…Whereas continuous light increased gestation length and tended to increase PN litter growth. Here we report that patterns of grams of feed intake, an indicator of feeding activity, were affected by light, diet, period of the day (day versus night) and physiological state (gestation and lactation), with significant interactions among all these variables (P<0.05). …”

Flow diagram. by Barbara Mayr (7065950)

“…We found a significant increase both times for miR-103a (glycolysis, %change base: +12%, post +17%), miR-146a (inflammation, %change base: +20%, post +21%), and miR-222 (cardiac remodeling, %change base: +10%, post +21%), while miR-30a (inflammation, %change base: -27%, post: -38%) decreased significantly (all p≤0.043).…”

Experimental timeline overview. by Leriana Garcia Reis (12646978)

“…Whereas continuous light increased gestation length and tended to increase PN litter growth. Here we report that patterns of grams of feed intake, an indicator of feeding activity, were affected by light, diet, period of the day (day versus night) and physiological state (gestation and lactation), with significant interactions among all these variables (P<0.05). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

Tandem Imaging of Breath Ethanol and Acetaldehyde Based on Multiwavelength Enzymatic Biofluorometry by Kenta Iitani (4175995)

“…Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”

DoLP characterization of clustering results. by Dolores Bernenko (16528426)

Flowchart of the study. by Flavia Furlaneto (20161022)

“…At species level, <i>Schaalia</i> spp., <i>Streptococcus gordonii</i>, and <i>Leptotrichia wadei</i> increased in Placebo and decreased in the Probiotic group after treatment. <i>Granulicatella adiacens</i> decreased significantly after the probiotic therapy, while <i>Saccharibacteria</i> (TM7) spp., <i>Solobacterium moorei</i>, and <i>Catonella morbi</i> increased significantly. …”

n-fold cross-validation and predictor for the δ³⁴S random forest regression model: A) Observed and predicted δ³⁴S isotope values. by Borja González-Rabanal (22138847)

Effects of Ni²⁺ on mitochondrial (A), glycolytic (B), and total (C) ATP production rates in BMDM. by Jesse Corbin (21736578)

“…An <i>F</i> test was used to determine if the slope was significantly different than zero. Data are presented as means ± SEM of 4 and 3 independent experiments for OCR and PER respectively, each performed with sextuplicate samples.…”

Effects of Ni²⁺ on the mitochondrial and glycolytic energy metabolism of BMDM. by Jesse Corbin (21736578)

“…A double dagger (‡) indicates a significant decrease of OCR (slope = −0.14 ± 0.04, <i>R</i>² = 0.40, <i>F</i>(1, 22)=15.0, <i>p </i>< 0.001) from 0 to 72 ppm Ni²⁺. …”