laminachromatin

Laminachromatin refers to regions of chromatin that are in close physical association with the nuclear lamina, a structure formed by a fibrous meshwork of lamins underlying the inner nuclear membrane. In many metazoan cells, large portions of the genome are organized into lamina-associated domains (LADs) that contact the lamina. Laminachromatin is typically gene-poor and transcriptionally inactive, and it displays late replication timing and enrichment for repressive histone marks such as H3K9me2/3 and H3K27me3.

The lamina-chromatin contacts are mediated by lamin proteins (notably Lamin B1 and somatic Lamin A/C) and lamina-associated

Functionally, laminachromatin contributes to global genome organization by partitioning the genome into peripherally anchored LADs and

Methods such as DamID, lamin ChIP, and Hi-C-based mapping have been used to study laminachromatin and LADs,