Increased osteoblastic activity and decreased osteoclastogenesis in TgLRAP cells <i>in vitro</i>. by Naoto Haruyama (487384)

“…Compared with the co-culture of WT BMCs and WT calvarial cells (WT / WT), the number of osteoclasts were significantly decreased at 50% in the co-cultures of TgLRAP BMCs and TgLRAP calvarial cells (TgLRAP / TgLRAP) (graph). …”

Decreased ISCs and increased goblet cells after intestinal specific loss of MLL1. by Neha Goveas (11790822)

“…(C) Decrease in ISC markers, OLFM4 and SOX9 in <i>Mll1</i>^{<i>FC/FC; Vil-Cre-ERT2/+</i>} intestinal sections. …”

<i>In vitro</i> 95% CI lower and upper mean susceptibility responses of field isolates to antimalarials. by Winnie Okore (14139712)

Sensitivity analysis of 50:50 model. by Rachael Miller Neilan (10678614)

Supramolecular DNA Photonic Hydrogels for On-Demand Control of Coloration with High Spatial and Temporal Resolution by Yixiao Dong (2174902)

“…Dynamically generating color patterns requires control of nanoparticle organization within a polymer network on-demand, which is challenging. We solve this problem by creating a DNA hydrogel system that shows a 50 000-fold decrease in modulus upon heating by ∼10 °C. …”

Supramolecular DNA Photonic Hydrogels for On-Demand Control of Coloration with High Spatial and Temporal Resolution by Yixiao Dong (2174902)

“…Dynamically generating color patterns requires control of nanoparticle organization within a polymer network on-demand, which is challenging. We solve this problem by creating a DNA hydrogel system that shows a 50 000-fold decrease in modulus upon heating by ∼10 °C. …”

Supramolecular DNA Photonic Hydrogels for On-Demand Control of Coloration with High Spatial and Temporal Resolution by Yixiao Dong (2174902)

“…Dynamically generating color patterns requires control of nanoparticle organization within a polymer network on-demand, which is challenging. We solve this problem by creating a DNA hydrogel system that shows a 50 000-fold decrease in modulus upon heating by ∼10 °C. …”

Supramolecular DNA Photonic Hydrogels for On-Demand Control of Coloration with High Spatial and Temporal Resolution by Yixiao Dong (2174902)

“…Dynamically generating color patterns requires control of nanoparticle organization within a polymer network on-demand, which is challenging. We solve this problem by creating a DNA hydrogel system that shows a 50 000-fold decrease in modulus upon heating by ∼10 °C. …”

Supramolecular DNA Photonic Hydrogels for On-Demand Control of Coloration with High Spatial and Temporal Resolution by Yixiao Dong (2174902)

“…Dynamically generating color patterns requires control of nanoparticle organization within a polymer network on-demand, which is challenging. We solve this problem by creating a DNA hydrogel system that shows a 50 000-fold decrease in modulus upon heating by ∼10 °C. …”

Supramolecular DNA Photonic Hydrogels for On-Demand Control of Coloration with High Spatial and Temporal Resolution by Yixiao Dong (2174902)

“…Dynamically generating color patterns requires control of nanoparticle organization within a polymer network on-demand, which is challenging. We solve this problem by creating a DNA hydrogel system that shows a 50 000-fold decrease in modulus upon heating by ∼10 °C. …”

The basic characteristics of the included studies. by Junyin Pan (20700411)

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Common definitions and criteria for metabolic syndrome. by Junyin Pan (20700411)

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Assessment of study bias in the included research. by Junyin Pan (20700411)

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Summary of subgroup analysis results. by Junyin Pan (20700411)

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Original study data. by Junyin Pan (20700411)

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Results of the effect of dietary anthocyanins on health outcomes, including effect size and heterogeneity analysis. by Junyin Pan (20700411)

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Forest plot. by Junyin Pan (20700411)

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Risk of bias assessment for eligible randomized controlled trials. by Junyin Pan (20700411)

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S2 File - by Junyin Pan (20700411)

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Funnel plot. by Junyin Pan (20700411)

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