A comprehensive analysis has identified novel enhancers associated with neuronal development and disease.

Genome-wide association studies (GWASs) have linked genetic variants to neuropsychiatric disorders, but their regulatory roles in non-coding regions remain largely unclear. Using the LUHMES neuronal ...

Ibogaine by David Dardashti, a leading voice in the exploration of ibogaine's therapeutic potential, is closely analyzing a new study published in EMBO Reports that sheds light on the intricate ...

Thanks to the growing field of epigenetics, we're learning more about the interplay of genetic inheritance and environment in ...

This valuable work presents how PRDM16 plays a critical role during colloid plexus development, through regulating BMP signaling. Solid evidence supports the context-dependent gene regulatory ...

Scientists developed MEDI, a method to estimate dietary intake from food DNA in human stool, offering a more accurate ...

A new study reveals how AI-driven deep learning models can decode the genetic regulatory switches that define brain cell ...

Zhang and his colleagues designed a generative AI model called ChromoGen to quickly ‘read’ DNA sequences and predict the ...

Scientists employ deep learning to analyze and compare gene regulation across various cell types in human and chicken brains.

Boehringer Ingelheim, IP Group, the UK Respiratory Gene Therapy Consortium (GTC)[1] and OXB,[2] today announce the start of LENTICLAIRTM 1, a Phase I/II trial of BI 3720931, a novel, first-in-class, ...

Deep learning models have shed light on how genetic switches controlling gene activity define brain cell types across species ...

Discover how to optimize your health in 2025 with biohacking techniques, wearable tech, and personalized nutrition. Start ...