image1_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

image1_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

image3_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

image1_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

image3_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

image2_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

image2_Myostatin Promotes Osteoclastogenesis by Regulating Ccdc50 Gene Expression and RANKL-Induced NF-κB and MAPK Pathways.tif by Xin Zhi (1829224)

“…Specifically, myostatin increased the phosphorylation of Smad2, which led to the activation of NF-κB and MAPK pathways to activate osteoclastogenesis. Ccdc50 was identified as a gene whose expression was highly decreased in osteoclastogenesis upon myostatin treatment, and it could inhibit the function of myostatin in osteoclastogenesis by blocking NF-κB and MAPKs pathways. …”

Period of influence of each daily variable on the pod status change, from healthy to diseased with no signs of sporulation, 40 to 50 days after tagging. by Mariela E. Leandro-Muñoz (4487608)

Simulation 1 model fits. by Jordan Barnes (12256947)

Measures analyzed during the unilateral submaximal eccentric exercise. by Jennifer Gioda (17951785)

Effects of FCCP and verapamil on MMP of HCT15 and CT26 cancer cells. by Jin Won Park (2901029)

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Cellular senescence was not detected in <i>Rap1</i> knockin mice. by Amanda J. Stock (3139719)

Weight and average escape latency (AEL) changes of rats during and after exposed to 50 Hz and 400 μT ELF-EMF for 60 days. by Xiao Liu (65413)

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CAP256-VRC26 bnAbs maintain neutralization activity against cell-cell transmission of autologous viruses. by Lucia Reh (546554)

Evolution of the frequency of <i>Loa loa</i> clinical symptoms over the 30-day follow-up period. by Luccheri Ndong Akomezoghe (18585684)

The effect of (A) mean sequencing depth (genome coverage) and (B) average number of nucleotide differences per site (<i>π</i>) on accuracy of genetic similarity estimates in simula... by Kevin D. Murray (759583)

Expression of TPI, VIM and MAT2A in sh₁ and sh₂. by Christina Herre (12475755)

“…MAT2A displayed a decrease in sh₁ and in sh₂ at day 5. …”

Amount of penetration between subsequent printed layers; A) lattice scaffolds, B) staggered scaffolds (Data are presented as M ± SD). by Zahra Yazdanpanah (10038944)