Mapping Key Features of Transcriptional Regulatory Circuitry in Embryonic Stem Cells

The process by which a single fertilized egg develops into a human being with more than 200 cell types-each witha distinct gene expression pattern controlling its cellular state-is poorly understood. Knowledge of the transcriptional regulatory circuitry that establishes and maintains gene expression programs in mammalian cells is fundamental to understanding development and should provide the foundation for improved diagnosis and treatment of disease, Although it is not yet feasible to map the entirely of this circuitry in vertebrate cells, recent work in embryonic stern (ES) cells has demonstrated that core features of the circuitry can be discovered throngh studies involving selected regulators. Here, we highlight the fundamental insights that have emerged front studies that examined the role of transcription factors. chromatin regulators. signaling pathways, and noncoding RNAs in the regulatory circuitry of ES cells. Maps of regulatory circuitry and the insights that have emerged from these studies have improved our understanding of global gene expression and are facilitating efforts to reprogram cells for disease therapeutics and regenerative medicine.