Metabolic Imbalance Effect on Retinal Müller Glial Cells Reprogramming Capacity: Involvement of Histone Deacetylase SIRT6

Keyphrases

• Sirtuin 6 (SIRT6) 100%
• Histone Deacetylase 1 (HDAC1) 100%
• Glial Cells 100%
• Metabolic Imbalance 100%
• Cell Reprogramming 100%
• Imbalance Effects 100%
• SRY-box Transcription Factor 9 (SOX9) 66%
• Oxidative Stress 33%
• Diabetes 16%
• Retina 16%
• Metabolic 16%
• Gene Expression Profile 16%
• High Glucose 16%
• Small Interfering RNA (siRNA) 16%
• Stress-induced 16%
• Cell Migration 16%
• Regulatory Elements 16%
• Diabetic 16%
• Cell Response 16%
• Metabolic Changes 16%
• Acetylation 16%
• H3K9me3 16%
• Neural Stem Cells 16%
• Differential Expression 16%
• Glucose Metabolism 16%
• Diabetic Animals 16%
• Retinal Diseases 16%
• Murine Model 16%
• Stem Cell Fate 16%
• Enrichment Analysis 16%
• Cell Development 16%
• Glutamine Synthetase 16%
• Glucose Effect 16%
• Differentially Expressed Genes 16%
• Transcriptomic Changes 16%
• Gene Ontology Enrichment Analysis 16%
• Migration Ability 16%
• Dedifferentiation 16%
• Retinal Layers 16%
• Glucose Variation 16%
• Glial Cell Responses 16%
• Migration Capacity 16%
• Functional Types 16%
• Conditional Deletion 16%
• Stem Cell Properties 16%
• Cell Pluripotency 16%
• Pluripotent Factors 16%
• Regenerative Cells 16%
• Transcription Factor Enrichment 16%
• Metabolic Impairment 16%
• High Glucose Stress 16%
• Epigenetic Modulators 16%

Neuroscience

• Histone Deacetylase 100%
• Glial Cells 100%
• SOX9 100%
• Nuclear Reprogramming 100%
• Oxidative Stress 50%
• Diabetes Mellitus 50%
• In Vivo 25%
• Gene Expression 25%
• Stem Cell 25%
• Metabolic Pathway 25%
• Cell Migration 25%
• Transcription Factors 25%
• Cell Fate 25%
• Neural Stem Cell 25%
• Small Interfering RNA 25%
• Acetylation 25%
• Glutamate Ammonia Ligase 25%
• Retinal Disease 25%
• Transcriptomics 25%
• Reprogramming 25%
• Cell Dedifferentiation 25%

Biochemistry, Genetics and Molecular Biology

• Histone Deacetylase 100%
• SIRT6 100%
• Glial Cells 100%
• Nuclear Reprogramming 100%
• SOX9 66%
• Stem Cell 33%
• Oxidative Stress 33%
• Mouse 16%
• Gene Expression 16%
• Small Interfering RNA 16%
• Reprogramming 16%
• Gene Ontology 16%
• Transcription Factors 16%
• Regulatory Element 16%
• Cell Fate 16%
• Acetylation 16%
• Epigenetics 16%
• Cell Migration 16%
• Transcriptomics 16%
• Glucose Metabolism 16%
• Cell Dedifferentiation 16%
• Glutamine Synthetase 16%