Michael R. Emmert‐Buck
YOU?
Author Swipe
View article: Figure S2 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S2 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Genes associated with the twenty top-scored pathways of malignant hepatocytes of HDV-HCC.
View article: Data from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Data from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
There is limited data on the molecular mechanisms whereby hepatitis D virus (HDV) promotes liver cancer. Therefore, serum and liver specimens obtained at the time of liver transplantation from well-characterized patients with HDV-HCC (n…
View article: Figure S3 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S3 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Synopsis of the 20 top-scored pathways associated with genes identified in malignant hepatocytes derived from HDV-, HBV- and HCV-HCC.
View article: Figure S1 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S1 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Experimental design.
View article: Figure S2 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S2 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Genes associated with the twenty top-scored pathways of malignant hepatocytes of HDV-HCC.
View article: Figure S7 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S7 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
HBV DNA levels in tumorous and non-tumorous tissues of individual patients with HBV-associated HCC.
View article: Figure S6 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S6 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Synopsis of the 20 top-scored pathways associated with WLT-unique genes identified in the three tumors.
View article: Figure S4 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S4 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Clusters of the 37 genes involved in the cell cycle and differentially expressed in malignant hepatocytes derived from HDV-HCC.
View article: Figure S7 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S7 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
HBV DNA levels in tumorous and non-tumorous tissues of individual patients with HBV-associated HCC.
View article: Figure S4 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S4 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Clusters of the 37 genes involved in the cell cycle and differentially expressed in malignant hepatocytes derived from HDV-HCC.
View article: Figure S5 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S5 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Venn diagrams of differentially expressed genes obtained from laser capture microdissected hepatocytes and whole liver tissue of patients with HDV-, HBV-and HCV-associated HCC
View article: Figure S5 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S5 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Venn diagrams of differentially expressed genes obtained from laser capture microdissected hepatocytes and whole liver tissue of patients with HDV-, HBV-and HCV-associated HCC
View article: Figure S6 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S6 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Synopsis of the 20 top-scored pathways associated with WLT-unique genes identified in the three tumors.
View article: Figure S1 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S1 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Experimental design.
View article: Figure S3 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Figure S3 from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
Synopsis of the 20 top-scored pathways associated with genes identified in malignant hepatocytes derived from HDV-, HBV- and HCV-HCC.
View article: Data from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma
Data from Molecular Signature and Mechanisms of Hepatitis D Virus–Associated Hepatocellular Carcinoma Open
There is limited data on the molecular mechanisms whereby hepatitis D virus (HDV) promotes liver cancer. Therefore, serum and liver specimens obtained at the time of liver transplantation from well-characterized patients with HDV-HCC (n…
View article: Data from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy
Data from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy Open
Purpose: After an initial response to androgen ablation, most prostate tumors recur, ultimately progressing to highly aggressive androgen-independent cancer. The molecular mechanisms underlying progression are not well known in part…
View article: Supplementary Table S1 from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy
Supplementary Table S1 from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy Open
Unabridged List of Genes Differentially Expressed Between AD and AI Prostate Cancer
View article: Data from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy
Data from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy Open
Purpose: After an initial response to androgen ablation, most prostate tumors recur, ultimately progressing to highly aggressive androgen-independent cancer. The molecular mechanisms underlying progression are not well known in part…
View article: Supplementary Table S1 from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy
Supplementary Table S1 from Molecular Alterations in Primary Prostate Cancer after Androgen Ablation Therapy Open
Unabridged List of Genes Differentially Expressed Between AD and AI Prostate Cancer
View article: Supplementary Figure Legend from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Figure Legend from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Figure Legend from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Table 3 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Table 3 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Table 3 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Data from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Data from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Emerging technologies allow broad profiling of the cancer genome for differential DNA methylation relative to benign cells. Herein, bisulfite-modified DNA from lymph nodes with either reactive hyperplasia or follicular lymphoma (FL) were a…
View article: Supplementary Figure Legend from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Figure Legend from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Figure Legend from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Table 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Table 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Table 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Table 4 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Table 4 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Table 4 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Figure 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Figure 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Figure 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Table 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Table 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Table 1 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Table 3 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Table 3 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Table 3 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
View article: Supplementary Table 4 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome
Supplementary Table 4 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome Open
Supplementary Table 4 from Large-Scale Profiling of Archival Lymph Nodes Reveals Pervasive Remodeling of the Follicular Lymphoma Methylome