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- Introducing the Next Generation
- Rapid and Efficient Reprogramming of Somatic Cells to Induced Pluripotent
- Epigenetics and Aging
- Reprogramming Fibroblasts with Sendai
- Reprogramming of the Paternal Genome Upon Fertilization Involves Genome-Wide Oxidation of 5-Methylcytosine
- DNA Methylation Dynamics During Epigenetic Reprogramming in the Germline and Preimplantation Embryos
- Gametes and Embryo Epigenetic Reprogramming Affect Developmental Outcome: Implication for Assisted Reproductive Technologies
- Reprogramming: Emerging Strategies to Rejuvenate Aging Cells and Tissues
- Dual Role of Reactive Oxygen Species and Their Application In
- Features of DNA Repair in the Early Stages of Mammalian Embryonic Development
- Rad50 Mediates DNA Demethylation to Establish Pluripotent Reprogramming Hanseul Park1,2, Byounggook Cho1,2 and Jongpil Kim1,2
- DNA Methylation and Cellular Reprogramming
- Epigenetic Reprogramming of the Zygote in Mice and Men: on Your Marks, Get Set, Go!
- Ten Years of Progress and Promise of Induced Pluripotent Stem Cells: Historical Origins, Characteristics, Mechanisms, Limitations, and Potential Applications
- Potency Boost for Cells
- Human Pluripotent Reprogramming with CRISPR Activators
- Mature Cells Can Be Reprogrammed to Become Pluripotent
- Reprogramming Epiblast Stem Cells Into Pre-Implantation Blastocyst
- THESIS for DOCTORAL DEGREE (Ph.D.)
- Application of Cancer Cell Reprogramming Technology To
- Induced Pluripotent Stem Cells: Hope in the Treatment of Diseases, Including Muscular Dystrophies
- Epigenetic Reprogramming in the Mammalian Embryo: Struggle of Comment the Clones Mellissa RW Mann and Marisa S Bartolomei
- DNA Methylation Reprogramming During Mammalian Development
- 5-Hydroxymethylcytosine in the Mammalian Zygote Is Linked with Epigenetic Reprogramming
- Unique Molecular Events During Reprogramming of Human
- Generation of Human Blastocyst-Like Structures by Somatic Cell Reprogramming
- Postdoctoral Positions Available in the Yi Zhang Lab the Zhang Lab
- Duox Generated Reactive Oxygen Species Activate ATR/Chk1 to Induce G2 Arrest in Drosophila Tracheoblasts
- Role of TET Enzymes in DNA Methylation, Development, and Cancer
- Selective Targeting of TET Catalytic Domain Promotes Somatic Cell Reprogramming
- Tricarboxylic Acid Cycle Metabolites As Mediators of DNA Methylation Reprogramming in Bovine Preimplantation Embryos
- Metabolic Dysregulations and Epigenetics: a Bidirectional Interplay That Drives Tumor Progression
- Tet Further Revealed: Studies Track Protein Relevant to Stem Cells, Cancer 30 March 2011