Elisabeth Mémin
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View article: Data from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Data from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
Cancer etiology is influenced by alterations in protein synthesis that are not fully understood. In this study, we took a novel approach to investigate the role of the eukaryotic translation initiation factor eIF5A in human cervical cancer…
View article: Supplementary Figures 1 through 4 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Supplementary Figures 1 through 4 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
PDF - 468K, Fig. S1. Inhibition of DOHH by ciclopirox and deferiprone. Fig. S2. Cell cycle analysis. Fig. S3. Effects of CPX and DEF on cell size and morphology. Fig. S4. Effect of CPX and DEF on HeLa cell proteins analyzed by 2D gel elect…
View article: Supplementary Table 1 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Supplementary Table 1 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
PDF - 74K, Table S1. Identification of drug-dependent spots.
View article: Supplementary Figures 1 through 4 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Supplementary Figures 1 through 4 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
PDF - 468K, Fig. S1. Inhibition of DOHH by ciclopirox and deferiprone. Fig. S2. Cell cycle analysis. Fig. S3. Effects of CPX and DEF on cell size and morphology. Fig. S4. Effect of CPX and DEF on HeLa cell proteins analyzed by 2D gel elect…
View article: Data from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Data from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
Cancer etiology is influenced by alterations in protein synthesis that are not fully understood. In this study, we took a novel approach to investigate the role of the eukaryotic translation initiation factor eIF5A in human cervical cancer…
View article: Supplementary Figure 5 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Supplementary Figure 5 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
PDF - 109K, Fig. S5. EF-P signals in target protein sequences.
View article: Supplementary Figure 5 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Supplementary Figure 5 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
PDF - 109K, Fig. S5. EF-P signals in target protein sequences.
View article: Supplementary Table 1 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation
Supplementary Table 1 from Blocking eIF5A Modification in Cervical Cancer Cells Alters the Expression of Cancer-Related Genes and Suppresses Cell Proliferation Open
PDF - 74K, Table S1. Identification of drug-dependent spots.