GO analysis of stage-salient genes in the order of decreasing significance (i.e, increasing p–value). by Sangeetha Muthamilselvan (8966006)

“…<p>GO analysis of stage-salient genes in the order of decreasing significance (i.e, increasing p–value).</p>…”

Higher reward decreases three measures of response variability. by Zvi N. Roth (9611598)

Species richness decreases significantly with increasing percent disturbance. by Catherine L. Cardelús (6429320)

Gut richness and diversity decrease significantly by week 5 of chemoradiotherapy. by Molly B. El Alam (10231830)

Dynamic stability based on the Feasible Stability Region (FSR). by Hyung Suk Yang (20442438)

Subjects:

Validation of primary screen hits reveals compounds that recapitulate increased spheroid size (swell) or decreased MUC5AC in the lumen. by Pranjali Beri (14945400)

“…Compounds that appeared to cause toxicity were identified by observing a significant decrease in spheroid counts in the swell readout or a significant decrease in the total nuclear intensity of the MUC5AC ratio readout. …”

Metformin/rifampicin combination decreases <i>S</i>. <i>aureus</i> load and persisters in Mice. by Xiao-Qi Lin (9548375)

Vibriocidal activities were significantly decreased by depletion of IgM in serum. by Jae Seung Yang (701319)

ANCOVA of the primary endpoint: Tinnitus Questionnaire (TQ) sum score (baseline based multiple imputation). by Uso Walter (16949243)

Subjects:

Change of the primary endpoint Tinnitus Questionnaire (TQ) sum score based on the intention to treat (ITT) population of patients (imputation: multiple imputations). by Uso Walter (16949243)

Subjects:

Arctigenin decreased proliferation in colorectal cancer cells with no significant effect on normal cells. by Xiang-Fan Chen (13932983)

County-level geographical septile distribution for the first 12 statistically significant factors with at least one statistically significant coefficient ranked by decreasing ΔIC. by Yanan Long (11784717)

The size effects for each variable as the coefficient decrease to zero with increasing lambda. by Chulyoung Cho (18397361)

Compressed sensing decoded pooled testing significantly decreases the number of tests required to identify infected samples. by Kody A. Waldstein (14002708)

Overexpression of Gαq decreases cell number and cell size. by Dharsan K. Soundarrajan (11632145)

“…Overexpression of Gαq in the pouch results in a decrease in total wing area, cell number and cell size. 10 samples were analyzed per condition. …”

S2 Table for BVRT error - by Nakako Okamoto (18501452)

Subjects:

The correct scores and the error scores of the BVRT for control and rTMS. by Nakako Okamoto (18501452)

Subjects:

<i>eIF2A</i> overexpression decreases the cell wall protein levels. by Laura Meyer (4033793)

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>). …”