Image5_Repression of enhancer RNA PHLDA1 promotes tumorigenesis and progression of Ewing sarcoma via decreasing infiltrating T‐lymphocytes: A bioinformatic analysis.TIF by Runzhi Huang (7428713)

“…External validation based on multidimensional online databases and scRNA-seq analysis were used to verify our key findings.</p><p>Results: A six-different-dimension regulatory network was constructed based on 17 DEeRNAs, 29 DETFs, 9 DETGs, 5 immune cells, 24 immune gene sets, and 8 hallmarks of cancer. …”

Decreased serum IgG2a, IgG2b and IgG3 levels in IRF5-deficient MRL/lpr mice. by Kei Yasuda (606333)

Serotonin (5HT) levels are elevated in <i>Ube3a</i> deficient mice in the striatum and cortex and decreased in paternal 7p duplication animals. by M. Febin Farook (142138)

Parameter estimation of the data for 5-HT_1AR blockade and control in monkey KN. by Yukiko Hori (299784)

Number of SBs with <i>s</i> = 5 cited by patents as a function of number of patent citations n(pc), citation windows 5 and 10 year. by Anthony F. J. van Raan (7517696)

Chronic exposure of human PAC to nicotine decreases carrier-mediated [³H] thiamin uptake. by Padmanabhan Srinivasan (481324)

Decreased consumption of methionine sulfoxide (MetO) by the <i>V</i>. <i>cholerae</i> Δ<i>gcvT</i> mutant attenuates virulence by promoting intestinal lipid mobilization and insuli... by Audrey S. Vanhove (4090594)

The saturated fatty acid palmitate decreases viability and induces apoptosis in HUVECs. by Dustin M. Lee (8207457)

Tax expression is associated with decreased cellular motility. by Saumya Ramanayake (7879091)

Decreased numbers of motor neurons in Tc1 and Dp(16)1Yey mice. by Sheona Watson-Scales (586942)

Overexpression of SV2A-EGFP in wild-type neurons results in reduced EPSC amplitude and decreased synaptic depression. by Amy Nowack (336337)

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”