Penn Engineers have developed a new way to use AI to solve inverse partial differential equations (PDEs), a particularly ...

DNA inside the nucleus is not packed as a rigid regular fiber-linker histone H1 dynamically binds and loosely "glues" nucleosomes together, creating a dynamic, fluid organization that can still ...

Chromatin organization influences how genes are activated in our cells and, in turn, how those cells function. In addition to being faster than existing methods for studying chromatin organization, ...

The study outlines a new scenario for understanding how genome regulation and chromatin organization influence the evolution of animal body plans. The conservation of genome regulatory elements over ...

DNA inside the nucleus is not packed as a rigid regular fiber—linker histone H1 dynamically binds and loosely "glues" nucleosomes together, creating a dynamic, fluid organization that can still ...

Every cell in a body contains the same genetic sequence, yet each cell expresses only a subset of those genes. These cell-specific gene expression patterns, which ensure that a brain cell is different ...

A ripple tells you something happened, but not exactly what. That is the core problem behind a hard class of equations that ...

Recent advances in genomics, genome editing, and imaging technologies have revealed that neural activity can rapidly alter chromatin accessibility, ...

Gene expression is controlled, in part, by the interactions between genes and regulatory elements located along the genome. Those interactions depend ...