Scientists have discovered how two transcription factors form a reciprocal regulatory circuit that controls T-cell exhaustion ...

Researchers from the A*STAR Institute of Molecular and Cell Biology (IMCB) have identified Nr1h2, a critical transcription factor essential for early embryo development. Published in Nature ...

A University of Calgary-led international research team has identified a genetic factor that may explain why people respond so differently to opioid pain medications, and why some individuals face ...

A research group has revealed that transcription factors RUNX2 and BHLHE40 play crucial roles in inducing T cells involved in Crohn's disease. Crohn's disease is an intractable disorder characterized ...

Research into transcription factors deepen understanding of the 'language' of the genome, offering insights into human development. New research has uncovered more about the complexity of human gene ...

With a new study in the journal Cell, researchers at Stanford University and Stockholm University have contributed to increased knowledge about gene regulation in human cells. How genes are turned on ...

Auckland, New Zealand-based GeneDetect.com has designed ODN decoys to more than 45 common transcription factors, with plans to release more. Each decoy is a double-stranded, synthetic phosphorothioate ...

However, details of the intervening steps, as researchers have learned in the past 65 years, are quite complex — certain cells carry the flu antigen to the immune system, specific immune cells respond ...