Epigenetics, the dynamic regulation of genetic expression, involves complex molecular mechanisms. While the process of gene silencing by methylating the H3K27 position in histones is understood, not ...

Spanning from the heart-stage embryo to seed germination, the study charts dynamic gene expression patterns in the embryo axis and cotyledon, revealing key regulatory networks. This work uncovers how ...

In a recent study published in Nucleic Acids Research, researchers mapped dynamic gene expression in mouse mammary glands across pregnancy, lactation, and weaning, creating the first cell type, stage, ...

Study reveals how aging accelerates molecular changes in the brain, offering new hope for tackling cognitive decline and mental illness. Resource: Single-nucleus transcriptomic profiling of human ...

Nearly 7 million Americans have Alzheimer's disease, and this number is predicted to double by 2060. While aging and genetic predisposition are the most important risk factors for Alzheimer's, ...

Artificial intelligence has just redrawn the map of our genome’s control room, revealing hundreds of thousands of tiny DNA ...

For quota_Anchor, collinear gene pairs are initially identified by a dynamic programming algorithm analogous to those implemented in DAGchainer and ...

Using genomic and transcriptional data has greatly improved the understanding of multiple aspects of human physiology. A new paper in PNAS reports on molecular-level associations of co-occurring ...

A new study published in Molecular Psychiatry reveals that the biological underpinnings of autism and ADHD may transcend traditional diagnostic boundaries. While there is increasing appreciation that ...