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View article: Sleeve gastrectomy reveals the plasticity of the human gastric epithelium
Sleeve gastrectomy reveals the plasticity of the human gastric epithelium Open
Gastrin is secreted following a rise in gastric pH, leading to gastric acid secretion. Sleeve gastrectomy (SG), a bariatric surgery where 80% of the gastric corpus is excised, presents a challenge for gastric pH homeostasis. Using histolog…
View article: Adaptive olfactory circuitry restores function despite severe olfactory bulb degeneration
Adaptive olfactory circuitry restores function despite severe olfactory bulb degeneration Open
View article: Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation
Systematic identification of gene combinations to target in innate immune cells to enhance T cell activation Open
Genetic engineering of immune cells has opened new avenues for improving their functionality but it remains a challenge to pinpoint which genes or combination of genes are the most beneficial to target. Here, we conduct High Multiplicity o…
View article: Supplementary Table 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Table 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Table 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Data from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Data from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
The p53 tumor suppressor protein is a transcription factor that plays a key role in the cellular response to stress and cancer prevention. Upon activation, p53 regulates a large variety of genes causing cell cycle arrest, apoptosis, or sen…
View article: Supplementary Table 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Table 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Table 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Data from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Data from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
The p53 tumor suppressor protein is a transcription factor that plays a key role in the cellular response to stress and cancer prevention. Upon activation, p53 regulates a large variety of genes causing cell cycle arrest, apoptosis, or sen…
View article: Supplementary Table 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Table 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Table 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 2 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 4 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 4 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 4 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 4 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 4 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 4 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Table 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Table 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Table 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Figure 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Figure 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Figure 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Table 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Table 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Table 1 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Supplementary Table 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
Supplementary Table 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines Open
Supplementary Table 3 from Chromatin Immunoprecipitation–on-Chip Reveals Stress-Dependent p53 Occupancy in Primary Normal Cells but Not in Established Cell Lines
View article: Single-cell transcriptomes of pancreatic preinvasive lesions and cancer reveal acinar metaplastic cells’ heterogeneity
Single-cell transcriptomes of pancreatic preinvasive lesions and cancer reveal acinar metaplastic cells’ heterogeneity Open
Acinar metaplasia is an initial step in a series of events that can lead to pancreatic cancer. Here we perform single-cell RNA-sequencing of mouse pancreas during the progression from preinvasive stages to tumor formation. Using a reporter…
View article: The p53 C Terminus Controls Site-Specific DNA Binding and Promotes Structural Changes within the Central DNA Binding Domain
The p53 C Terminus Controls Site-Specific DNA Binding and Promotes Structural Changes within the Central DNA Binding Domain Open