Electrical activity patterns for the CCI experiments. by Gu Huaguang (721302)

Comparative death probabilities of tumor-bearing mice across weeks of assessment. by Robert Botelho (20308297)

Slf1p is required for oxidative stress gene expression during oxidative stress conditions. by Christopher J. Kershaw (682264)

Fig 3 - by Niu Yayi (10834325)

<i>impdh2</i> mediates the circadian control of cell cycle. by Ying Li (38224)

“…<p>(A) The BrdU staining in 5 dpf larvae represents the daily rhythm of S phase in cell cycle under LD conditions. …”

Coalescence-Induced Self-Propulsion of Droplets on Superomniphobic Surfaces by Hamed Vahabi (2879192)

“…Within the visco-capillary regime, decreasing the droplet radius <i>R</i>₀ results in a more rapid decrease in the nondimensional jumping velocity <i>V</i>_j^* compared to increasing the viscosity μ. …”

Coalescence-Induced Self-Propulsion of Droplets on Superomniphobic Surfaces by Hamed Vahabi (2879192)

“…Within the visco-capillary regime, decreasing the droplet radius <i>R</i>₀ results in a more rapid decrease in the nondimensional jumping velocity <i>V</i>_j^* compared to increasing the viscosity μ. …”

Coalescence-Induced Self-Propulsion of Droplets on Superomniphobic Surfaces by Hamed Vahabi (2879192)

“…Within the visco-capillary regime, decreasing the droplet radius <i>R</i>₀ results in a more rapid decrease in the nondimensional jumping velocity <i>V</i>_j^* compared to increasing the viscosity μ. …”

Coalescence-Induced Self-Propulsion of Droplets on Superomniphobic Surfaces by Hamed Vahabi (2879192)

“…Within the visco-capillary regime, decreasing the droplet radius <i>R</i>₀ results in a more rapid decrease in the nondimensional jumping velocity <i>V</i>_j^* compared to increasing the viscosity μ. …”

Vitamin D3 retards the growth of EAC tumors in normal and hyperglycaemic mice. by Vidya G. Bettada (22208808)

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…A prototype is manufactured, and the test result shows that it can charge a 2200 μF supercapacitor to 6.2 V within 120 s, which indicates that it has a great potential to achieve the self-powered low-power sensors. …”

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…A prototype is manufactured, and the test result shows that it can charge a 2200 μF supercapacitor to 6.2 V within 120 s, which indicates that it has a great potential to achieve the self-powered low-power sensors. …”

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…A prototype is manufactured, and the test result shows that it can charge a 2200 μF supercapacitor to 6.2 V within 120 s, which indicates that it has a great potential to achieve the self-powered low-power sensors. …”

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…A prototype is manufactured, and the test result shows that it can charge a 2200 μF supercapacitor to 6.2 V within 120 s, which indicates that it has a great potential to achieve the self-powered low-power sensors. …”

Investigation of oligomeric size distribution in the proteins. by Aref Baharvand (21713886)

Image_3_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.TIF by Mengmeng Kong (11815760)

“…The abundance of the chloroplast rRNA, including 23S, 16S, 4.5S, and 5S rRNA, were reduced in the rp8 mutant, respectively, and the amounts of chloroplast ribosome proteins, such as, PRPS1(uS1c), PRPS5(uS5c), PRPL2 (uL2c), and PRPL4 (uL4c), were substantially decreased in the rp8 mutant, which indicated that knockout of RP8 seriously affected chloroplast translational machinery. …”

Image_1_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.TIF by Mengmeng Kong (11815760)

“…The abundance of the chloroplast rRNA, including 23S, 16S, 4.5S, and 5S rRNA, were reduced in the rp8 mutant, respectively, and the amounts of chloroplast ribosome proteins, such as, PRPS1(uS1c), PRPS5(uS5c), PRPL2 (uL2c), and PRPL4 (uL4c), were substantially decreased in the rp8 mutant, which indicated that knockout of RP8 seriously affected chloroplast translational machinery. …”

Image_4_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.TIF by Mengmeng Kong (11815760)

“…The abundance of the chloroplast rRNA, including 23S, 16S, 4.5S, and 5S rRNA, were reduced in the rp8 mutant, respectively, and the amounts of chloroplast ribosome proteins, such as, PRPS1(uS1c), PRPS5(uS5c), PRPL2 (uL2c), and PRPL4 (uL4c), were substantially decreased in the rp8 mutant, which indicated that knockout of RP8 seriously affected chloroplast translational machinery. …”

Table_1_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.pdf by Mengmeng Kong (11815760)

“…The abundance of the chloroplast rRNA, including 23S, 16S, 4.5S, and 5S rRNA, were reduced in the rp8 mutant, respectively, and the amounts of chloroplast ribosome proteins, such as, PRPS1(uS1c), PRPS5(uS5c), PRPL2 (uL2c), and PRPL4 (uL4c), were substantially decreased in the rp8 mutant, which indicated that knockout of RP8 seriously affected chloroplast translational machinery. …”

Image_2_A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana.TIF by Mengmeng Kong (11815760)

“…The abundance of the chloroplast rRNA, including 23S, 16S, 4.5S, and 5S rRNA, were reduced in the rp8 mutant, respectively, and the amounts of chloroplast ribosome proteins, such as, PRPS1(uS1c), PRPS5(uS5c), PRPL2 (uL2c), and PRPL4 (uL4c), were substantially decreased in the rp8 mutant, which indicated that knockout of RP8 seriously affected chloroplast translational machinery. …”