<i>Kdm6a</i>^{<i>tm1d/+</i>} mice have shortened bones and altered skeletal parameters. by Christine W. Gao (18794576)

“…<p><i>Kdm6a</i>^{<i>tm1d/+</i>} mice have significantly shorter (A) femurs and (B) tibias compared to <i>Kdm6a</i>^<i>+/+</i> littermates (<i>Kdm6a</i>^<i>+/+</i> n = 16; <i>Kdm6a</i>^{<i>tm1d/+</i>} n = 15), which is also shown in (C) representative longitudinal micro-CT images of femurs and tibias from <i>Kdm6a</i>^{<i>tm1d/+</i>} and <i>Kdm6a</i>^<i>+/+</i>. …”

Image_2_MicroRNA let-7 Suppresses Influenza A Virus Infection by Targeting RPS16 and Enhancing Type I Interferon Response.tif by Wenjiao Wu (797806)

“…We found that influenza A virus (IAV) infection caused a significant decrease of microRNA let-7 expression in host cells; that overexpression of let-7 increased interferon expression and effectively inhibit IAV infection; and that let-7 targets the 3’-untranslated region (UTR) of the ribosomal protein 16 (RPS16) gene, decreasing its expression. …”

Image_1_MicroRNA let-7 Suppresses Influenza A Virus Infection by Targeting RPS16 and Enhancing Type I Interferon Response.tif by Wenjiao Wu (797806)

“…We found that influenza A virus (IAV) infection caused a significant decrease of microRNA let-7 expression in host cells; that overexpression of let-7 increased interferon expression and effectively inhibit IAV infection; and that let-7 targets the 3’-untranslated region (UTR) of the ribosomal protein 16 (RPS16) gene, decreasing its expression. …”

A rough draft of a working systems-map. by Thi Hoang Vu (13268033)

A More Important Role for the Ozone-S(IV) Oxidation Pathway due to Decreasing Acidity in Clouds.xlsx by Jiarong Li (8935844)

Knockdown of HuD in N2a cells causes decrease in the RNA levels of Msi2. by Naina Gaikwad (20435889)

AMD CIDEC variants cause a decrease in the lipid exchange rate between lipid droplets (LDs). by Sehyun Kim (2697172)

Interaction strength in plant-pollinator networks: Are we using the right measure? by Roberto Novella-Fernandez (8119745)

Increased labor induction and women presenting with decreased or altered fetal movements - a population-based survey by Anna Akselsson (6659081)

“…<div><p>Introduction</p><p>Women’s awareness of fetal movements is important as perception of decreased fetal movements can be a sign of a compromised fetus. …”

Fire slightly decreases on the short-term the competitive effects of a thorny cushion shrub in a semi-arid mountain steppe by Mehdi Abedi (9634943)

Table5_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table11_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.DOCX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table2_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table4_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table9_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table3_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table1_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table10_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table6_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”

Table8_Effect of SLC16A1 on Hepatic Glucose Metabolism in Newborn and Post-Weaned Holstein Bulls.XLSX by Mingming Xue (5424857)

“…Moreover, this study found that miR-22-3p decreased cell activity by negatively regulating the SLC16A1. …”