Effect of food restriction on torpor incidence and systemic iron levels. by Rawan Kawach (17343302)

Naïve CD8⁺ T cells were identified by our method as significantly decreased in old donors using only two markers: CD8 and CCR7. by Yang Shen (66591)

Anti-CCP2 concentrations at baseline (month 0 (M0)), 1 year (M12) and 3 years (M36) of follow-up according to decreasing concentrations (panel 1 and 2), increasing concentrations (... by Olivier Meyer (63787)

Band Gap Engineering and Trap Depths of Intrinsic Point Defects in RAlO₃ (R = Y, La, Gd, Yb, Lu) Perovskites by Yaroslav Zhydachevskyy (1577929)

“…Calculations of the trap depths performed within the super cell approach for a number of intrinsic point defects and their complexes allowed recognizing specific trapping centers that can be responsible for the observed TSL. …”

Simulated final glucan to glucose conversion <i>versus</i> crystallinity fraction for different ratios (<i>r</i>_c,a) between the digestibilities of the crystalline and t... by Eric Behle (11426692)

“…<p>For each value of <i>r</i>_c,a we observe a linear decrease in final glucan to glucose conversion percentage for increasing crystallinity fraction, whose slope becomes steeper as <i>r</i>_c,a decreases. …”

Analysis of the ¹H-¹⁵N HSQC Spectra of mS100A4 in Complex with Amlexanox. by Ching Chang Cho (3080076)

“…<p>(A) Overlaid ¹H-¹⁵N HSQC spectra of 0.5 mM ¹⁵N-labeled free mS100A4 (red) and mS100A4: EGF, molar ratio = 1:0.3 (green), 1:0.6 (blue), and 1:1 (white), with the intensity drop indicated by blue boxes. …”

Protective effects of irisin on myocardium in ischemia-reperfusion (I/R) rats. by Qingqing Liu (15909)

HuNoV infection slows down intestinal transit. by Arno Cuvry (7405604)

“…<p><b>A)</b> Decrease of fluorescent signal over 4 hours in 5-dpf zebrafish larvae. …”

Impact of p53 T253I on expression of DNA damage responsive proteins. by Nathaniel C. Holcomb (22793595)

DA dip is undetectable under the pathologic imbalance between D2R and RGS. by Hidetoshi Urakubo (578508)

The D2 model performs the coincidence detection between DA dip and pre–post pairing. by Hidetoshi Urakubo (578508)

Schematic of the D2-model dynamics. by Hidetoshi Urakubo (578508)

Summary graph of gap ASR comparing experimental groups (control, salicylate, noise) at three different time points (baseline, post treatment 1 and post treatment 2). by Avril Genene Holt (358835)

“…The 10 kHz noise group demonstrated a decreased ability to inhibit gASR at both time points following noise exposure when compared to baseline. …”

DA-dip detectable regions are characterized by asymptotic functions. by Hidetoshi Urakubo (578508)

RNA-sequencing data screening for miR-1247-3p target genes. by Dequan Wang (6007007)

Red and green fluorescence of <i>M</i>. <i>aeruginosa</i> after exposure to different wavelength light and H₂O₂ at 72 hours. by Emma T. Brentjens (17295999)

DA-dip detectable region in the competitive model. by Hidetoshi Urakubo (578508)

“…<p>(A) <i>AC</i>_primed is observed under the stepwise decreasing signal of DA. …”

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…In this work, starting from a previously reported mechanically responsive CP material (<b>U-CF</b>_<b>3</b><b>-phen</b>) with a spine of triple-helix polymeric chains decorated by side-chain organic base ligands (1,10-phenanthroline, <b>phen</b>), two other new triple-helix CPs, <b>U-CF</b>_<b>3</b><b>-bpy</b> and <b>U-CF</b>_<b>3</b><b>-dmbpy</b>, that are isomorphic to <b>U-CF</b>_<b>3</b><b>-phen</b> were synthesized through side-chain engineering, i.e., replacing <b>phen</b> with two other organic base ligands, 2,2′-bipyridine (<b>bpy</b>) or 5,5′-dimethyl-2,2′-bipyridine (<b>dmbpy</b>). …”

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…In this work, starting from a previously reported mechanically responsive CP material (<b>U-CF</b>_<b>3</b><b>-phen</b>) with a spine of triple-helix polymeric chains decorated by side-chain organic base ligands (1,10-phenanthroline, <b>phen</b>), two other new triple-helix CPs, <b>U-CF</b>_<b>3</b><b>-bpy</b> and <b>U-CF</b>_<b>3</b><b>-dmbpy</b>, that are isomorphic to <b>U-CF</b>_<b>3</b><b>-phen</b> were synthesized through side-chain engineering, i.e., replacing <b>phen</b> with two other organic base ligands, 2,2′-bipyridine (<b>bpy</b>) or 5,5′-dimethyl-2,2′-bipyridine (<b>dmbpy</b>). …”

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…In this work, starting from a previously reported mechanically responsive CP material (<b>U-CF</b>_<b>3</b><b>-phen</b>) with a spine of triple-helix polymeric chains decorated by side-chain organic base ligands (1,10-phenanthroline, <b>phen</b>), two other new triple-helix CPs, <b>U-CF</b>_<b>3</b><b>-bpy</b> and <b>U-CF</b>_<b>3</b><b>-dmbpy</b>, that are isomorphic to <b>U-CF</b>_<b>3</b><b>-phen</b> were synthesized through side-chain engineering, i.e., replacing <b>phen</b> with two other organic base ligands, 2,2′-bipyridine (<b>bpy</b>) or 5,5′-dimethyl-2,2′-bipyridine (<b>dmbpy</b>). …”