The ability to control gene expression across a wide range is crucial for many fields, including bioengineering, disease ...

Gene regulation underpins nearly every biological process—from cell development to responses to environmental changes, and ...

Controlling gene expression is essential to growth, development, and sustained life. This requires regulating the spacial, temporal, and developmental expression of genes in a wide diversity of cell ...

The parasite that causes malaria requires precise control of gene expression to progress through the various stages of its ...

A promising new strategy for antimalarial treatment? A recent study discovers a gene regulation inhibitor that selectively ...

This useful study presents findings on the developmental roles of Nup107, a key nucleoporin, in regulating the larval-to-pupal transition in Drosophila melanogaster through its involvement in ecdysone ...

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

Biologists have discovered a new type of RNA-splicing regulation that helps to determine which protein-coding exons will be included in messenger RNA transcripts.

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 ...

The manuscript addresses the 3D chromatin architecture in monocytes from patients with alcohol-associated hepatitis and its relationship to enhanced transcription of innate immune genes. While the ...