At E9.5 Actb^−/− neural crest cells show a significant decrease of cadherin-11 expression. by Davina Tondeleir (426905)

“…<p>(A) Quantification of N-cadherin intensities in Actb^+/+ and Actb^−/− migratory cells adjacent to the neural tube at E8.5 and E9.5 (left graph, Y-axis: relative intensities) and colocalization of N-cadherin with p75 in migratory cells at E8.5 and E9.5 (right graph, Y-axis: colocalization index on a scale from 0 to 1). …”

Trend of temperature decrease in thermogradient freezer during the night from 7:00 P.M. to 5:00 A.M. by Alireza Hasanfard (13919335)

“…<p>Trend of temperature decrease in thermogradient freezer during the night from 7:00 P.M. to 5:00 A.M.…”

Shifting <i>V. cholerae</i> from glucose-based to starch-based conditions leads to a decrease in CT production. by Juliane Kühn (669504)

rVλ6Wil fibrils cause a decrease in cardiomyocytes MTT reduction without inducing cell death. by Helen P. McWilliams-Koeppen (116503)

“…(C) Cell number, quantified using crystal violet (black) did not decrease over 72 h of incubation with 1 μM rVλ6Wil fibrils despite a decrease in MMT reduction (grey; n = 3 samples per time point). …”

Overview of pipeline steps and study design. by Alireza Talesh Jafadideh (14227404)

Mammalian METTL10 is an EF1A1 KMT. by Tadahiro Shimazu (619411)

Two strategies used by patients with lumbar spinal stenosis to alleviate symptoms. by Tatsuya Igawa (5204423)

“…(b) Trunk upright posture with a decreased step length and hip extension angle. …”

KDM6A mRNA expression is decreased in PTFE mice. by Simon Lebek (9756148)

Forty-three reflective markers. by Tatsuya Igawa (5204423)

Stepped-Wedge Trial Diagram. by Sugy Choi (800862)

“…This report specifically focuses on Project 3, which involves a stepped-wedge trial with 35 clinics receiving a quality management intervention that includes performance coaching. …”

RNF5 depletion decreases cellular gene expression and lytic replication through increased EphA3 and EphA4 level in iSLK.219 cells. by Xiaojuan Li (351842)

HoxA9-ER directly represses <i>Cebpa</i> gene expression in myeloid cells. by Lei Peng (260321)

Subjects:

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

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). 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)

“…The oxidation of EtOH by ADH_OX in the presence of NAD⁺ produced NADH, which was subsequently oxidized by diaphorase (DP) with resazurin, leading to the resorufin formation, characterized by red fluorescence (excitation at 560 nm and fluorescence at 590 nm). Reduction of AcH by ADH_RD consumed NADH, leading to a decrease in blue fluorescence (ex. 340 nm, fl. 490 nm). …”