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Role of A‐ and B‐type lamins in nuclear structure–function relationships

Shalaka Patil, Kundan Sengupta

2021Biology of the Cell35 citationsDOI

Abstract

Nuclear lamins are type V intermediate filament proteins that form a filamentous meshwork beneath the inner nuclear membrane. Additionally, a sub-population of A- and B-type lamins localizes in the nuclear interior. The nuclear lamina protects the nucleus from mechanical stress and mediates nucleo-cytoskeletal coupling. Lamins form a scaffold that partially tethers chromatin at the nuclear envelope. The nuclear lamina also stabilises protein-protein interactions involved in gene regulation and DNA repair. The lamin-based protein sub-complexes are implicated in both nuclear and cytoskeletal organisation, the mechanical stability of the nucleus, genome organisation, transcriptional regulation, genome stability and cellular differentiation. Here, we review recent research on nuclear lamins and unique roles of A- and B-type lamins in modulating various nuclear processes and their impact on cell function.

Topics & Concepts

LaminNuclear laminaBiologyInner membraneCell biologyCytoskeletonNuclear proteinChromatinCell nucleusNucleusGeneticsCellGeneTranscription factorMitochondrionNuclear Structure and FunctionGenomics and Chromatin DynamicsRNA Research and Splicing
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