Divergent gene expression in <i>D. sechellia.</i> by Daehan Lee (5043377)

Statistical analysis of the AUC measurement. by Esra Ayan (21156015)

“…<p>Analysis indicated that INSv application significantly changed spontaneous calcium activity (IAsp <i>p</i>-value: 0.1290, INSv <i>p</i>-value: 0.0002). …”

AC-LPN circuit control high temperature induced increase of evening sleep. by Xin Yuan (174619)

“…Quantification of evening sleep (I) and sleep change (J) shown. (K–M) The ppk neuron inhibition also blocks the high-temperature-induced decrease in evening locomotion (ZT9-ZT12) (red bar, 29°C) relative to baseline (black bar, 23°C). …”

PERCOM, an unbiased and easily-accessible protein-centric analysis workflow. by Brian Foo (19273132)

β-NAD increases intracellular cAMP concentration via soluble adenylyl cyclase, but this pathway is not essential for the relaxing effect. by Innokentij Jurastow (22430601)

“…(E, F, I, J) Scatterplots depict changes induced by β-NAD related to the preceding response to muscarine. …”

Classification of Anti-HlyE IgG Responses. by Jo Walker (22404069)

Individual data. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Descriptive statistics. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Time matched metabolic cost. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Research design. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Time matched physiological strain. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Physiological strain. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Diagram of exercise intervention progression. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Perceived exertion. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Metabolic cost. by JoEllen M. Sefton (16880253)

“…The primary outcome measure was change in metabolic cost with/without the exoskeleton (O2 consumption, metabolic equivalents); secondary outcomes were change in heart rate and perceived exertion between conditions.…”

Attention reduces decision uncertainty under high cognitive demand. by Rahul Garg (3064578)

“…(L) Fraction of glomeruli with significant changes with cued-odor. Yellow: increased, dark grey: decreased, light grey: unchanged. …”

AMP binding free energy calculations and per-residue decomposition of holo and PfIleRS-SANC systems. by Curtis Chepsiror (21368103)

Fig 9 - BC. by Curtis Chepsiror (21368103)

Influence intensity of Pressure(a), AOD(b), Lai(c), ET(d), Dew(e) on nitrogen dioxide concentration. by Feifei Cheng (8985345)

Cued-attention is mediated by a cholinergic HDB to SAC circuit. by Rahul Garg (3064578)

“…Inset denotes glomeruli with significant changes with SAC inhibition. Yellow: increased, dark grey: decreased, light grey: unchanged. …”